НЕЗАВИСИМО РАБОТАЮЩИЙ И ПЕРЕНОСНОЙ РАДИАТОР (ВАРИАНТЫ) И СПОСОБ ЕГО ИЗГОТОВЛЕНИЯ

Изобретение относится к отопительным приборам и может использоваться для отопления помещений. Радиатор включает излучающие элементы, образованные соединенными друг с другом пластинами, причем каждый из излучающих элементов имеет по меньшей мере одну зону своей поверхности, внешнюю по отношению к центральной части с толщиной стенки, равной толщине пластин. По второму варианту изобретения каждый излучающий элемент имеет сужение в направлении вверх. Способ изготовления радиатора включает операции формирования пластин, сварки и выполнения механической обработки только первой пластины на наружной ее поверхности. Такое выполнение радиатора позволяет исключить дополнительные операции при изготовлении его элементов, а также позволяет получить радиатор с меньшим весом, увеличенным КПД и улучшенным внешним видом. 3 с. и 20 з.п. ф-лы, 23 ил.

СТЕНД КАЛОРИФЕРНЫЙ

Стенд калориферный содержит жесткий каркас, на котором выделены два посадочных места для фиксации эталонной и испытуемой секций калорифера, подводящий и отводящий воздухопроводы, подводящий и отводящий переходники, подводящий и отводящий трубопроводы греющего и отработанного теплоносителей, контрольно-измерительные приборы и регистрирующую аппаратуру. Отличительной особенностью стенда является то, что подводящий переходник выполнен в виде развилки, обеспечивающей деление поступающего воздуха на два примерно равных по расходу и скорости движения воздушных потока, а отводящий переходник выполнен в виде развилки, обеспечивающей объединение исходящих из калориферных секций потоков воздуха. 1 ил. The heater stand contains a rigid frame, on which two seats are allocated for fixing the reference and test sections of the heater, inlet and outlet air ducts, inlet and outlet adapters, inlet and outlet pipelines of heating and waste heat carriers, instrumentation and recording equipment. A distinctive feature of the stand is that the inlet adapter is made in the form of a fork, which ensures the division of incoming air into two air flows approximately equal in flow rate and speed, and the outlet adapter is made in the form of a fork, which ensures the combination of air flows emanating from the heater sections. 1 ill. РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 210 004 U1 (51) МПК F28D 1/00 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ ПОЛЕЗНОЙ МОДЕЛИ К ПАТЕНТУ (52) СПК F28D 1/00 (2022.02) 08.12.2020 Дата регистрации: 24.03.2022 Приоритет(ы): (22) Дата подачи заявки: 08.12.2020 (45) Опубликовано: 24.03.2022 Бюл. № 9 (54) СТЕНД КАЛОРИФЕРНЫЙ (57) Реферат: Стенд калориферный содержит жесткий каркас, на котором выделены два посадочных места для фиксации эталонной и испытуемой секций калорифера, подводящий и отводящий воздухопроводы, подводящий и отводящий переходники, подводящий и отводящий трубопроводы греющего и отработанного теплоносителей, контрольно ...

Агрегат тепловентиляционный

Полезная модель имеет изобретательский уровень, промышленно применима. Относится к теплоэнергетике, изделию: с теплообменными аппаратами, несколькими теплоносителями, не контактирующими между собой; с воздухонагревом, имеющим принудительную циркуляцию воздуха; устройству для сжигания с использованием жидкого газообразного топлива в камере сгорания. В частности, к вентиляции и отоплению за счет атмосферного нагреваемого воздуха в ангарах и быстровозводимых блочно-модульных конструкциях для предпускового отопления и вентиляции блока газотурбинного двигателя, подачи нагретого воздуха для противообледенительной системы воздухоочистительного устройства. Агрегат тепловентиляционный работает за счет основного контура, теплоносителя воды и этиленгликоля, который, в свою очередь, питается от основной котельной, расположенной в местной инфраструктуре. Агрегат представляет собой металлический блок-бокс. Основными модульными элементами заводского комплектования внутреннего наполнения являются: вентиляторы ...

Способ охлаждения газа в аппаратах воздушного охлаждения и устройство для его реализации

FIELD: cooling. SUBSTANCE: invention relates to methods for cooling gas in air cooling apparatuses and to apparatuses for implementation thereof. A method for air cooling of gas, including supplying gas into the pipes of a multi-row one-pass pipe bundle and supplying cooling air into the inter-pipe space, forming a zigzag pattern of air movement with high turbulence due to the outer finning of the pipe bundle containing finning elements placed equidistantly along the circumference, each formed by chutes put one into another, placed longitudinally on the pipe bundle, attached to the last one and to each other by the middle parts of the bases, and made on the side generatrices of the chutes with lobes deployed transversely in one direction or in a direction opposite to the adjacent lobes, arranged in longitudinal rows, the side generatrices of adjacent chutes are located in each element a distance from each other not exceeding the width of the lobes made along the entire height of the side generatrices and located in adjacent rows with mutual displacement, wherein, in addition to the zigzag translational motion, the cooling air is directed along channels formed by the spiral-shaped elements of the lobes, and swirled into a stable rotational motion relative to the axes radial relative to to the pipes. The outer finning of the heat exchange pipe, containing the finning elements in the form of a spatial Archimedes spiral, with the diameter of the spiral reducing when approaching the pipe, arranged equidistantly along a circumference. EFFECT: increase in the efficiency of gas cooling in finned bundles of air cooling heat exchanger pipes of the above air cooling apparatuses; by swirling the cooling air in the channels formed by the spiral-shaped elements of the lobes, wherein the finning of the bundles of air cooling heat exchangers pipes is made in the form of said lobes in the radial direction relative to the pipes, leading to a significant increase in the contact time ...

Fin and tube heat exchanger

A heat exchanging apparatus

A heat exchanging apparatus 10 comprises a first heat exchanger, oil cooler 12, arranged to allow ambient air to pass therethrough and a second heat exchanger, radiator 14, adjacent the first heat exchanger 12 and arranged to allow air exiting the first heat exchanger 12 to pass therethrough. A third heat exchanger is provided comprising two or more heat exchanging cores interconnected in parallel or series, acting as charge air coolers 16 which may be situated at an angle. Each core allows ambient air to pass through. The interconnection may be via a charge air connecting tank (169 see fig 9). A cowl 18 and a fan 19 are also provided. The invention is suitable for off highway vehicles including tractors and is aimed at providing required heat exchange performance despite fitting within vehicular spatial constraints.

Improvements in and relating to compressed air systems

Improvements in Radiators for Petrol and Gas Motors.

... 16,153. Luypaerts, V. July 6. Cooling water.-In a radiator for motorvehicles &c., the cooling- air passes through passages c in the front and back water chambers, a fan d being enclosed in a space between them. The fan has two blades, and is introduced and withdrawn through a slot e in the rear water chamber.

PROCEDURE FOR THE PRODUCTION OF A PLATE-TYPE HEAT EXCHANGER

Kühlerstation zum Anschluß eines Flüssigkeitskühlers

Kühlerstation (1) mit einem Flüssigkeitskühler (3), welcher einen ersten Verteilerkasten (14), bestehend aus einem hohlen Strangpressprofil aus Aluminium, aufweist, welches nach außen offene Führungsnuten aufweist, sowie mit einer Plattform (10), die durch in die Führungsnuten des ersten Verteilerkastens einsetzbare mechanische Anschlusselemente auf den Flüssigkeitskühler aufschiebbar und fest mit ihm verbindbar ist, wobei die Kühlerstation ein Set von Plattformen umfasst, wobei jeweils eine Plattform mit dem Flüssigkeitskühler verbindbar ist und das Set Plattformen umfasst, die verschiedene hydraulische und/oder elektrische Anschlüsse aufweisen. Die Kühlerstation kann in eine Flüssigkeitskühleranlage eingebaut werden, die weiters ein Gebläse, einen Flüssigkeitstank und einen Flüssigkeitsfilter umfasst. Der Flüssigkeitskühler, das Gebläse, der Flüssigkeitstank und/ oder der Flüssigkeitsfilter können jeweils aus einem Set ausgewählt werden, so dass ein modulares System zur Bereitstellung ...

EINRICHTUNG ZUM ANSCHLIESSEN VON ROHRLEITUNGEN AN EINEN FLÜSSIGKEITS-LUFTKÜHLER

HEAT EXCHANGER

GILLED PIPE HEAT EXCHANGER

DEVICE TO THE HEAT EXCHANGE WITH FLATTENING PRODUCT

Steam pyrolysis as a process to enhance the hydro-gasification of carbonaceous materials

Heat exchanger

HEAT EXCHANGER MODULE FOR A VEHICLE OR THE LIKE

An easily assembly and readily serviceable heat exchanger module particularly suited for vehicular application includes at least two adjacent heat exchangers. At least one of the heat exchangers has a side defined by an outwardly opening channel which in turn receives a plastic bar or strip. The bar is provided with a plurality of relatively deep recesses which are alignable with holes in the channel. The bottoms of the recesses are sufficiently thin as to be easily penetrable by a threaded fastener extending through the holes in the channel and into the recesses for securing components of the module together and yet are sufficiently thick as to prevent the flow of fluid through the recesses to thereby assure that heat exchange fluid will pass through the heat exchangers.

HEAT EXCHANGER

Luftröhren-Kühler für Automobilmotoren.

Corpo riscaldante a forma di piastra

SYSTEM FOR PASSIVELY REMOVING HEAT FROM INSIDE A CONTAINMENT SHELL

COOLING RADIATOR WITH LIQUID COOLING

Includes a heat pump machine and a series of relevant process

Radiators

Mode of assembly of the blades of devices of covering of radiators of engines àcombustion

Radiator

Apparatus of heat transfer

Heater-combined refrigerant circulation methodical

Thermal management system for fuel cell vehicle and method thereof

본 발명은 연료전지 차량의 열 관리 시스템 및 방법에 관한 것으로, 특히 본 발명에에서는 열 관리 시스템의 방열 성능을 개선하여 혹서기 고출력 운전 시와 같이 스택의 온도가 크게 상승하게 경우라 하더라도, 차량 전류 제한 도달 시간을 증대시켜 스택의 출력 안정성을 개선하는 한편, 고온의 냉각수가 유입되는 이온 필터의 내구성을 개선할 수 있는 연료전지 차량의 열 관리 시스템 및 방법을 제공하고자 한다. 이를 위해 본 발명에서는 라디에이터 → 3-웨이 밸브 → 펌프 → 히터 → 스택으로 연결되는 열 관리 시스템을 구현하되, 이온 필터 라인을 3-웨이 밸브의 바이패스 라인 측 포트 상에 연결함으로써 선택적 이온 필터링 및 유량 증대를 구현할 수 있는 차량용 연료전지 시스템의 선택적 이온 필터링 장치 및 방법을 제공하는 것에 특징이 있다. The present invention relates to a thermal management system and method for a fuel cell vehicle. In particular, in the present invention, even if the temperature of the stack rises significantly as in the case of a high-output driving operation by improving heat dissipation performance of the thermal management system, The present invention provides a thermal management system and method for a fuel cell vehicle that improves the output stability of a stack by increasing the arrival time and improves the durability of an ion filter into which high temperature cooling water flows. To achieve this, the present invention implements a thermal management system connected to a radiator, a 3-way valve, a pump, a heater, and a stack, wherein the ion filter line is connected on the bypass line side port of the 3- The present invention is characterized by providing a selective ion filtering apparatus and method of a fuel cell system for a vehicle capable of realizing the enhancement of the performance of the fuel cell system.

DOWNHOLE APPLICATIONS OF COMPOSITES HAVING ALIGNED NANOTUBES FOR HEAT TRANSPORT

In one aspect, an apparatus is disclosed that includes an anisotropic nanocomposite element in thermal communication with a heat-generating element for conducting heat away from the heat-generating element along a selected direction. In another aspect, a method of conveying heat away from a heat-generating element is disclosed that includes transferring heat from the heat-generating element to an anisotropic nanocomposite element that is configured to conduct heat along a selected direction, and transferring heat received by the anisotropic nanocomposite element to a heat-absorbing element.

Method of manufacturing thermal module with enhanced assembling structure

A thermal module with enhanced assembling structure includes a base and a heat pipe. The base is formed on a middle portion with a longitudinal receiving recess, which has two end portions forming two supporting portions and a middle portion formed into an opening. A first and a second extended arm are formed at junctions between the receiving recess and two longitudinal sides of the opening. Wall surfaces of the first and second extended arms adjacent to the longitudinal sides of the opening are formed with alternating elevated and sunken areas. The heat pipe is held down in the receiving recess by the first and second extended arms to fitly engage with the elevated and sunken areas. Therefore, there is an increased fitting tightness between the heat pipe and the base to ensure enhanced assembling strength of the thermal module and reduce the manufacturing cost thereof.

VACUUM APPARATUS, METHOD FOR COOLING HEAT SOURCE IN VACUUM, AND THIN FILM MANUFACTURING METHOD

A vacuum apparatus () includes: a vacuum chamber (); a heat source () disposed inside the vacuum chamber (); a cooling device () that cools the heat source () by circulation of a cooling gas; a gas feed line () connected to the cooling device () and extending outside the vacuum chamber (); a cooling gas feeder () that feeds the cooling gas to the cooling device () through the gas feed line () when the heat source () is to be cooled; and a vacuum pump () that evacuates the cooling device () when the heat source () is to be used. 1. A vacuum apparatus comprising:a vacuum chamber;a heat source disposed inside the vacuum chamber;a cooling device configured to cool the heat source by circulation of a cooling gas;a gas feed line connected to the cooling device and extending outside the vacuum chamber;a cooling gas feeder configured to feed the cooling gas to the cooling device through the gas feed line when the heat source is to be cooled; anda vacuum pump configured to evacuate the cooling device when the heat source is to be used.2. The vacuum apparatus according to claim 1 , further comprising a switching unit provided in the gas feed line claim 1 , the switching unit being configured to connect the cooling device and the cooling gas feeder when the heat source is to be cooled and to connect the cooling device and the vacuum pump when the heat source is to be used.3. The vacuum apparatus according to claim 1 , further comprising an evacuation line isolated from an atmosphere inside the vacuum chamber claim 1 , the evacuation line being configured to connect the cooling device and the vacuum pump when the heat source is to be used.4. The vacuum apparatus according to claim 2 , further comprising an evacuation line isolated from an atmosphere inside the vacuum chamber claim 2 , the evacuation line being configured to connect the cooling device and the vacuum pump when the heat source is to be used claim 2 , whereinone end of the evacuation line is connected to the ...

WATER HEATER

A water heater includes a water pipe form by bending a pipe. The entire water pipe leans related to a vertical plane to expose all the section to a burner thereunder. All the sections of the water pipe lean downwards related to a horizontal plane. It will make the water in the water in the water pipe flows backwards when no water is supplied to the water heater. Therefore, there will never be water remaining in the water pipe to get rid of the jam problem.

MODULATOR ASSEMBLY FOR CONDENSER

A modulator assembly for a condenser. The modulator assembly has a tube having a first end and a second end. A first connector is brazed to the first end of the tube. A second connector is threadably secured at the second end of the tube.

ОХЛАЖДАЮЩИЙ РАДИАТОР С ЖИДКОСТНЫМ ОХЛАЖДЕНИЕМ

FIELD: heating system. SUBSTANCE: in the cooling radiator (1), which includes the upper (2) and the lower (3) collectors, and also at least one module (4) from the cooling elements, connected through the respective separate distribution pipes (5) to the upper and, respectively, to the lower manifolds (2, 3), the modules (4) contain the pipes (6), provided with ribs on its outer side (7) respectively. At that the modules (4) are located perpendicularly and transversely to the longitudinal direction of the collectors (2, 3), and the tubes (6) of the modules (4) for passing the air, are parallel at the distance (22) from each other. EFFECT: improvement of the heat transfer without increasing the dimensions of the radiator. 17 cl, 8 dwg С 2 2625324 ко РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (11) ох м. %(13) ВО > А ох <Я тах, С2 (51) МПК С128В 15/02 (2006.01) НОЕ 27/08 (2006.0Т) (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (21)(22) Заявка: 2014130286, 21.12.2012 (24) Дата начала отсчета срока действия патента: 21.12.2012 Дата регистрации: 13.07.2017 Приоритет(ы): (30) Конвенционный приоритет: 23.12.2011 ОЕ 10 2011 122 317.0 (43) Дата публикации заявки: 20.02.2016 Бюл. №5 (45) Опубликовано: 13.07.2017 Бюл. № 20 (85) Дата начала рассмотрения заявки РСТ на национальной фазе: 23.07.2014 (86) Заявка РСТ: ЕР 2012/005336 (21.12.2012) (87) Публикация заявки РСТ: УГО 2013/091890 (27.06.2013) Адрес для переписки: 129090, Москва, ул. Б. Спасская, 25, строение 3, ООО "Юридическая фирма Городисский и Партнеры" (72) Автор(ы): ГРОСС Отто Карл (ОЕ) (73) Патентообладатель(и): ШМЕМАНН РОРФЕРФОРМУНГСТЕХНИК ГМБХ (ОЕ) (56) Список документов, цитированных в отчете о поиске: У\О 94/23257 А\, 13.10.1994. 05 2001/0032718 А1, 25.10.2001. КО 2332818 СТ, 27.08.2008. 0$ 5252778 А, 12.10.1993. (54) ОХЛАЖДАЮЩИЙ РАДИАТОР С ЖИДКОСТНЫМ ОХЛАЖДЕНИЕМ (57) Реферат: Изобретение относится к охлаждающему радиатору, в частности охлаждающему радиатору бака активной части — ...

Радиатор водяного отопления универсального подключения

Техническое решение относится к оборудованию централизованных и автономных систем водяного отопления, используемых для обогрева помещений в жилых, общественных и производственных зданиях.Техническим результатом, обеспечиваемым заявляемой полезной моделью, является возможность подключения радиатора водяного отопления к системам с различными типами подводки.Технический результат достигается тем, что в радиаторе водяного отопления универсального подключения, состоящем из верхнего и нижнего трубчатых коллекторов из экструдированного алюминиевого профиля, каждый из которых содержит на торцах соединительные отверстия одинаковых диаметров с внутренней резьбой, соединенных с рядом вертикальных оребренных труб регистра из экструдированного алюминия, оребрение которых выполнено в виде четырех продольных радиальных пластин, расположенных симметрично относительно оси трубы, соединенных попарно с лицевой и тыльной поверхностями оребрения с образованием замкнутых воздушных каналов, сообщающихся с атмосферой ...

Радиатор водяного отопления универсального подключения с повышенной теплоотдачей

Полезная модель относится к оборудованию централизованных и автономных систем водяного отопления, используемых для обогрева помещений в жилых, общественных и производственных зданиях. Техническим результатом, обеспечиваемым заявляемой полезной моделью, является увеличение теплоотдачи радиатора водяного отопления универсального подключения. Технический результат достигается тем, что в радиаторе водяного отопления универсального подключения повышенной теплоотдачи, состоящем из верхнего и нижнего трубчатых коллекторов из экструдированного алюминиевого профиля, каждый из которых содержит на торцах соединительные отверстия одинаковых диаметров с внутренней резьбой, соединенных с рядом вертикальных оребренных труб регистра из экструдированного алюминия, нижний трубчатый коллектор дополнительно содержит два соединительных отверстия с внутренней резьбой, выполненные в нем снизу на общей оси с двумя крайними трубами регистра, диаметры этих отверстий равны диаметрам соединительных отверстий в торцах ...

ГАЗОГЕНЕРАТОР, СПОСОБ ГЕНЕРИРОВАНИЯ ГАЗА И ИСТОЧНИК ЭНЕРГИИ, ИСПОЛЬЗУЮЩИЙ ПОЛУЧЕННЫЙ ГАЗ

ÐÎÑÑÈÉÑÊÀß ÔÅÄÅÐÀÖÈß RU (19) (11) 2006 123 931 (13) A (51) ÌÏÊ C10J 1/00 (2006.01) ÔÅÄÅÐÀËÜÍÀß ÑËÓÆÁÀ ÏÎ ÈÍÒÅËËÅÊÒÓÀËÜÍÎÉ ÑÎÁÑÒÂÅÍÍÎÑÒÈ, ÏÀÒÅÍÒÀÌ È ÒÎÂÀÐÍÛÌ ÇÍÀÊÀÌ (12) ÇÀßÂÊÀ ÍÀ ÈÇÎÁÐÅÒÅÍÈÅ (21), (22) Çà âêà: 2006123931/15, 02.12.2004 (71) Çà âèòåëü(è): ÈÍÑÀÉÍ-ÁÈÊÔÎÐÄ ÀÝÐÎÑÏÅÉÑ ÝÍÄ ÄÈÔÅÍÑ ÊÎÌÏÀÍÈ (US) (30) Êîíâåíöèîííûé ïðèîðèòåò: 05.12.2003 US 60/527,465 10.03.2004 US 60/552,310 (85) Äàòà ïåðåâîäà çà âêè PCT íà íàöèîíàëüíóþ ôàçó: 05.07.2006 (87) Ïóáëèêàöè PCT: WO 2005/056735 (23.06.2005) R U (54) ÃÀÇÎÃÅÍÅÐÀÒÎÐ, ÑÏÎÑÎÁ ÃÅÍÅÐÈÐÎÂÀÍÈß ÃÀÇÀ È ÈÑÒÎ×ÍÈÊ ÝÍÅÐÃÈÈ, ÈÑÏÎËÜÇÓÞÙÈÉ ÏÎËÓ×ÅÍÍÛÉ ÃÀÇ (57) Ôîðìóëà èçîáðåòåíè 1. Ãàçîãåíåðàòîð, ñîäåðæàùèé èíèöèèðóþùèé ýëåìåíò, òåïëîãåíåðèðóþùèé ìàòåðèàë, âçàèìîäåéñòâóþùèé â ïðîöåññå ôóíêöèîíèðîâàíè ãàçîãåíåðàòîðà ñ èíèöèèðóþùèì ýëåìåíòîì, ãàçîîáðàçóþùèé ìàòåðèàë, â êîòîðîì ïðîòåêàåò ðåàêöè , àêòèâíîñòü êîòîðîé îïðåäåë åòñ òåïëîãåíåðèðóþùèì ìàòåðèàëîì, è ðàçäåëèòåëüíûé ýëåìåíò, ðàçìåùåííûé ìåæäó òåïëîãåíåðèðóþùèì ìàòåðèàëîì è ãàçîîáðàçóþùèì ìàòåðèàëîì. 2. Ãàçîãåíåðàòîð ïî ï.1, â êîòîðîì ãàçîîáðàçóþùèé ìàòåðèàë âë åòñ ÷óâñòâèòåëüíûì ê âîçäåéñòâèþ òåïëîâîé ýíåðãèè. 3. Ãàçîãåíåðàòîð ïî ï.1, â êîòîðîì ãàçîîáðàçóþùèé ìàòåðèàë ÷óâñòâèòåëåí ê âîä íîìó ïàðó. 4. Ãàçîãåíåðàòîð ïî ï.1, â êîòîðîì ãàçîîáðàçóþùèé ìàòåðèàë ÷óâñòâèòåëåí ïðè äàâëåíèè íèæå àòìîñôåðíîãî. 5. Ãàçîãåíåðàòîð ïî ï.1, â êîòîðîì óêàçàííûé ðàçäåëèòåëüíûé ýëåìåíò èçìåí åò êîëè÷åñòâî òåïëîòû, ïîñòóïàþùåé îò òåïëîãåíåðèðóþùåãî ìàòåðèàëà. 6. Ãàçîãåíåðàòîð ïî ï.1, êðîìå òîãî ñîäåðæàùèé êàòàëèçàòîð. 7. Ãàçîãåíåðàòîð ïî ï.6, â êîòîðîì â êà÷åñòâå êàòàëèçàòîðà èñïîëüçóåòñ êàòàëèçàòîð äåãèäðèðîâàíè . 8. Ãàçîãåíåðàòîð ïî ï.6, â êîòîðîì êàòàëèçàòîð ïðåäíàçíà÷åí äë óäàëåíè ïðèìåñåé èëè óìåíüøåíè èõ êîëè÷åñòâà. 9. Ãàçîãåíåðàòîð ïî ï.1, â êîòîðîì èíèöèèðóþùèé ýëåìåíò ïðåäñòàâë åò ñîáîé ïîëóïðîâîäíèêîâóþ ïåðåìû÷êó. Ñòðàíèöà: 1 RU A 2 0 0 6 1 2 3 9 3 1 A Àäðåñ äë ïåðåïèñêè: 103735, Ìîñêâà, óë. Èëüèíêà, 5/2, ÎÎÎ "Ñîþçïàòåíò", ïàò.ïîâ. Þ.Â.Ïèí÷óêó, ðåã.¹ 656 2 0 0 6 1 2 3 9 3 1 (86) Çà âêà PCT: ...

Unabhängig arbeitender und mobiler Heizkörper sowie Verfahren zu dessen Herstellung

Flächenheizelement mit austauschbaren Ansichtsflächen

Flächenheizelement mit austauschbaren Ansichtsflächen. Bestehend aus einem, oder mehreren Wärmeerzeugerelementen, oder Grundheizelementen, die die Wärme über austauschbare Ansichtsflächen, die auch mehrschichtig angebracht und mit Wärmewellenwirkung (Infrarotwärme) übertragen, wobei das Wärmeerzeugerelement mit Warmwasser, oder elektrischem Strom, oder beiden Energien gleichzeitig betrieben wird und von seiner Beschaffenheit starr, oder flexibel, oder beides zusammen, sowie in allen geometrischen Formen miteinander individuell gestaltet werden kann.

Verfahren zur Herstellung eines Rippenplatten-Wärmetauschers

Improvements to Radiator Apparatus

A radiator 2 including a body 3, wherein at least one cartridge (fig.2c 8) is locatable with the body to form the radiator, said cartridge including a housing and at least one heating element (fig.2c 10) located inside the same. The cartridge and /or radiator body may include an engagement formation whereby the cartridge means is engaged with and/or attached to the radiator body. The engagement formation may be movable from a storage position to an engagement position to retain the cartridge in the radiator body. The heating element may be electric. The cartridge may include a heat transfer medium disposed between the heating element and the inside surface of the cartridge housing. A plurality of cartridges may be located within the same radiator. The radiator body may be provided with a control means 6 to allow the user control of the heating level.

Bendable cooling fin

A cooling fin 11, used in a heat-exchanger, has a breakable line section 23, 25 extending from one side of the cooling fin plate to a substantially middle portion of the plate in a direction perpendicular to the elongated direction of the plate and a substantially V-shaped notch 27 formed at a portion of the other side of the plate corresponding to the extended end of the breakable line section. The cooling fin is stacked at a prescribed numbers to make a cooling fin block. The breakable line section includes a perforated line 23 and is broken when one part 11a of the cooling fin block in the elongated direction is bent against the other part 11 b of the block along the breakable line section. ...

Improvements in Radiators for use with Automobiles and the like.

... 562. Boeck, C. G. Jan. 7, 1910, [Convention date]. Plate apparatus.-Each element is made with longitudinal depressions 2, which form in the interior of the element a series of open-ended air passages 3; the depressions 2 are so formed as to leave plain margins at the front and rear, as shown in Fig. 3. The radiator is built up of elements of various heights, arranged one above the other and side by side in such a manner as to form continuous zigzag water passages 4, Figs. 6 and 10, from top to bottom. If desired, the elements may be fitted horizontally instead of vertically. Where the sides of the radiator are irregular or stepped, they are sealed by sheet - metal caps 8, Fig. 10, soldered in place. In the modification shown in Fig. 9, projections or raised portions 5 are formed at the sides of the passages 3.

Improvements to Radiator Apparatus

HEAT EXCHANGER

EINRICHTUNG ZUM ANSCHLIESSEN VON ROHRLEITUNGEN AN EINEN FLÜSSIGKEITS-LUFTKÜHLER

VORRICHTUNG ZUR ÜBERTRAGUNG VON WÄRME

HEAT EXCHANGER MODULE FOR A VEHICLE OR SUCH A THING.

INDEPENDENTLY WORKING AND MOBILE HEATING ELEMENT AS WELL AS PROCEDURE FOR ITS PRODUCTION

Cooling system

High/low temperature water cooling system

Refrigeration evaporator

HEAT EXCHANGER

HEAT EXCHANGER WITH REDUCED CORE DEPTH

A method of manufacturing a plate heat exchanger

COMBINED HEAT EXCHANGING AND FLUID MIXING APPARATUS

The combined heat exchanging and fluid mixing apparatus comprises a first conduit (44) for guiding a cool fluid through the first conduit and a second conduit (55) for guiding a hot gas through the second conduit. A heat conductive element (2) is arranged between the first conduit (44) and the second conduit (55) for transferring heat from the hot gas to the cool fluid. The heat conductive element has a length defining a maximum longitudinal extension (22) for a heat exchanging process in the apparatus. The apparatus further comprises a third conduit (45) for guiding an exhaust fluid. The third conduit (45) comprises an exhaust fluid inlet (46) for introducing an exhaust fluid into the apparatus for mixing of the exhaust fluid with the hot gas and for a chemical reaction of the so formed exhaust fluid/hot gas mixture in the second conduit (55). The third conduit (45) is provided with more than one openings (21) passing the exhaust fluid into the second conduit (55). The more than one openings ...

HEAT EXCHANGER AND METHOD OF ASSEMBLY THEREOF

A method of affixing a plurality of tubes into a plurality of corresponding openings in the header wall of a heat exchanger in which the wall has an inner, liquid-facing side and an outer, air-facing side. Ends of the tubes are welded to corresponding collar openings in the header wall, such that the tubes extend toward the air-facing side of the wall, to form a plurality of welded tube-to-header joints. Flux is applied by spraying or the like to the air-facing side of the tube-to-header joints. Thereafter, a lead/tin or other molten solder is applied to the liquid-facing side of the tube-to-header joint by dipping or wave solder techniques and flowed into any voids in the welded joints to substantially seal the joints against leakage of liquid. Only those joints having potential liquid leaking voids receive the solder; sound, liquid-tight welded joints are not solder sealed.

VEHICULAR RADIATOR AND MODULE CONSTRUCTION FOR USE IN THE SAME

Difficulty in heat exchanger module replacement and the cost of plural manifolds in a modular heat exchanger useful in heavy duty vehicles or the like is avoided in a construction that includes an elongated manifold (20) having spaced interior inlet and outlet channels (84, 86) along with a plurality of spaced inlet and outlet ports (58, 70) in fluid communication with respective ones of the inlet and outlet channels (84, 86). An elongated frame member (14) is spaced from and parallel to the manifold (22) and has a plurality of spaced retaining formations (42). A plurality of heat exchanger modules (12) are mounted between the frame member (14) and the manifold (20) in side by side relation and each module has spaced tanks (34, 36; 50, 52) with a plurality of finned tubes (30, 32) extending between and in fluid communication therewith. One tank (34, 36) has a mating retaining formation (40) for receipt within the retaining formation (42) in the frame member (14) while the other tank (50 ...

HEAT EXCHANGER

A heat exchanger comprises a main body and at least one header-held members, with the main body having a plu- rality of heat exchanging tubes whose both ends are con- nected to headers in fluid communication with them, wherein the header-held members are selected from a group consisting of a bracket and an external pipe-connecting member which are attached to the header. The header-held members each comprise a header-surrounding portion which is fitted side- ways on and then brazed to the header while remaining self- retained on it, whereby the header-held member can be easily and rigidly secured to the header.

HEAT EXCHANGER

A heat exchanger comprises a main body and at least one header-held members, with the main body having a plurality of heat exchanging tubes whose both ends are connected to headers in fluid communication with them, wherein the header-held members are selected from a group consisting of a bracket and an external pipe-connecting member which are attached to the header. The header-held members each comprise a header-surrounding portion which is fitted sideways on and then brazed to the header while remaining selfretained on it, whereby the header-held member can be easily and rigidly secured to the header.

Cast aluminum heating radiator

HEAT EXCHANGER

Honeycomb radiator device

Radiator

A method for increasing the load factor of the heating installations central and devices by allowing the realization

Sheet containers corrugated and proceeded for their manufacture

Radiators to pipes, for vehicles whose engine is cooled by water circulation to thermo siphon

BURNER FOR A HEATER AND ITS ARRANGEMENT IN THE HEATER

Die Erfindung betrifft einen Brenner (5) für ein Heizgerät (1) mit einem Brennerkörper (7), der eine Innenoberfläche (14) hin zu einem Innenraum (8) und eine Außenoberfläche (15) hin zu einem Verbrennungsraum (2) aufweist, mit einer Vielzahl von Löchern (12), durch die ein Brenngas-Luft-Gemisch (G) aus dem Innenraum (8) des Brennerkörpers (7) in den Verbrennungsraum (2) strömen kann, wobei der Brennerkörper (7) an der Innenoberfläche (14) und/oder der Außenoberfläche (15) Strukturen (16 bis 21) zum Transport und/oder zur Abschirmung von Wärme aufweist und eine Anordnung eines solchen Brenners (5), wobei der Brenner (5) in seiner Dimensionierung (L, D) und Positionierung in einem Verbrennungsraum (2) mit Wärmetauscher (4) die für einen effizienten Einsatz günstigsten Daten bezüglich eines Abstandes (A) zum Wärmetauscher (4) und einer Ausbrandhöhe (H) von bei einer Verbrennung des Brenngas-Luft-Gemisches (G) entstehenden Flammen (13) aufweist. Die vorliegende Erfindung ermöglicht es, an verschiedene ...

Теплообменник

Полезная модель относится к устройствам для охлаждения воздуха. Теплообменник содержит сборку теплообменных трубок, установленных параллельно друг другу. Сборка содержит несущий каркас 6, в передней и задней частях которого закреплены листы 7 с вырезанными ячейками 8. Теплообменные трубки выполнены в виде плоского корпуса 1 в форме параллелепипеда, малые боковые грани которого выполнены скругленными. Технический результат: повышение эффективности теплообмена.

Способ повышения аэротермодинамической эффективности аппарата воздушного охлаждения и устройство для его реализации

FIELD: gas industry. SUBSTANCE: invention relates to methods for increasing aerothermodynamic efficiency of air cooling devices (ACD) and devices for their implementation, i. e. to ACD used for cooling natural gas of compressor stations of main gas pipelines and can be used in them. Substance of the proposed invention consists in conversion of residual circulation of cooling air in the diffuser into static pressure due to change of the cooling air circulation vector in the diffuser peripheral part to the impeller blades opposite to the rotation direction. In the process of movement of two axisymmetric flows of cooling air: one – in the central part along the axis of the diffuser, the residual circulation of which coincides with the direction of rotation of the impeller, and the second, which is peripheral annular flow of air with circulation, directed against rotation of blades of impeller along helical line in direction to heat exchange sections, there is mixing of said flows due to dispersion of vorticity, and as a result – mutual reduction of circulations of mixed flow of cooling air with increase of its static pressure minus losses for friction. At equal moments of momentum amount by value and opposite in direction at central and peripheral flows of cooling air zero circulation of mixed flow is achieved in area of heat exchange sections. EFFECT: promotes achievement of maximum uniformity and coherence of cooling air supply to heat exchange sections, considerably increasing aerothermodynamic efficiency of ACD. 6 cl, 3 dwg РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 716 341 C1 (51) МПК F28D 1/00 (2006.01) F24F 7/00 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (52) СПК F28D 1/00 (2019.08); F24F 7/00 (2019.08) (21)(22) Заявка: 2019102731, 31.01.2019 (24) Дата начала отсчета срока действия патента: Дата регистрации: 11.03.2020 C 1 2 7 1 6 3 4 1 Адрес для переписки: 142103, Московская обл., г. Подольск, ул. Северная, ...

УСТРОЙСТВО ОХЛАЖДАЮЩЕЙ БАШНИ И СПОСОБ КОСВЕННОГО СУХОГО ОХЛАЖДЕНИЯ

1. Теплообменник для охлаждения жидкости, направленный вертикально вдоль продольной оси, включающий в себя первую охладительную дельту, установленную в первой точке вдоль продольной оси и содержащую первый впускной трубопровод для впуска потока жидкости, соединенный по текучей среде с первым подающим магистральным трубопроводом, и первый выпускной трубопровод для выпуска потока жидкости, соединенный по текучей среде с первым впускным трубопроводом и первым отводящим магистральным трубопроводом; и вторую охладительную дельту, установленную во второй точке вдоль продольной оси над первой охладительной дельтой, содержащую второй впускной трубопровод для впуска потока жидкости, соединенный по текучей среде со вторым подающим магистральным трубопроводом, и второй выпускной трубопровод для выпуска потока жидкости, соединенный по текучей среде со вторым впускным трубопроводом и вторым отводящим магистральным трубопроводом.2. Теплообменник по п.1, дополнительно содержащий первый соединительный трубопровод, соединенный по текучей среде с первым и вторым подающими магистральными трубопроводами, и второй соединительный трубопровод, соединенный по текучей среде с первым и вторым отводящими магистральными трубопроводами.3. Теплообменник по п.1, дополнительно содержащий дросселирующее устройство, выполненное с возможностью регулирования потока жидкости, выходящего из второй охладительной дельты во второй отводящий магистральный трубопровод.4. Теплообменник по п.3, в котором расход жидкости, выходящей из первой охладительной дельты, превышает расход жидкости, выходящей из второй охладительной дельты.5. Те� РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (51) МПК F25B 41/00 (11) (13) 2011 149 206 A (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ЗАЯВКА НА ИЗОБРЕТЕНИЕ (21)(22) Заявка: 2011149206/06, 04.05.2010 (71) Заявитель(и): ЭсПиЭкс КУЛИНГ ТЕХНОЛОДЖИС, ИНК. (US) Приоритет(ы): (30) Конвенционный приоритет: 04.05.2009 US 61/175,319 (85) Дата начала рассмотрения заявки PCT на ...

Трубка теплообменника

Изобретение относится к области теплотехники и может быть использовано в устройствах для охлаждения воздуха. Предложена трубка теплообменника, содержащая плоский корпус с параллельными внутренними перегородками, выполненными за одно целое, корпус выполнен из алюминия в форме параллелепипеда, малые боковые грани которого выполнены скругленными, а наружная поверхность больших боковых граней содержит рифление в виде параллельных ребер. Упомянутый корпус содержит снаружи покрытие из материала, включающего сочетание барийсодержащего компонента и графена. Технический результат: повышение эффективности теплоотвода. 3 з.п. ф-лы, 3 ил.

СПОСОБ ИЗГОТОВЛЕНИЯ РАДИАТОРА

Изобретение относится к области теплотехники и может быть использовано при изготовлении радиаторов бытового или автомобильного типа. При осуществлении способа изготовления радиатора механически обрабатывают ячеистые алюминиевые профили на поперечно-строгальном или продольно-строгальном станках с дальнейшей их сборкой и лазерной сваркой с коллекторами. При механической обработке профилей на прямолинейных плоскостях используют резец, позволяющий сформировать оребрение ячеистых профилей, создающее конфигурацию охлаждающих пластин, утолщающихся к основанию, причем резец состоит из стержня, в средней части которого смонтировано отверстие для фиксации его в суппорте станка, и металлической пластины параллелограммной формы, одна из сторон которой является режущей, а также используют зажимные губы, обеспечивающие фиксацию нескольких ячеистых профилей при их механической обработке. Технический результат - повышенные свойства теплообмена радиатора, при котором обеспечивается влагоустойчивость, теплоустойчивость ...

УСТРОЙСТВО РАДИАТОРА В ТРАНСПОРТНОМ СРЕДСТВЕ, ПРИВОДИМОМ В ДВИЖЕНИЕ ДВИГАТЕЛЕМ ВНУТРЕННЕГО СГОРАНИЯ

... 1. Устройство радиатора в транспортном средстве (1), приводимом в движение двигателем (2) внутреннего сгорания, содержащее систему (20) кондиционирования воздуха (KB) с циркулирующим хладагентом, приспособленным для выделения тепла в конденсаторе (12) и поглощения тепла в испарителе (23), который находится в контакте с воздухом, близким к пространству (24) кабины в транспортном средстве (1), и линейную цепь, в которой циркулирующий охладитель приходит в теплопередающий контакт с двигателем (2), отличающееся тем, что конденсатор (12) системы KB также находится в теплопередающем контакте с охладителем, который циркулирует через линейную цепь, и что устройство радиатора содержит средство приведения в действие, которое позволяет системе (20) KB приводиться в действие и охладителю циркулировать через линейную цепь в случаях, когда двигатель (2) не функционирует, при этом средство приведения в действие содержит устройство (27) приведения в действие, посредством которого устройство радиатора может ...

СПОСОБ ПРЕВРАЩЕНИЯ УГЛЕРОДИСТЫХ МАТЕРИАЛОВ В ЭНЕРГЕТИЧЕСКИЕ ГАЗЫ, СПОСОБ ПОЛУЧЕНИЯ СИНТЕЗ-ГАЗА (ВАРИАНТЫ), СПОСОБ ПОЛУЧЕНИЯ ЖИДКОГО ТОПЛИВА (ВАРИАНТЫ), УСТАНОВКА ДЛЯ ПОЛУЧЕНИЯ СИНТЕЗ-ГАЗА (ВАРИАНТЫ)

ÐÎÑÑÈÉÑÊÀß ÔÅÄÅÐÀÖÈß (19) RU (11) 2007 108 085 (13) A (51) ÌÏÊ C01B 3/34 (2006.01) ÔÅÄÅÐÀËÜÍÀß ÑËÓÆÁÀ ÏÎ ÈÍÒÅËËÅÊÒÓÀËÜÍÎÉ ÑÎÁÑÒÂÅÍÍÎÑÒÈ, ÏÀÒÅÍÒÀÌ È ÒÎÂÀÐÍÛÌ ÇÍÀÊÀÌ (12) ÇÀßÂÊÀ ÍÀ ÈÇÎÁÐÅÒÅÍÈÅ (21), (22) Çà âêà: 2007108085/15, 04.08.2004 (71) Çà âèòåëü(è): Çå Ðèäæåíòñ îô çè Þíèâåñèòè îô Êýëèôîíüå (US) (30) Êîíâåíöèîííûé ïðèîðèòåò: 03.08.2004 US 10/911,348 (43) Äàòà ïóáëèêàöèè çà âêè: 10.09.2008 Áþë. ¹ 25 (87) Ïóáëèêàöè PCT: WO 2006/022687 (02.03.2006) Àäðåñ äë ïåðåïèñêè: 127055, Ìîñêâà, à/ 11, ïàò.ïîâ. Í.Ê.Ïîïåëåíñêîìó, ðåã. N 31 R U ÑÏÎÑÎÁ ÏÎËÓ×ÅÍÈß ÑÈÍÒÅÇ-ÃÀÇÀ (ÂÀÐÈÀÍÒÛ), ÑÏÎÑÎÁ ÏÎËÓ×ÅÍÈß ÆÈÄÊÎÃÎ ÒÎÏËÈÂÀ (ÂÀÐÈÀÍÒÛ), ÓÑÒÀÍÎÂÊÀ ÄËß ÏÎËÓ×ÅÍÈß ÑÈÍÒÅÇ-ÃÀÇÀ (ÂÀÐÈÀÍÒÛ) (57) Ôîðìóëà èçîáðåòåíè 1. Ñïîñîá ïðåâðàùåíè óãëåðîäèñòûõ ìàòåðèàëîâ â ýíåðãåòè÷åñêèå ãàçû, â êîòîðîì óãëåðîäèñòûé ìàòåðèàë ïîìåùàþò â âîäó è çàòåì íàãðåâàþò óãëåðîäèñòûé ìàòåðèàë è âîäó â ïðèñóòñòâèè âîäîðîäà ïðè òåìïåðàòóðå è äàâëåíèè, äîñòàòî÷íûõ äë îáðàçîâàíè áîãàòûõ ìåòàíîì è ìîíîîêèñüþ óãëåðîäà ýíåðãåòè÷åñêèõ ãàçîâ. 2. Ñïîñîá ïî ï.1, â êîòîðîì íàãðåâ ïðîèçâîä ò ïðè òåìïåðàòóðå ïðèìåðíî îò 580 äî 790°Ñ. 3. Ñïîñîá ïî ï.1, â êîòîðîì íàãðåâ ïðîèçâîä ò ïðè äàâëåíèè ïðèìåðíî îò 910 äî 3861 êÏà. 4. Ñïîñîá ïî ï.1, â êîòîðîì óãëåðîäèñòûé ìàòåðèàë èìååò íîìèíàëüíûé ðàçìåð ÷àñòèö, ðàâíûé â äèàìåòðå îêîëî 1 ìì. 5. Ñïîñîá ïî ï.1, â êîòîðîì óãëåðîäèñòûé ìàòåðèàë ïðåäñòàâë åò ñîáîé ìàòåðèàë, âûáðàííûé èç ãðóïïû, âêëþ÷àþùåé â ñåá ãîðîäñêèå îòõîäû, áèîìàññó, äðåâåñèíó, óãîëü èëè íàòóðàëüíûå èëè ñèíòåòè÷åñêèå ïîëèìåðû èëè èõ ñìåñè. 6. Ñïîñîá ïî ï.5, â êîòîðîì óãëåðîäèñòûé ìàòåðèàë ïðåäñòàâë åò ñîáîé áèîìàññó. 7. Ñïîñîá ïî ï.5, â êîòîðîì óãëåðîäèñòûé ìàòåðèàë ïðåäñòàâë åò ñîáîé ãîðîäñêèå îòõîäû, ñîäåðæàùèå äðåâåñèíó èëè íàòóðàëüíûå èëè ñèíòåòè÷åñêèå ïîëèìåðû. 8. Ñïîñîá ïî ï.5, â êîòîðîì óãëåðîäèñòûé ìàòåðèàë ïðåäñòàâë åò ñîáîé äðåâåñèíó èëè íàòóðàëüíûå èëè ñèíòåòè÷åñêèå ïîëèìåðû. 9. Ñïîñîá ïîëó÷åíè ñèíòåç-ãàçà, â êîòîðîì ïåðåðàáîòêó áîãàòûõ ìåòàíîì è ìîíîîêèñüþ óãëåðîäà ýíåðãåòè÷åñêèõ ãàçîâ, ïîëó÷åííûõ ñïîñîáîì ïî ï.1, ...

ИЗOЛИPУЮЩИЙ TEПЛOOБMEHHИK

Использование: дл  теплообменников, имеющих отдельные пути потока сред. Сущность изобретени : теплообменник имеет пакет параллельных пр моугольных пластин . Между ними установлены с образованием параллельных и зигзагообразных каналов дл  разных сред направл ющие лопатки . Каналы подключены к своим входам и выходам, расположенным дл  каждой среДы соответственно в разных угловых зонах пакета. Входы каналов одной среды сгруппированы в одной из угловых зон пакета с выходами каналов другой среды. Эти входы расположены в плоскости, совпадающей с одним краем пакета своей угловой зоны. Выходы - в плоскости, совпадающей с другим краем пакета этой же зоны. Угловые зоны могут быть расположены в противоположных по диагонали сторонах пакета. Теплообменник может быть снабжен двум  поворотными камерами, расположенными с одной стороны пакета. Одна из этих камер снабжена с двум  смежными каналами первой среды, а друга .- с двум  смежными каналами второй среды. Поворотна  камера каналов первой среды установлена нал пакетом и снабжена вод ной форсункой. Поворотна  камера каналов второй среды размещена под пакетом, снабжена вод ной форсункой, направленной вверх и устройством дл  удалени  воды. 8 з.п. ф-лы, 13 ил. С

Kühlvorrichtung für eine Traktionsbatterie eines Fahrzeugs

Die vorliegende Erfindung offenbart eine Kühlvorrichtung (6) zur Kühlung einer Traktionsbatterie (2) eines Fahrzeugs (1) mit einem Fluid (19), mit einer Verdampfungsvorrichtung (7) zur Anbringung in einem Gehäusekörper (3) der Traktionsbatterie (2), wenigstens einer Kondensierungsvorrichtung (12, 13) zur Anbringung an dem Fahrzeug (1) außerhalb des Gehäusekörpers (3) der Traktionsbatterie (2), und Verbindungsleitungen (17, 18), die in der Verdampfungsvorrichtung (7) verdampftes Fluid (19) zu der wenigstens einen Kondensierungsvorrichtung (12, 13) und kondensiertes Fluid (19) von der wenigstens einen Kondensierungsvorrichtung (12, 13) zurück zu der Verdampfungsvorrichtung (7) leiten, wobei die Verdampfungsvorrichtung (7), die wenigstens eine Kondensierungsvorrichtung (12, 13) und die Verbindungsleitungen (17, 18) einen ersten Kühlkreislauf (33) bilden, und der erste Kühlkreislauf (33) nach der Art eines Naturumlaufes ausgestaltet ist, wobei eine Zirkulation des Fluides (19) durch den ersten ...

Rohr- und Lamellen-Wärmetauscher

Die vorliegende Anmeldung ergibt einen Rohr- und Lamellen-Wärmetauscher (210). Der Rohr- und Lamellen-Wärmetauscher (210) kann eine Anzahl von Rohren (220) mit einer Anzahl von an jedem der Rohre (220) positionierten Lamellen (230) enthalten. Die Rohre (220) können einen ersten Satz von Rohren (240) und einen zweiten Satz von Rohren (250) enthalten, wobei der erste Satz von Rohren (240) eine versetzte Position (305) im Vergleich zu dem zweiten Satz von Rohren (250) aufweist.

An Improved Radiator for use on Aeroplanes or other Vehicles and for use in connection with the Cooling of Internal Combustion Engines.

... 112,043. Delaney, L. T. Dec. 20, 1916. Radiators, aircraft and like, of the type comprising similar separate removable sections composed of a collection of air or water tubes c, are provided as to each section with headers d extending over the full width of the section and connected with tube sections f, which, when joined together end to end, form supply and return passages for the water. The tube sections have packed flanges h and the sections are held in position by wires or straps b secured to side frames a. To enable one or more damaged sections to be cut out without interrupting the flow through the remainder or to regulate the cooling surface according to altitude, lift or other valves i are provided in the sections f and close against seats formed in the connecting-pieces e. The sections may be mounted at the sides of the fuselage of aeroplanes to minimize air resistance.

Improvements in or relating to radiators for cooling water or other liquids

... 234,253. Duncanson, F. April 25, 1924. Radiator, motor-car, air-craft, and like. - In a honeycomb radiator formed of a block of air tubes with enlarged ends 13, the weight of the elements and the contained liquid is supported by key members 12 projecting from the side members 11 of the radiator frame into the recesses in the side borders formed between alternate layers of tubes. The elements are preferably soldered as usual to the frame members. The key members may be formed by shaping the metal sheet of the side members, or separate shaped. key members may be riveted or otherwise secured to lengths' of sheet metal to form the complete side frame. In another form, separate key members may be secured to the inside faces of the side frames, which are slightly recessed to accommodate the thickness of the flanges of the key members. The side frames are held together by cross ties 21 passing through the ends of channel bars 22 which may occupy the recesses in the key members.

Improvements in Methods of and Means for Making so called Honeycomb Radiators.

... 135,800. Pease, W. H. July 3, 1919. Moulds.-A fusible matrix for electro-deposition of a honeycomb radiator is made in a mould constructed so that the tubes a and b for the introduction of the molten material and escape of air serve to produce bosses on the matrix corresponding with parts of the radiator. The mould has a detachable end d. Pins g attached to the bottom of the mould enter holes in the cover, which is held by cotters f or otherwise. Previously-formed parts may be placed in position in the mould so as to form a part of the matrix.

Improvements in or relating to oil coolers

... 598,965. Radiators for motor vehicles. STEADMAN, C. S., and IMPERIAL CHEMICAL INDUSTRIES, Ltd. March 29, 1945, No. 8001. [Class 64 (iii)] In a honeycomb type oil cooler of the kind having header spaces disposed between the matrix and baffles 5 the header spaces are formed by substituting short blind tubes 12 plugs or the like for some or all of the fulllength semi-hexagonal D-shape, or like sectior tubular elements 11 which are normally associated with the matrix. The length of the blind tubes corresponds with the length of the expanded portion of the tubular elements 9. The tubular elements may be oriented to define either straight through or sinuous oil paths. Specifications 545,959, 555,373 and 585,159 are referred to.

COLLECTING PIPE AND PROCEDURE FOR ITS PRODUCTION.

HEAT EXCHANGER IN MODULAR CONSTRUCTION

PROCEDURE FOR THE TRANSMISSION OF WARMTH ON A AT LEAST (METH) A ACRYLMONOMERES ABSTENTION LIQUID MIXTURE

HEAT TRANSDUCER, IN PARTICULAR AIR-TO-AIR RADIATOR

Kühlerstation zum Anschluß eines Flüssigkeitskühlers

Kühlerstation (1) mit einem Flüssigkeitskühler (3), welcher einen ersten Verteilerkasten ( 14) , bestehend aus einem hohlen Strangpreßprofil aus Aluminium, aufweist, welches nach außen offene Führungsnuten aufweist, sowie mit einer Plattform (10), die durch in die Führungsnuten des ersten Verteilerkastens einsetzbare mechanische Anschlußelemente auf den Flüssigkeitskühler aufschiebbar und fest mit ihm verbindbar ist, wobei die Kühlerstation ein Set von Plattformen umfaßt, wobei jeweils eine Plattform mit dem Flüssigkeitskühler verbindbar ist und das Set Plattformen umfaßt, die verschiedene hydraulische und/oder elektrische Anschlüsse aufweisen. Die Kühlerstation kann in eine Flüssigkeitskühleranlage eingebaut werden, die weiters ein Gebläse, einen Flüssigkeitstank und einen Flüssigkeitsfilter umfaßt. Der Flüssigkeitskühler, das Gebläse, der Flüssigkeitstank und/ oder der Flüssigkeitsfilter können jeweils aus einem Set ausgewählt werden, so daß ein modulares System zur Bereitstellung von ...

MULTIPASS EVAPORATOR

A method of manufacturing a plate heat exchanger

Improved heat exchanger housing and seals

Heat exchanger with reduced core depth

Portable or wall mounted dry electric radiator for heating environment, has heat generator formed as electric storage heater, which comprises storage unit for containing coolant, and resistor that is immersed in coolant for heating coolant

La présente invention a pour objet un radiateur électrique à sec (1) comprenant une pluralité d'éléments rayonnants (11) reliés mécaniquement entre eux et chauffé par un générateur de chaleur (2 ; 21, 22, 23, 24) susceptible d'être logé dans une cavité interne de celui-ci. Ledit générateur de chaleur (2 ; 21, 22, 23, 24) est un « chauffeur électrique à accumulation » comprenant un accumulateur (23) destiné à contenir un fluide caloporteur et une résistance électrique (3) immergée dans ledit fluide caloporteur et susceptible de le chauffer.

Improvement to the construction of the cooling coils applied to motor cars

Roast for radiators of car or other applications

Radiator composed of a plurality of refrigeration cases follow one another

Improvements to coolers or condensers for motor vehicles called "honeycomb"

Radiator and its manufactoring process

COOLING TOWER

The present invention relates to a cooling tower. The cooling tower comprises: a case having first and second inlets formed on one side surface; a dry type heat exchanger disposed near the first inlet and enabling external air to indirectly exchange heat with cooling water; and an inlet damper unit opening and closing the first inlet and the second inlet. The inlet damper unit selectively opens and closes the first inlet and the second inlet in accordance with a winter season mode or a summer season mode. The present invention improves mixing efficiency of humid air of which the heat is exchanged in a wet type heat exchanger. COPYRIGHT KIPO 2017 ...

AIR SOURCE HEAT EXCHANGE SYSTEM AND METHOD UTILIZING TEMPERATURE GRADIENT AND WATER

This invention utilizes the ultimate convection potential of air, high heat conduction potential of water and temperature gradient to maximize heat exchange efficiency. This method could be used in heat pump in the area with no extreme cold and other means such as refrigeration.

Means, Method and System for Heat Exchange

A heat transfer device and its manufacturing method are provided. The heat transfer device has a heat transfer member defining a heat exchange surface with which a heat transportable medium contact in use and via which heat is transferable between the heat transportable medium and a working medium, and a device body for containing the heat transportable medium. The body of the device defines a first chamber, a second chamber and a third chamber which are in fluid communicable relationship. The body is configured to allow the heat transportable medium fluid to pass from the second chamber to the first chamber and then to the third chamber, or from the third chamber to the first chamber and then to the second chamber, and the second chamber is sandwiched or positioned between the first chamber and the third chamber in the body.

Heat exchanger and sheet for the exchanger

The invention relates to a heat exchanger comprising a casing ( 2 ) inside which is housed, and fastened by brazing, a heat exchange assembly ( 3 ) comprising a stack of heat exchange plates, each plate ( 4 ) having at least one edge ( 14 ) for brazing to the casing ( 2 ). The heat exchanger is characterized by the fact that it includes means, called unfastening means ( 20, 21, 22, 23 ), designed to prevent the casing from being brazed to at least a portion of the edge ( 14 ) of at least one end plate ( 4 E) of the stack ( 3 ). By virtue of the invention, the heat exchanger is more flexible and absorbs thermal stresses better.

COOLING DEVICE WITH A PLURALITY OF FIN PITCHES

It is an object to provide a cooling device with an increased leeward cooling capacity without increasing the number of heat radiation fins to be installed and the amount of cooling air. 1. A cooling device , comprising:a heat-receiving block thermally connected to a heat-generating element; andheat radiation fin groups having a plurality of fins thermally connected to the heat-receiving block,whereina flow of cooling air is set in a direction parallel to the heat-receiving block,the plurality of heat radiation fin groups are arranged in tandem along the flow direction of the cooling air, andof the plurality of heat radiation fin groups, a fin pitch of a heat radiation fin group arranged on a windward side of the cooling air is larger than a fin pitch of a heat radiation fin group arranged on a leeward side of the cooling air.2. A cooling device , comprising:a heat-receiving block thermally connected to a heat-generating element; andheat radiation fin groups having a plurality of fins erected on a surface of the heat-receiving block,whereina flow of cooling air is set in a direction parallel to the heat-receiving block,the plurality of heat radiation fin groups are arranged in tandem along the flow direction of the cooling air, andof the plurality of heat radiation fin groups, a fin pitch of a heat radiation fin group arranged on a windward side of the cooling air is larger than a fin pitch of a heat radiation fin group arranged on a leeward side of the cooling air.3. A cooling device , comprising:a heat-receiving block thermally connected to a heat-generating element;a plurality of heat pipes erected on a surface of the heat-receiving block; andheat radiation fin groups having a plurality of fins mounted on the heat pipes,whereina flow of cooling air is set in a direction parallel to the heat-receiving block,the plurality of heat radiation fin groups are arranged in tandem along the flow direction of the cooling air, andof the plurality of heat radiation fin groups ...

HEAT PIPE SYSTEM

A heat pipe apparatus having a sintered lattice wick structure includes a plurality of wicking walls having respective length, width and heights and spaced in parallel to wick liquid in a first direction along the respective lengths, the respective lengths being longer than the respective widths and the respective heights, the plurality of wicking walls being adjacent to one another and spaced apart to form vapor vents between them, a plurality of interconnect wicking walls to wick liquid between adjacent wicking walls in a second direction substantially perpendicular to the first direction, and a vapor chamber encompassing the sintered lattice wick structure, the vapor chamber having an interior condensation surface and interior evaporator surface, wherein the plurality of wicking walls and the plurality of interconnect wicking walls are configured to wick liquid in first and second directions and the vapor vents communicate vapor in a direction orthogonal to the first and second directions. 1. A heat pipe apparatus , comprising: a plurality of wicking walls having respective length, width and heights and spaced in parallel to wick liquid in a first direction along the respective lengths, the respective lengths being longer than the respective widths and the respective heights, said plurality of wicking walls being adjacent to one another and spaced apart to form vapor vents between them;', 'a plurality of interconnect wicking walls to wick liquid between adjacent wicking walls in a second direction substantially perpendicular to said first direction; and, 'a sintered lattice wick structure comprisinga vapor chamber encompassing said sintered lattice wick structure, said vapor chamber having an interior condensation surface and interior evaporator surface;wherein said plurality of wicking walls and said plurality of interconnect wicking walls are configured to wick liquid in first and second directions and said vapor vents communicate vapor in a direction ...

FILTER WITH CYCLONE SEPARATION MEANS

Disclosed in a filter for filtering a working fluid comprising a canister having an inlet and an outlet; a first partially perforated generally conical member positioned in said canister; a second generally conical member positioned inside said first partially perforated generally conical member, whereby the working fluid upon entering the inlet is caused to spin inside the canister, to pass through the perforated portion of the first generally conical member, to enter an inlet to the second generally conical member, to spin within the second conical member and to pass through the outlet. 1. A filter for filtering a working fluid comprising:a canister having an inlet and an outlet;a first partially perforated generally conical member positioned in said canister;a second generally conical member positioned inside said first partially perforated generally conical member, whereby the working fluid upon entering the inlet is caused to spin inside the canister, to pass through the perforated portion of the first generally conical member, to enter an inlet to the second generally conical member, to spin within the second conical member and to pass through the outlet.2. The filter as claimed in wherein the inlet to the canister is located such that the working fluid enters the canister tangentially claim 1 , causing it to spin.3. The filter as claimed in wherein the first generally conical member comprises a cylinder as its narrow end.4. The filter as claimed in wherein in the narrow end of the second generally conical member is positioned inside the cylinder.5. The filter as claimed in wherein the inlet to the second generally conical member comprises a plurality of ducts.6. The filter as claimed in wherein the outlet of the canister comprises an element which extends into the second generally conical member such that working fluid entering the second generally conical member is not able to exit through the outlet immediately.7. The filter as claimed in wherein the ...

Battery Heat Exchanger

A heat exchanger assembly includes a fluid transfer layer and a first external layer. The fluid transfer layer is made from an elastomeric material and the first external layer includes flexible graphite. The fluid transfer layer includes at least one channel and is configured to form a passage for receiving a thermal transfer fluid between the channel and a portion of the first external layer. 1. A heat exchanger assembly comprising:a fluid transfer layer comprising an elastomeric material and having opposed major surfaces;a first external layer comprised of flexible graphite and having an interior facing major surface and external facing major surface, said interior facing major surface secured to one of said fluid transfer layer major surfaces; andwherein said fluid transfer layer includes at least one channel and configured to form a passage for receiving a thermal transfer fluid between said at least one channel and a portion of said interior facing major surface of said first external layer.2. The heat exchanger assembly of wherein said flexible graphite material comprises compressed exfoliated graphite sheet.3. The heat exchanger assembly of wherein said compressed exfoliated graphite sheet is resin impregnated.4. The heat exchanger assembly of further comprising a second external layer comprised of flexible graphite and having an interior facing major surface and an external facing major surface claim 1 , said interior facing major surface of said second external layer being secured to said fluid transfer layer major surface opposed from said first external layer.5. The heat exchanger assembly of wherein said channel extends between each major surface of said fluid transfer layer.6. The heat exchanger assembly of wherein said channel is serpentine shaped.7. The heat exchanger assembly of wherein said fluid transfer layer has a thickness and said channel extends only partially into said thickness.8. The heat exchanger assembly of wherein said elastomer ...

Plate heat exchanger

A plate heat exchanger for exchanging heat between mediacomprises a number of stacked plates (A, B, C, D), the plates being provided with a first, large scale pressed pattern comprising ridges (R) and grooves (G) intended to keep first (A, B) and second (B,C) pairs of stacked plates on a distance from one another, such that flow channels for a first medium is formed in spaces between said plate pairs. Contact points are provided between the plate pairs in points where the large scale pressed pattern of neighboring plate pairs contact one another. The plates of each plate pair (A, B; C, D) are kept on a distance from one another by a small-scale pressed pattern comprising ridges (r) and grooves (g).

TEST STAND AND METHOD FOR TESTING FLUID PUMPS AND FLUID INJECTORS

A test stand for testing a fluid injection pump and/or a fluid injector has a device for conditioning a test fluid used for the testing. The device has a tank to accommodate and store the test fluid, a first fluid removal line to withdraw test fluid from the tank and to convey it to the fluid injection pump, and a cooling circuit for cooling the test fluid stored inside the tank. The cooling circuit has a second fluid removal line and a return line. The fluid removal line is to withdraw test fluid from the tank and is connected to a heat exchanger, which cools the test fluid withdrawn from the tank. The return line is connected to the heat exchanger and returns the test fluid from the heat exchanger back into the tank. 110-. (canceled)11. A test stand for testing at least one of a fluid injection pump and a fluid injector , the test stand having a device for conditioning a test fluid used for the testing , the device comprising:a tank to accommodate and store the test fluid;a first fluid removal line situated to withdraw test fluid from the tank and to convey it to the fluid injection pump; anda first cooling circuit configured to cool the test fluid stored inside the tank, the first cooling circuit having a second fluid removal line situated to withdraw test fluid from the tank, a heat exchanger configured to cool the test fluid removed from the tank and connected to the second fluid removal line, and a return line connected to the heat exchanger and situated to return the test fluid from the heat exchanger back into the tank.12. The test stand as recited in claim 11 , further comprising:a second cooling circuit connected to the heat exchanger and configured to cool the test fluid flowing through the heat exchanger during operation.13. The test stand as recited in claim 12 , further comprising:a control valve provided in the second cooling circuit, the control valve to regulate a coolant flow through the cooling circuit.14. The test stand as recited in claim 12 , ...

HEAT MEDIUM HEATING DEVICE AND VEHICLE AIR CONDITIONER INCLUDING THE SAME

The heat medium heating device includes: a casing in which the flat heat exchange tubes and the PTC heater are stacked in multiple layers and incorporated; and a control substrate of the PTC heater incorporated in the casing. In the heat medium heating device in which a terminal A extending from each electrode plate of the PTC heater is directly connected to a connection portion of the control substrate, the width dimension of the flat heat exchange tubes is greater than a contact surface width in a direction in which the terminal A extends from each electrode plate in the PTC element of the PTC heater , and the electrode plates and the flat heat exchange tubes excluding the PTC element are superimposed in the wide portion. 1. A heat medium heating device , comprising:a plurality of flat heat exchange tubes through which a heat medium flowing from an inlet header portion flows through a flat tube portion and flows out from an outlet header portion;a PTC heater including a PTC element incorporated between the flat tube portions of the plurality of stacked flat heat exchange tubes and a pair of electrode plates sandwiching the PTC element;a casing including a heat medium outlet/inlet path communicating with an outlet/inlet header portion of each of the flat heat exchange tubes, the flat heat exchange tubes and the PTC heater being stacked in multiple layers and incorporated in the casing; anda control substrate that is incorporated in the casing and controls the PTC heater, a terminal extending from the electrode plate of the PTC heater being directly connected to a connection portion of the control substrate,wherein the flat heat exchange tubes have a width dimension greater than a contact surface width in a direction in which the terminal extends from the electrode plate in the PTC element of the PTC heater, and the electrode plates and the flat heat exchange tubes excluding the PTC element are superimposed in the wide portion.2. The heat medium heating device ...

HYBRID RADIATOR COOLING SYSTEM

A method and hybrid radiator-cooling apparatus for implementing enhanced radiator-cooling are provided. The hybrid radiator-cooling apparatus includes an air-side finned surface for air cooling; an elongated vertically extending surface extending outwardly from the air-side finned surface on a downstream air-side of the hybrid radiator; and a water supply for selectively providing evaporative cooling with water flow by gravity on the elongated vertically extending surface. 1. A method for implementing enhanced radiator-cooling system using a hybrid radiator comprising:providing an air-side finned surface for air cooling;providing an elongated vertically extending surface extending outwardly from said air-side finned surface on a downstream air-side of the hybrid radiator; andselectively providing water flow by gravity on said elongated vertically extending surface for evaporative cooling.2. The method as recited in wherein providing said elongated vertically extending surface includes providing a plurality of generally rectangular tubes to define a plurality of said elongated vertically extending surfaces extending outwardly from the air-side finned surface.3. The method as recited in wherein providing said air-side finned surface for air cooling includes providing an air-side finned surface having a predefined size for air cooling to remove required engine heat under general driving conditions.4. The method as recited in wherein selectively providing water flow by gravity on said elongated vertically extending surface for evaporative cooling includes providing water flow by gravity on said elongated vertically extending surface for evaporative cooling at high heat loads on an engine.5. The method as recited in wherein selectively providing water flow by gravity on said elongated vertically extending surface for evaporative cooling includes providing water flow at a top of said elongated vertically extending surface for evaporative cooling.6. The method as recited ...

RADIATOR HOSE LAYOUT STRUCTURE FOR SADDLE TYPE VEHICLE

A radiator hose layout structure for a saddle type vehicle by which radiator hoses can be arranged while enhancing cooling efficiency of a radiator. Longitudinal wall parts projecting forward are provided at vehicle-width-directionally both end portions of an exhaust air guide. The front ends of the longitudinal wall parts are provided rearwardly of the radiator. An exhaust air passage for letting exhaust air from the radiator flow therethrough is provided between the longitudinal wall parts. A lower radiator hose and an upper radiator hose are arranged on the vehicle-width-directionally outer side of the longitudinal wall parts. 1. A radiator hose layout structure for a saddle type vehicle including: a radiator disposed rearwardly of a front wheel; a fuel tank disposed rearwardly of the radiator; an exhaust air guide that is provided between the radiator and the fuel tank and by which exhaust air from the radiator is guided; a water-cooled power unit disposed rearwardly of the fuel tank; and radiator hoses that are connected to the radiator and the water-cooled power unit and by which cooling water is circulated ,wherein longitudinal wall parts projecting forward are provided at vehicle-width-directionally both end portions of the exhaust air guide, front ends of the longitudinal wall parts are provided rearwardly of the radiator, an exhaust air passage for passage of exhaust air from the radiator is provided between the longitudinal wall parts, and the radiator hoses are disposed on vehicle-width-directionally outer side of the longitudinal wall parts.2. The radiator hose layout structure according to claim 1 , wherein the radiator has tank sections on vehicle-width-directionally both sides claim 1 , a core section including a cooling water passage and cooling fins is provided between the tank sections claim 1 , and vehicle-width-directionally outer end portions of the core section are disposed on vehicle-width-directionally outer sides of the longitudinal wall ...

SYSTEM AND METHOD OF COOLING A PUMP HEAD USED IN CHROMATOGRAPHY

An actuator has a support plate, a pump head in thermally conductive contact with the support plate, and an actuator body. Cooling means is disposed between the support plate and the actuator body. The cooling means is configured to remove and transfer heat from the pump head to the actuator body. In one embodiment, the cooling means includes two thermally conductive plates (called cold-side and hot-side plates) and a thermoelectric device disposed in thermally conductive contact between the cold-side and hot-side plates. The cold-side plate is in thermal communication with the pump head through the support plate. The hot-side plate is in thermal communication with the actuator body. The thermoelectric device is configured to transfer heat from the cold-side plate, which is in thermal communication with the pump head, to the hot-side plate, which is in thermal communication with the actuator body, thereby removing heat from the pump head. 1. An actuator comprising:a support plate;a pump head secured to one side of the support plate, the pump head being in thermal contact with the support plate;an actuator body secured to an opposite side of the support plate; andmeans for cooling disposed between and in thermal communication with the support plate and the actuator body, the cooling means being configured to remove and transfer heat from the pump head to the actuator body.2. The actuator of claim 1 , further comprising a pre-chiller unit disposed between the support plate and the cooling means.3. The actuator of claim 1 , wherein the cooling means comprises:a pair of thermally conductive plates, one of the plates being in thermal communication with the pump head through the support plate, the other of the plates being in thermal communication with the actuator body; anda thermoelectric device between and in thermally conductive contact with the pair of plates, the thermoelectric device being configured to transfer heat from the plate that is in thermal communication ...

Heat-Transfer Device

The invention includes a micro porous layer and a plurality of heat-transfer enhancing structures on a surface of the heat transfer tube in contact with the cold fluid. The heat-transfer enhancing structures have a height H that satisfies a relationship to a flow characteristic length D of 0.05>H/D≧0.01, and a relationship to an installation clearance L between the heat-transfer enhancing structures in a flow direction of 40H/D≧0.01 , and a relationship to an installation clearance L between the heat-transfer enhancing structures in a flow direction of 40 Подробнее

APPARATUS FOR MANUFACTURING BEVERAGE

Provided is an apparatus for manufacturing beverage. The apparatus includes a heat exchanger to heat a fluid. The heat exchanger includes a body including a first end portion and a second end portion, and the second end portion is opposite to the first end portion. The apparatus further includes a heater embedded in the body, a first pipe installed in the body and guiding the fluid in a first direction from the first end portion of the body to the second end portion of the body, and a second pipe installed in the body and guiding the fluid output from the first pipe in a second direction opposite to the first direction. 1. An apparatus for manufacturing beverage , the apparatus including a heat exchanger to heat a fluid , wherein the heat exchanger comprises:a body including a first end portion and a second end portion, the second end portion being opposite to the first end portion;a heater embedded in the body;a first pipe installed in the body and guiding the fluid in a first direction from the first end portion of the body to the second end portion of the body; anda second pipe installed in the body and guiding the fluid output from the first pipe in a second direction opposite to the first direction.2. The apparatus of claim 1 , further comprising:a connection tube connecting an outlet of the first pipe to an inlet of the second pipe.3. The apparatus of claim 1 , wherein the first pipe extends in a helical shape between the first end portion of the body and the second end portion of the body claim 1 , andthe second pipe extends in a helical shape between the first end portion of the body and the second end portion of the body.4. The apparatus of claim 3 , wherein the heater is between the first pipe and the second pipe and extends in a helical shape between the first end portion of the body and the second end portion of the body.5. The apparatus of claim 4 , wherein a helical diameter of the heater is greater than a helical diameter of the first pipe and less ...

Cyclonic Cooling System

Fractionation, the process used by refineries to break down carbon chains of petroleum compounds so that the desired carbon compound can be achieved. This process typically involves high heat, distillation, re-boiling, and energy intensive cooling processes. This application discloses an invention that will condense vapor produced by a pyrolysis reactor. This system uses one standard cyclone; three cascading cyclones with internal cyclonic rotation fins that force incoming vapor to maintain a fixed amount of rotation regardless of the vapor's velocity, heat sinks that increase condensation, reversing fins that force gases to reverse direction inside the cyclone decreasing vapor velocity to increase heat loss; a main collection tank that allows for the controlling of the fuel flash point; a compact low temperature coil cooler that uses 100 percent of the cooling surface that allows for the production of higher quality fuel; and, bubblers/scrubbers that produce back pressure into the pyrolysis reactor.

HEAT EXCHANGING APPARATUS

A heat exchanging apparatus comprises a first heat exchanger, oil cooler, arranged to allow ambient air to pass therethrough and a second heat exchanger, radiator, adjacent the first heat exchanger and arranged to allow air exiting the first heat exchanger to pass therethrough. The apparatus further comprises a third heat exchanger comprising two or more interconnected heat exchanging cores, charge air coolers. Each core is arranged to allow ambient air to pass therethrough. 1. A heat exchanging apparatus , comprising;a first heat exchanger arranged to allow ambient air to pass therethrough;a second heat exchanger adjacent the first heat exchanger and arranged to allow air exiting the first heat exchanger to pass therethrough; anda third heat exchanger comprising two or more interconnected heat exchanging cores wherein each core is arranged to allow ambient air to pass therethrough.2. The apparatus of further comprising a cowl arranged to direct the flow through the heat exchangers.3. The apparatus of wherein the cowl is arranged to isolate the cores of the third heat exchanger so that only ambient air passes therethrough.4. The apparatus of claim 2 , wherein the cowl includes at least one portion which extends from the outer edge of the second heat exchanger to the inner edge of a third heat exchanger core.5. The apparatus of claim 4 , wherein the said portion is at an angle in the range 20° to 60° to the adjacent inlet or outlet face of the second heat exchanger.6. The apparatus of claim 1 , wherein one of the first and second heat exchangers comprises an oil cooler.7. The apparatus of claim 1 , wherein one of the first and second heat exchangers comprises a radiator.8. The apparatus of claim 1 , wherein the first and second heat exchangers comprise an oil cooler and a radiator.9. The apparatus of claim 8 , wherein the oil cooler is upstream of the radiator.10. The apparatus of claim 1 , wherein each core of the third heat exchanger comprises a Charge Air Cooler. ...

Heat Exchanger

A device for exchanging heat between first and second fluid streams is disclosed. The device includes a core housing configured to channel the first stream through heat exchange elements and out through a first half exhaust port. A shell housing encloses the core housing and is configured to channel the second stream past the heat exchange elements, the shell housing being isolated from the core housing by a space. A second half exhaust port is formed on the shell adjacent with the first half exhaust port, the first and second half exhaust ports being separated by a gap. An expansion joint couples the core housing to the shell housing, the expansion joint configured such that the expansion joint allows the core housing to float within the shell. The expansion joint includes a flexible ring flange having an inner edge mounted to the core housing adjacent the first half exhaust port and a peripheral edge mounted to the shell housing at a circular attachment point surrounding the second half exhaust port.

FLUID DISTRIBUTION NETWORK FOR LARGE STATOR MOTOR

A reaction assembly () for supporting a mover () includes a countermass assembly () and a fluid distribution network (). The fluid distribution network () allows for circulating a fluid () to provide cooling for the portion of the mover (). The fluid distribution network () is positioned substantially adjacent to the countermass assembly (), and the fluid distribution network () being substantially thermally decoupled from the structure of the countermass assembly () to inhibit thermal deformation of the countermass assembly (). 1. A reaction assembly for supporting a mover relative to a base , the reaction assembly comprising:a countermass assembly that supports a portion of the mover; anda fluid distribution network that provides cooling for the portion of the mover, the fluid distribution network being positioned substantially adjacent to the countermass assembly, the fluid distribution network being substantially decoupled from the structure of the countermass assembly to inhibit thermal deformation of the countermass assembly.2. The reaction assembly of wherein the countermass assembly includes a distribution plate assembly claim 1 , and wherein a majority of the fluid distribution network is positioned below and substantially adjacent to a bottom surface of the distribution plate assembly.3. The reaction assembly of wherein the distribution plate assembly includes a plurality of unit apertures claim 2 , each coil unit is positioned near one of the unit apertures.4. The reaction assembly of wherein the fluid distribution network includes a Coil Temperature Control network for cooling individual coils within the coil units claim 3 , and a Surface Temperature Control network for cooling a surface of the coil units.5. The reaction assembly of wherein the distribution plate assembly includes a plurality of passageways that extend between the fluid distribution network and the coil units claim 3 , the passageways providing the only source of circulation fluid within ...

HEAT EXCHANGER FOR HEAT PUMP APPLICATIONS

A heat exchanger includes a first header and a second header. The second header has at least a first volume and a second volume. The second header additionally includes a bend region such that the second header has a non-linear configuration. A flow restricting element is arranged within the second header within the bend region. A plurality of heat exchange tubes is arranged in spaced parallel relationship and fluidly coupling the first header and second header. 1. A heat exchanger , comprising:a first header;a second header having at least a first volume and a second volume, wherein the second header includes a bend region such that the second header has a non-linear configuration;a flow restricting element arranged within the second header within the bend region; anda plurality of heat exchange tubes arranged in spaced parallel relationship and fluidly coupling the first header and second header.2. The heat exchanger of claim 1 , wherein the flow restricting element is a distributor having a longitudinally elongated body and a plurality of openings formed in the body.3. The heat exchanger of claim 2 , wherein at least one of the plurality of openings is arranged at an angle relative to an adjacent end of the plurality of heat exchange tubes.4. The heat exchanger of claim 3 , wherein the angle of the at least one opening of the plurality of openings relative to the plurality of heat exchange tubes is between about 60 degrees and about 120 degrees.5. The heat exchanger of claim 2 , wherein the at least one of the plurality of openings is oriented such that a heat exchange fluid passes through the at least one opening in a direction substantially opposite a direction of an air flow across the plurality of heat exchange tubes.6. The heat exchanger of claim 2 , wherein the plurality of openings is axially spaced such that the plurality of openings is offset from the plurality of heat exchange tubes.7. The heat exchanger of claim 2 , further comprising an inlet for ...

HEAT EXCHANGER AND METHOD OF WETTING HEAT EXCHANGERS

A heat exchanger including a first module and a second module for heat exchange between a first fluid medium and a second fluid medium. The first fluid medium is conducted through a closed channel system separate from the second fluid medium, with the closed channel system flowed around by the gaseous second fluid medium. The first module and the second module are wetted by a third fluid medium, with a first wetting apparatus wetting the first module being actuatable independently of a second wetting apparatus wetting the second module. A first blocking element is provided for the first wetting apparatus. A second blocking element is provided for the second wetting apparatus. A monitoring system is provided by means of which the period of use of each blocking element can be detected so that the blocking elements can be switched in based on the data on the period of use. 1. A heat exchanger including at least one first module and one second module for the heat exchange between a first fluid medium and a second fluid medium , wherein the first fluid medium can be conducted through a closed channel system separate from the second fluid medium , with the closed channel system being able to be flowed around by the second fluid medium and with the second fluid medium being gaseous ,characterized in thata first wetting apparatus is provided for the first module and a second wetting apparatus is provided for the second module by means of which wetting apparatus the first module and the second module can be wetted by a third fluid medium, with the first wetting apparatus for the first module being able to be actuated independently of the wetting apparatus for the second module, and wherein a first blocking element is provided for the first wetting apparatus and a second blocking element is provided for the second wetting apparatus, and wherein a monitoring system is provided by means of which the period of use of each of the blocking elements be detected so that the blocking ...

RAM AIR HEAT EXCHANGER

A heat exchanger to exchange heat between a ram air flow and a liquid flow includes a plurality of ram air layers that direct air, wherein each ram air layer is a single pass layer including a plurality of ram air fins in fluid communication with the ram air flow, and a plurality of liquid pass layers, wherein each liquid pass layer is a five pass layer including a plurality of liquid pass fins in fluid communication with the liquid flow, and each of the plurality of liquid pass layers is disposed adjacent to at least one ram air layer of the plurality of ram air layers. 1. A heat exchanger to exchange heat between a ram air flow and a liquid flow , comprising:a plurality of ram air layers that direct air, wherein each ram air layer is a single pass layer including a plurality of ram air fins in fluid communication with the ram air flow; anda plurality of liquid pass layers, wherein each liquid pass layer is a five pass layer including a plurality of liquid pass fins in fluid communication with the liquid flow, and each of the plurality of liquid pass layers is disposed adjacent to at least one ram air layer of the plurality of ram air layers.2. The heat exchanger of claim 1 , wherein the plurality of liquid pass fins each have a liquid pass fin height of 0.058 inches.3. The heat exchanger of claim 1 , wherein the plurality of liquid pass fins have a liquid pass fin density of between 10 to 14 fins per inch.4. The heat exchanger of claim 1 , wherein the plurality of liquid pass fins each have a liquid pass fin thickness of between 0.002 to 0.004 inches.5. The heat exchanger of claim 1 , wherein the plurality of ram air fins each have a ram air fin height of 0.500 inches.6. The heat exchanger of claim 1 , wherein the plurality of ram air fins includes a plurality of ruffled ram air fins and a plurality of straight ram air fins.7. The heat exchanger of claim 6 , wherein the plurality of ruffled ram air fins have a ruffled ram air fin density of between 22 to 26 fins ...

DUAL RADIATOR ENGINE COOLING MODULE - SINGLE COOLANT LOOP

An engine cooling system for a motor vehicle having a dual radiator assembly plumbed in parallel within a single coolant loop to provide improved engine cooling. 1. A radiator assembly for use in an engine cooling system of a motor vehicle , comprising:a first radiator unit having a first inlet and a first outlet;a second radiator unit having a second inlet and a second outlet;an inlet hose assembly having a first inlet hose connected to said first inlet, a second inlet hose connected to said second inlet, an inlet supply hose, and an inlet connector interconnecting said inlet supply hose to both of said first and second inlet hoses; andan outlet hose assembly having a first outlet hose connected to said first outlet, a second outlet hose connected to said second outlet, an outlet supply hose, and an outlet connector interconnecting said outlet supply hose to both of said first and second outlet hoses.2. The radiator assembly of wherein said first radiator unit is larger than said second radiator unit.3. The radiator assembly of wherein a thickness dimension of a first core for said first radiator unit is equal to a thickness dimension of a second core for said second radiator unit.4. The radiator assembly of wherein said first radiator unit is disposed between a blower fan and said second radiator unit.5. The radiator assembly of wherein said inlet hose assembly is supplied with coolant exiting the engine and said outlet hose assembly supplies coolant to a water pump.6. A radiator assembly for use in an engine cooling system of a motor vehicle having a water pump and a fluid flow circuit through which coolant is circulated between the engine and the water pump claim 1 , the radiator assembly comprising:a first radiator unit having a first inlet and a first outlet;a second radiator having a second inlet and a second outlet;an inlet hose assembly having an inlet supply hose in fluid communication with the fluid flow circuit to receive coolant from the engine, a first ...

Refrigerator Appliance

A refrigerator appliance includes a sealed system having an evaporator. A heater is positioned adjacent the evaporator within a cabinet of the refrigerator appliance. The heater includes a sheath and a spine fin assembly. The spine fin assembly is wrapped around the sheath and includes a plurality of spine fins that extend away from the sheath. 1. A refrigerator appliance , comprising:a cabinet defining a chilled chamber;a sealed system comprising an evaporator, the evaporator disposed at the chilled chamber;a heater positioned adjacent the evaporator, the heater comprising a sheath and a spine fin assembly wrapped around the sheath, the spine fin assembly comprising a base and a plurality of spine fins mounted to the base, the base of the spine fin assembly positioned on the sheath, the spine fins of the plurality of spine fins extending away from the sheath.2. The refrigerator appliance of claim 1 , wherein the heater is positioned below the evaporator within the cabinet.3. The refrigerator appliance of claim 1 , wherein the heater extends between a first end portion and a second end portion claim 1 , the heater defining a length between the first and second end portions of the heater claim 1 , the length of the heater being no greater than two feet.4. The refrigerator appliance of claim 1 , wherein the base and the spine fins of the spine fin assembly are integrally formed from a common piece of material.5. The refrigerator appliance of claim 4 , wherein the common piece of material comprises aluminum.6. The refrigerator appliance of claim 5 , wherein the sheath of the heater comprises aluminum or steel alloy.7. The refrigerator appliance of claim 1 , wherein the sealed system is charged with a flammable refrigerant.8. The refrigerator appliance of claim 7 , wherein a maximum surface temperature of the heater is no greater than three hundred and sixty degrees Celsius during operation of the heater.9. The refrigerator appliance of claim 8 , wherein the heater ...

Waste Heat Recovery System of Vehicle

A waste heat recovery system of a vehicle generally comprises a heat source, an air-passage body, and a heat-preservation container. The heat source is provided with a pipe. The air-passage body is coupled to the pipe. The air-passage body defines therein a chamber and at least one passage communicating with the chamber, wherein the chamber communicates with the pipe for collecting the waste heat energy transferred by the pipe. The heat-preservation container, being placed above the air-passage body, communicates with the passage of the air-passage body and is provided with multiple heat-transfer elements therein. With the waste heat recovery system, the waste heat energy can be transferred via air from the heat source to the container to enable the container to keep at a lower temperature for food or articles required to be warmed. Furthermore, the waste heat energy enables a conversion module in the chamber to generate electrical power. 1. A waste heat recovery system of a vehicle , comprising:a heat source provided with a pipe that can transfer the waste heat energy generated from the heat source;an air-passage body coupled to the pipe, the air-passage body defining therein a chamber and at least one passage communicating with the chamber, wherein the chamber communicates with the pipe for collecting the waste heat energy transferred by the pipe; anda heat-preservation container placed above the air-passage body, the heat-preservation container communicating with the passage of the air-passage body and being provided with a plurality of heat-transfer elements therein;whereby the waste heat energy can be transferred via air from the heat source to the heat-preservation container to enable the heat-preservation container to keep at a lower temperature for food or articles to be warmed.2. A waste heat recovery system of a vehicle as claimed in claim 1 , wherein at least one conversion module is installed within the air-passage body.3. A waste heat recovery system of ...

COMPOSITIONS AND METHODS FOR REFRIGERATION

Heat transfer systems, methods and compositions which utilize a heat transfer fluid comprising: (a) from about 30% to about 65% by weight of HFC-134a; (b) from about 0% to about 70% by weight of HFO1234ze; and (c) from about 0% to about 70% by weight of HFO-1234yf, provided that the amount of HFO-1234ze and HFO-1234yf in the composition together is at least about 35% by weight, with the weight percent being based on the total of the components (a)-(c) in the composition. 1. A heat transfer composition comprising: (a) from about 30% to about 65% by weight of HFC-134a; (b) from about 0% to about 70% by weight of HFO1234ze; and (c) from about 0% to about 70% by weight of HFO-1234yf , provided that the amount of HFO-1234ze and HFO-1234yf in the composition together is at least about 35% by weight , with the weight percent being based on the total of the components (a)-(c) in the composition.2. The heat transfer composition of comprising (a) from about 35% to about 55% by weight of HFC-134a; (b) from about 30% to about 60% by weight of HFO1234ze; and (c) from about 5% to about 30% by weight of HFO-1234yf claim 1 , with the weight percent being based on the total of the components (a)-(c) in the composition.3. The heat transfer composition of comprising (a) from about 35% to about 50% by weight of HFC-134a; (b) from about 30% to about 55% by weight of HFO1234ze; and (c) from about 5% to about 25% by weight of HFO-1234yf claim 1 , with the weight percent being based on the total of the components (a)-(c) in the composition.4. The heat transfer composition of comprising (a) from about 40% to about 45% by weight of HFC-134a; (b) from about 35% to about 50% by weight of HFO1234ze; and (c) from about 10% to about 20% by weight of HFO-1234yf claim 1 , with the weight percent being based on the total of the components (a)-(c) in the composition.5. The heat transfer composition of comprising (a) about 42% by weight of HFC-134a; (b) 40% by weight of HFO1234ze; and (c) about 18% by ...

Freeze Damage Resistant Window Perimeter Radiator

A room perimeter heating/cooling radiator with a non symmetrical elliptical transverse cross section, that utilizes low to medium temperature heat transfer fluid (generally water or water/glycol) in a new design with an enhanced ‘primary only’ heat transfer surface having an internal spiral or helix to circulate the water around the inside of the primary surface to enhance the heat transfer, and an internal conduit that provides both freeze damage protection and the ability to cross connect multiple identical radiators for increased efficiency. The primary intended location is within inches of the building windows. 1. A freeze damage resistant thermal energy heat exchanger comprising:a finless, thin walled hollow tubular shell having a proximate end and a distil end, and defining a first fluid chamber;at least two end caps, each affixed at either said proximate or said distal end of said shell;at least one inlet fitting into said first fluid chamber;at least one shell outlet fitting out of said first fluid chamber;a thermally insulated core tube residing within said shell and defining a second chamber;at least one core tube inlet fitting into said second chamber;at least one core tube outlet fitting out of said second chamber; anda spiral baffle with a linear bore formed about a longitudinal axis thereof said baffle,wherein said baffle resides within said shell with said core tube passing through said bore, andwherein there is a spatial gap between said core tube and said baffle; andwherein said core tube can elastically deform and alter its shape to accommodate volume changes within said first fluid chamber or second chamber.2. The freeze damage resistant thermal energy heat exchanger of wherein said shell has a rounded cross sectional configuration.3. The freeze damage resistant thermal energy heat exchanger of wherein said shell is constructed of a highly thermally conductive material selected from the group consisting of copper claim 2 , brass claim 2 , aluminum ...

Heat exchanger flange plate with supercooling function

A heat exchanger having a heat exchanger core which is configured as a plate stack has a flange plate including at least one upper partial plate facing the heat exchanger core and at least one lower partial plate facing away from the heat exchanger core. The flange plate can include a supercooling passage which is bounded by at least one partial plate in the stacking direction of the partial plates and which receives a flow of refrigerant during the operation of the heat exchanger. A high variability can be provided thanks to the compact and flexible design, by means of which the most diverse of requirements can be achieved with no major design changes.

AIR COOLED CONDENSER AND POWER GENERATING APPARATUS PROVIDED WITH THE SAME

Disclosed are an air cooled condenser capable of preventing air from being mixed into a working medium flow path, and a power generating apparatus including the air cooled condenser. The air cooled condenser includes a heat exchanger for air-cooling a working medium indirectly through a wall, a fan, a sensor for measuring a pressure value of the working medium at an outlet of the heat exchanger, and a controller for controlling the rotating speed of the fan such that the pressure value obtained by the sensor comes closer to a target value set to be equal to or larger than an atmospheric pressure.

Radiator and condenser assembly

Provided is a radiator and condenser assembly, and more particularly, a radiator and condenser assembly capable of forming a pair of protrusions for horizontally fixing the condenser at a lower portion of a header tank of the radiator and forming a fixed part in a ‘U’ shape for fixing the condenser in a front and back direction to directly fix a vapor-liquid separator of the condenser to the header tank of the radiator to remove a fixed bracket formed in the condenser, thereby saving component manufacturing costs and additional process and processing costs for forming the fixed bracket.

THERMAL MANAGEMENT SYSTEM AND METHOD FOR FUEL CELL VEHICLE

A thermal management system and method for a fuel cell vehicle is provided. c In particular, a radiator, a 3-way valve, a pump, a heater, and a stack are all connected in that order. The system is capable of selectively de-mineralizing and providing an increase in flow rate by connecting a de-mineralizer line to a port at a bypass line side of a 3-way valve. 1. A thermal management system for a fuel cell vehicle , comprising:a radiator configured to dissipate heat generated from a fuel cell stack through cooling water;a de-mineralizer disposed in a branch line branched from a cooling water circulating line connecting between the fuel cell stack and the radiator allowing the cooling water to pass therethrough; anda 3-way valve configured to include a first port, a second port, and a third port,wherein the first port is connected to a radiator line along which the cooling water passing through the radiator flows, the second port is connected to a bypass line formed in front of an inlet of the radiator within the cooling water circulating line, and the third port is configured to be connected to a fuel cell stack side of the cooling water circulating line, andthe de-mineralizer line along which the cooling water passing through the de-mineralizer flows is connected to the second port.2. The thermal management system of claim 1 , wherein the 3-way valve is configured to open both of the first port and the second port or selectively open only one of the first port and the second port.3. The thermal management system of claim 2 , further comprising:a controller configured to control an open value of the 3-way valve.4. The thermal management system of claim 3 , wherein the controller divides a section into a low output section claim 3 , a normal output section claim 3 , and a high output section depending on an output state of the vehicle and variably controls the open value of the 3-way valve in each section.5. The thermal management system of claim 4 , wherein the ...

Heat dissipation module

A heat dissipation module includes a centrifugal fan and a heat pipe. The centrifugal fan includes an outer housing, a heat dissipation fin array, a retaining wall, an impeller and a rotation-driving device. The outer housing includes an axial air inlet, an axial air outlet and a radial air outlet. The heat dissipation fin array is located at an inner wall of the radial air outlet. The retaining wall is located on a flat wall of the outer housing on which the axial air outlet is located. The retaining wall is in contact with an inner wall of an electronic device to collectively form a circulation channel so as to guide airflows output from the axial air outlet through the flat wall with which the heat dissipation fin array is aligned, and into the axial air inlet. The heat pipe is in contact with the heat dissipation fin array.

COOLING RADIATOR HAVING LIQUID COOLING

The invention relates to a cooling radiator (), comprising an upper accumulator (), a lower accumulator (), and at least one sub-module () consisting of cooling elements that are respectively connected to the upper accumulator () and/or the lower accumulator () by means of individual manifolds (), wherein the sub-modules () are provided with pipes () that have ribs () on the exterior sides thereof, characterized in that the sub-modules () are arranged vertically and transversely to the longitudinal direction of the accumulators () and the pipes () of the sub-modules () are arranged parallel to and at a distance () from one another to allow air to pass therebetween. 1. A cooling radiator comprising an upper and a lower primary manifold as well as at least one submodule composed of cooling elements that are connected with the upper and with the lower primary manifold via individual secondary manifolds , the submodules each having tubes that are each provided with external ribs , whereinthe submodules extend perpendicular and transverse to the longitudinal direction of the primary manifolds, andthe tubes of the submodules are set at a spacing from and parallel to one another, for air passage.2. The cooling radiator according to claim 1 , wherein at least the tubes of the submodules made of aluminum or an aluminum alloy.3. The cooling radiator according to claim 1 , wherein each submodule comprises up to twelve ten tubes.4. The cooling radiator according to claim 1 , wherein the tubes of the submodules have a flattened generally rectangular cross section with rounded corners.5. The cooling radiator according to claim 1 , wherein the tubes have at least one inner partition.6. The cooling radiator according to claim 1 , wherein the width of the tubes is up to 130 mm.7. The cooling radiator according to claim 1 , wherein the spacing between the tubes claim 1 , per submodule claim 1 , is up to 30 mm.8. The cooling radiator according to claim 1 , wherein the tubes each have ...

COOLING APPARATUS FOR ELECTRICAL WIRE

Described are electrical wires accommodated inside a shield tube to be cooled down. A plurality of electrical wires connecting a motor and an inverter , and cooling tubes thorough which coolant flows are inserted through a shield tube . The electrical wires are gathered at the center of the shield tube , and three cooling tubes are arranged so as to surround the electrical wires from the outer side. Furthermore, the cooling tubes are connected to a circulating circuit C of coolant for cooling down an engine 1. A cooling apparatus for cooling down an electrical wire , the cooling apparatus comprising:a shield tube through which the electrical wire can be inserted in an electrically shielded state,wherein a cooling path through which a cooling fluid for cooling down the electrical wire flows is formed inside the shield tube.2. The cooling apparatus for an electrical wire according to claim 1 , wherein the cooling path is connected to a circulating circuit of coolant for a motor or an engine.3. The cooling apparatus for an electrical wire according to claim 1 , wherein a cooling tube functioning as the cooling path is inserted together with the electrical wire through the shield tube claim 1 , and the cooling tube is disposed in contact with the electrical wire substantially along an axial direction.4. The cooling apparatus for an electrical wire according to claim 3 , wherein a plurality of the electrical wires are inserted through the shield tube claim 3 , the electrical wires are arranged so as to be gathered at the center of the shield tube claim 3 , and a plurality of the cooling tubes are arranged so as to surround the electrical wires from the outer side.5. The cooling apparatus for an electrical wire according to claim 3 , wherein at least one the cooling tubes is disposed along the axial direction at the center of the shield tube claim 3 , a plurality of the electrical wires are inserted through the shield tube claim 3 , and the electrical wires are arranged ...

WARM-WATER GENERATING APPARATUS

A warm-water generating apparatus () uses, as a refrigerant, a mixed refrigerant containing at least 1,2-difluoroethylene (HFO-1132(E)). The warm-water generating apparatus () includes a compressor (), a heat-source-side air heat exchanger (), an expansion valve (), and a use-side water heat exchanger (). The water heat exchanger () causes the mixed refrigerant flowing therein and first water to exchange heat with each other to heat the first water. 1. A warm-water generating apparatus using a refrigerant containing at least 1 ,2-difluoroethylene (HFO-1132(E)) , comprising:a compressor;a heat-source-side first heat exchanger;an expansion mechanism; anda use-side second heat exchanger,wherein the second heat exchanger causes the refrigerant flowing therein and first water to exchange heat with each other to heat the first water.2. The warm-water generating apparatus according to claim 1 , further comprising:a tank; anda circulation flow path that allows the first water to circulate between the tank and the second heat exchanger.3. The warm-water generating apparatus according to claim 1 , further comprising:a first circulation flow path that allows the first water heated by the second heat exchanger to circulate;a second circulation flow path that is different from the first circulation flow patha third heat exchanger that causes the first water flowing through the first circulation flow path and second water flowing through the second circulation flow path to exchange heat with each other to heat the second water flowing through the second circulation flow path; anda tank that stores the second water heated by the third heat exchanger.4. The warm-water generating apparatus according to claim 1 , further comprising:a first circulation flow path that allows the first water heated by the second heat exchanger to circulate; anda tank,wherein a portion of the first circulation flow path is disposed in the tank and allows the first water flowing through the first ...

Coined header for heat exchanger

A header for a heat exchanger includes a header frame defining an opening and including a base portion circumscribing a perimeter thereof. A mounting tab extends from the base portion. The mounting tab is configured to bend inwardly with respect to the header frame. A deformation featured is formed on one of an inner surface and an outer surface of the header frame and is configured to facilitate bending of the mounting tab

Cyclonic condensing and cooling system

An apparatus is provided for processing reusable fuel comprising a first-type cyclone cooler having a first configuration. The apparatus also provides one or more second-type cyclone coolers, wherein each one or more second-type cyclone coolers has a substantially identical second configuration to respective other one or more second-type cyclone coolers, wherein the second configuration is different than the first configuration. The apparatus may also provide an air cooled heat exchanger, a coil condenser and one or more bubblers. The first-type cyclone cooler and the one or more second-type cyclone coolers are connected. One of the one or more second-type cyclone coolers is connected to the air cooled heat exchanger. The air cooled heat exchanger is connected to the coil condenser. The coil condenser is connected to the one or more bubblers.

Cyclonic cooling system

Fractionation, the process used by refineries to break down carbon chains of petroleum compounds so that the desired carbon compound can be achieved. This process typically involves high heat, distillation, re-boiling, and energy intensive cooling processes. This application discloses an invention that will condense vapor produced by a pyrolysis reactor. This system uses one standard cyclone; three cascading cyclones with internal cyclonic rotation fins that force incoming vapor to maintain a fixed amount of rotation regardless of the vapor's velocity, heat sinks that increase condensation, reversing fins that force gases to reverse direction inside the cyclone decreasing vapor velocity to increase heat loss; a main collection tank that allows for the controlling of the fuel flash point; a compact low temperature coil cooler that uses 100 percent of the cooling surface that allows for the production of higher quality fuel; and, bubblers/scrubbers that produce back pressure into the pyrolysis reactor.

旋风凝结和冷却系统

提供一种用于处理可重复使用燃料的装置，包括具有第一配置的第一类型旋风冷却器。该装置还设置有一个或多个第二类型旋风冷却器，其中每一个或多个第二类型旋风冷却器具有与相应的其他一个或多个第二类型旋风冷却器基本相同的第二配置，其中第二配置与第一配置不同。该装置还可以设置有空气冷却热交换器、盘管凝结器和一个或多个起泡器。第一类型旋风冷却器和一个或多个第二类型旋风冷却器连接。一个或多个第二类型旋风冷却器中的一个连接到空气冷却热交换器。空气冷却热交换器连接到盘管凝结器。盘管凝结器连接到一个或多个起泡器。

Аппарат воздушного охлаждения газа

Изобретение относится к области энергетики, а именно к аппаратам воздушного охлаждения газа, применяемым для охлаждения природного газа. Аппарат воздушного охлаждения газа, состоящий из горизонтально расположенных теплообменных секций коллекторного типа, включающих камеры подвода и отвода охлаждаемого газа, содержащие трубные доски с отверстиями, в которые заделаны концы оребренных труб, осевого вентилятора и диффузора. В диффузоре жестко установлены, по крайней мере, три дефлектора двух типов: S-образный дефлектор для центра теплообменника, состоящий из двух половин, формирующих два оппозитных центральносимметричных (относительно оси вентилятора) воздухозаборных канала, в каждом из которых расположены не менее чем три регулируемые поворотные лопасти, установленные за лопастями воздухосборника друг над другом с одинаковым шагом и углом их установки, и два лопастных дефлектора для периферийной части теплообменника, установленные посередине крайних теплообменников, причем на дне каждого воздухозаборного канала после поворотных лопастей выполнено окно для эжектирования пассивного потока воздуха с центральной части вентилятора, а задняя стенка воздухосборника выполнена спрофилированной, формируя плавный вход поступающего из диффузора в воздухозаборник потока воздуха снаружи S-образного дефлектора и обеспечивая вертикальный выход потока охлаждающего воздуха из поворотных лопастей внутри воздухозаборника. Технический результат изобретения заключается в увеличении эффективности расходуемого воздуха, проходящего через секции теплообменника аппарата воздушного охлаждения газа, и в оптимизации направления потоков охлаждающего воздуха в центре диффузора аппарата. 1 з.п. ф-лы, 5 ил. РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 617 668 C1 (51) МПК F28D 1/00 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ФОРМУЛА (21)(22) Заявка: ИЗОБРЕТЕНИЯ К ПАТЕНТУ РОССИЙСКОЙ ФЕДЕРАЦИИ 2016106077, 20.02.2016 (24) Дата начала отсчета срока действия патента: 20.02.2016 Дата ...

Refrigerator and Condenser

냉장고에 관한 것으로서, 냉동사이클에 가연성 냉매를 사용해서 내부로의 가연성 냉매의 누수를 현저하게 적게한 냉장고를 제공하기 위해, 가연성 냉매가 봉입된 냉동사이클의 증발기로서의 중간열교환기를 단열재내부에 마련하고, 중간열교환기와 냉각열교환기 사이에 열반송장치를 마련함과 동시에 정지시 및 냉매누수 발생시에 중간열교환기내의 냉매를 응축기 또는 냉매회수용기에 회수하고, 냉매누수가 발생해도 냉장고 내부로의 냉매누수량을 적게 할 수 있도록 한 구성으로 하였다. A refrigerator, comprising: an intermediate heat exchanger as an evaporator of a refrigeration cycle in which a combustible refrigerant is enclosed, in order to provide a refrigerator in which a refrigeration cycle uses a combustible refrigerant to significantly reduce leakage of the combustible refrigerant into an interior, A heat transfer device is provided between the intermediate heat exchanger and the cooling heat exchanger. At the same time, the refrigerant in the intermediate heat exchanger is recovered to the condenser or the refrigerant recovery container at the time of stoppage and the refrigerant leakage, and the amount of refrigerant leakage into the refrigerator is reduced even if the refrigerant leaks. It was set as one configuration to be able. 이러한 구성에 의해, 지구환경보호의 관점에서 문제가 없는 프로판과 이소부탄을 혼합한 냉매 등의 가연성 냉매를 봉입해서 사용하였을 때, 증발기 등의 내부에 보유되어 있는 가연성 냉매를 응축기 또는 회수용 용기내로 회수할 수 있도록 하였으므로, 예를 들면 증발기 등에서 가연성 냉매가 누수되었다 해도 거의 가연성 냉매를 응축기 또는 냉매회수용기내로 회수할 수 있고, 가연성 냉매의 누수량을 가능한 한 적게 할 수 있어 그 결과 냉장고의 불꽃이 나옴, 폭발의 위험을 회피할 수 있는 효과를 가져온다. With this configuration, when flammable refrigerants such as propane and isobutane mixed refrigerants are used in a sealed manner, the flammable refrigerant retained in the evaporator or the like is stored in the condenser or recovery container. Since it is possible to recover, even if flammable refrigerant leaks in an evaporator or the like, almost flammable refrigerant can be recovered into a condenser or a refrigerant recovery container, and the amount of leakage of the flammable refrigerant can be reduced as much as possible, resulting in the flame of the refrigerator. This has the effect of avoiding the risk of explosion.

High/Low Temperature Water Cooling System

본 발명은 가열된 냉각수를 고온수와 저온수로 분리 또는 혼합하여 순환시킴으로써 각 열교환기의 특성에 따른 배열을 통해 대기중으로 방열되는 열에너지를 하드웨어적으로 제어할 수 있는 고/저온 수냉식 냉각시스템에 관한 것이다. The present invention relates to a high / low temperature water-cooled cooling system capable of hardware-controlling thermal energy radiated to the atmosphere through an arrangement according to the characteristics of each heat exchanger by circulating by separating or mixing the heated cooling water into hot water and cold water. will be. 본 발명에 따른 고/저온 수냉식 냉각 시스템은, 엔진에서 유입되는 냉각수를 외부공기와 열교환시켜 냉각하는 고온부 방열기와 상기 고온부 방열기에서 냉각되어 배출되는 냉각수의 일부를 워터 펌프로부터 유입하여 외부 공기와 재열교환시킨 다음 재배출하는 저온부 방열기가 일체화되어 이루어진 방열기와; 상기 저온부 방열기로부터 냉각수를 유입하여 엔진 연소실에 공급되는 과급공기와 열교환시키는 챠지 에어 쿨러와; 상기 챠지 에어 쿨러에서 배출되는 냉각수와 오일순환회로를 따라 순환하는 오일을 열교환시키는 오일 쿨러와; 상기 고온부 방열기와 상기 오일 쿨러로부터 배출되는 냉각수를 펌핑하여 엔진의 워터 재킷으로 강제 송출하는 워터 펌프와; 그리고, 엔진에서 배출된 냉각수를 기준온도 이상일 경우에 상기 고온부 방열기로 유도하고 기준온도 이하인 경우에는 워터 펌프로 바이패스시키는 서모스탯을 구비하여 이루어진다. In the high / low temperature water cooling system according to the present invention, a high temperature radiator for cooling by exchanging coolant flowing from an engine with external air and a portion of the cooling water cooled and discharged from the high temperature radiator from a water pump are reheated with external air. A radiator formed by integrating a low-temperature radiator which is then re-extracted; A charge air cooler configured to exchange heat with the charge air supplied to the engine combustion chamber by introducing cooling water from the low temperature radiator; An oil cooler configured to exchange heat between the coolant discharged from the charge air cooler and the oil circulated along the oil circulation circuit; A water pump for pumping the coolant discharged from the high temperature radiator and the oil cooler and forcibly discharging it to the water jacket of the engine; When the coolant discharged from the engine is above the reference temperature, the hot water radiator is guided to the high temperature radiator, and when the cooling ...

Heat exchanger

본 발명에 따른 증발열교환기는 마이크로 채널 타입으로 형성된 복수개의 플랫튜브들이 배치된 제 1 열교환모듈 및 제 2 열교환모듈을 포함하고, 상기 제 1 열교환모듈에 배치된 복수개의 플랫튜브들 중 일부에 배치되고, 냉매가 한쪽 방향으로 유동되는 제 1 패스; 상기 제 1 열교환모듈에 배치된 복수개의 플랫튜브들 중 나머지 일부에 배치되고, 상기 제 1 패스에서 공급된 냉매가 상기 제 1 패스와 반대 방향으로 유동되는 제 2 패스; 상기 제 1 열교환모듈에 배치된 복수개의 플랫튜브들 중 나머지 및 상기 제 2 열교환모듈에 배치된 복수개의 플랫튜브들 중 일부에 배치되고, 상기 제 2 패스에서 공급된 냉매가 상기 제 2 패스와 반대 방향으로 형성되는 제 3 패스; 상기 제 2 열교환모듈에 배치된 복수개의 플랫튜브들 중 나머지에 배치되고, 상기 제 3 패스에서 공급된 냉매가 상기 제 3 패스와 반대 방향으로 유동되는 제 4 패스;를 포함한다. 본 발명은 제 1 패스, 제 2 패스 및 제 3 패스의 플랫튜브 개수가 점진적으로 증가되어 증발기로 사용될 때 냉매의 압력손실을 저감할 수 있고, 분리된 2개의 열교환모듈에서 제 3 패스가 하나의 패스로 작동되는 장점이 있다. The evaporation heat exchanger according to the present invention includes a first heat exchange module and a second heat exchange module in which a plurality of flat tubes formed in a microchannel type are arranged and disposed in a part of a plurality of flat tubes arranged in the first heat exchange module A first pass through which the refrigerant flows in one direction; A second pass disposed in the remaining part of the plurality of flat tubes disposed in the first heat exchange module, wherein the refrigerant supplied in the first pass flows in a direction opposite to the first pass; A plurality of flat tubes disposed in the first heat exchange module, and a plurality of flat tubes disposed in the second heat exchange module, wherein the refrigerant supplied in the second pass is opposite to the second path A third pass formed in the direction of the first pass; And a fourth pass which is disposed at the rest of the plurality of flat tubes disposed in the second heat exchange module and in which the refrigerant supplied in the third pass flows in a direction opposite to the third pass. The present invention can reduce the pressure loss of the refrigerant when the number of flat tubes of the first pass, the second pass and the third pass is gradually increased to be used as an evaporator, and in the two separated heat exchange modules, It has the advantage of being ...

플레이트핀 타입 열교환기

인접한 플레이트핀 사이에서 간격을 유지하기 위한 간격 유지부는 공기의 유동방향에 수직한 방향으로 소정거리만큼 루버의 가장자리측으로부터 떨어져 위치되며, 공기의 유동방향에서 튜브의 하류측에 배치된다. 이와같은 식으로, 인접한 플레이트핀 사이의 공기 유동은 간격 유지부에 의해 교란되지 않고 루버를 통하여 흐르므로써 열교환 성능을 향상시키기 위한 루버의 효과가 충분히 유지될 수 있다.

Refrigerators and condensers

냉장고에 관한 것으로서, 냉동사이클에 가연성 냉매를 사용해서 내부로의 가연성 냉매의 누수를 현저하게 적게한 냉장고를 제공하기 위해, 가연성 냉매가 봉입된 냉동사이클의 증발기로서의 중간열교환기를 단열재내부에 마련하고, 중간열교환기와 냉각열교환기 사이에 열반송장치를 마련함과 동시에 정지시 및 냉매누수 발생시에 중간열교환기내의 냉매를 응축기또는 냉매회수용기에 회수하고, 냉매누수가 발생해도 냉장고 내부로의 냉매누수량을 적게 할 수 있도록 한 구성으로 하였다. 이러한 구성에 의해, 지구환경보호의 관점에서 문제가 없는 프로판과 이소부탄을 혼합한 냉매 등의 가연성 냉매를 봉입해서 사용하였을 때, 증발기 등의 내부에 보유되어 있는 가연성 냉매를 응축기 또는 회수용 용기내로 회수할 수 있도록 하였으므로, 예를 들면 증발기 등에서 가연성 냉매가 누수되었다 해도 거의 가연성 냉매를 응축기 또는 냉매회수용기내로회수할 수 있고, 가연성 냉매의 누수량을 가능한 한 적게 할 수 있어 그 결과 냉장고의 불꽃이 나옴, 폭발의 위험을 회피할 수 있는 효과를 가져온다.

Process for transferring heat to a liquid mixture comprising at least one (meth)acrylic monomer

본 발명은, 4차 암모늄 염, 3차 아민 또는 이의 브뢴스테드산과의 염을 액체 혼합물에 첨가하여 막힘을 감소시키고, 간접 열 교환기 내에서, 1종 이상의 (메트)아크릴 단량체를 포함하는 액체 혼합물로 열을 전달하는 방법에 관한 것이다. The present invention relates to a process for the preparation of a liquid mixture comprising a quaternary ammonium salt, a tertiary amine or a salt thereof with Bronsted acid to a liquid mixture to reduce clogging and to produce a liquid mixture comprising at least one (meth) To a method for transferring heat to a substrate. 활성 화합물, 부착 감소, 간접 열 교환기, (메트)아크릴 단량체를 포함하는 액체 혼합물로의 열 전달 Heat transfer to a liquid mixture containing the active compound, adhesion reduction, indirect heat exchanger, (meth) acryl monomer

Method of transferring heat to liquid mixture containing at least one (meth)acrylic monomer

FIELD: chemistry. SUBSTANCE: invention relates to a method of transferring heat to a liquid mixture containing at least one (meth)acrylic monomer selected from a group comprising acrylic acid, methacrylic acid, hydroxyethyl acrylate, hydroxyethyl methacrylate, hydroxypropyl acrylate, hydroxypropyl methacrylate, glycidyl acrylate, glycidyl methacrylate, methyl acrylate, methyl methacrylate, n-butyl acrylate, isobutyl acrylate, isobutyl methacrylate, n-butyl methacrylate, tert-butyl acrylate, tert-butyl methacrylate, ethyl acrylate, ethyl methacrylate, 2-ethylhexyl acrylate and 2-ethylhexyl methacrylate, through an indirect heat exchanger on whose primary side a fluid heat carrier flows and on whose secondary side simultaneously flows said liquid mixture containing at least one (meth)acrylic monomer, wherein the liquid mixture containing at least one (meth)acrylic monomer, in order to reduce contamination, additionally contains at least one active compound other than (meth)acrylic monomers which is selected from a group consisting of tertiary amines, salts formed from a tertiary amine and a Bransted acid, and quaternary ammonium compounds, under the condition that none of the tertiary and quaternary nitrogen atoms in the at least one active compound bears a phenyl group but at least some of said tertiary and quaternary nitrogen atoms bear at least one alkyl group. EFFECT: improved method. 15 cl, 16 ex РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) 2 469 054 (51) МПК C08K C08F F28D C09K C09K C07C ФЕДЕРАЛЬНАЯ СЛУЖБА C07C ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ C07C C07C C07C (12) ОПИСАНИЕ 5/17 220/00 1/00 5/08 5/10 51/25 51/41 51/42 45/82 47/22 (24) Дата начала отсчета срока действия патента: 11.12.2007 (45) Опубликовано: 10.12.2012 Бюл. № 34 (72) Автор(ы): ЛИПОВСКИ Гунтер (DE), ШЛИПХАКЕ Фолькер (DE), РИССЕЛЬ Штеффен (DE), ЙЕГЕР Ульрих (DE), ХЕФЕР Франк (DE), ХАРЕМЦА Зильке (DE), ЦУРОВСКИ Петер (DE), МЮЛЛЕР-ЭНГЕЛЬ Клаус Йоахим (DE) (73) Патентообладатель(и): БАСФ СЕ (DE) (56) Список ...

Heat exchanging apparatus

본 발명은 열교환 장치에 관한 것이다. 일 측면에 따른 열교환 장치는, 제 1 유체와 제 2 유체가 분배되어 유동하면서 상호 열교환되도록 하는 복수의 열교환기를 포함하고, 상기 복수의 열교환기 각각은 내부에 제 1 유체가 유동하기 위한 냉매 유로를 형성하는 쉘과, 상기 쉘 내부의 제 1 유체와 열교환하기 위하여 제 2 유체가 유동하는 하나 이상의 튜브를 포함한다.

Nappy String Fill Evaporation Water Cooler and Cooling Tower

본 발명의 보풀실충진 온수냉각기(도 9의 (가)) 및 냉각탑(도 9의 (나))은 온수냉각효율이 높은 강제통풍 증발 온수냉각시스템으로서, 핵심장치는 수백개 또는 수천개의 보풀실을 인접시켜 만든 칼럼형태의 보풀실온수냉각열교환장치(1)이며, 보풀실(4)은 물에 젖으면 실표면과 보풀주변에 표면장력이 형성되어 실표면에 물을 다량 응집시키고, 물이 실표면을 흘러내릴 때 물의 흐름을 방해하여 느리게 흐르게 하므로서 실 표면을 흐르는 물이 공기와의 접촉면적과 접촉시간을 증대시키므로 온수의 냉각효과를 극대화시킨다. 이러한 보풀실온수냉각열교환장치(1)의 냉각기능은 상부에 있는 온수유입구(3)를 통해 온수를 유입시키고 보풀실 표면을 흘러내리게 하여 하부까지 흘러내리는 동안 흡입환풍기(5, 13)로 실내공기 또는 옥외대기공기를 냉각공기유입구(6)로 온수흐름과 직각방향으로 통과시켜 온수를 증발 냉각시키며, 온수 냉각시 발생되는 다습한 공기는 흡입환풍기(5, 13)로 실내공기 또는 옥외대기공기를 유입시켜 냉각시키는 증기응축회수장치(2)로 유입시켜 증기를 응축시킨다. 보풀실충진 온수냉각기(도 9의 (가)) 및 냉각탑(도 9의 (나))은 냉각수를 보풀실온수냉각열교환장치(1) 밑에 부착되어 있는 냉각수저장탱크(9)에 저장하여 이 냉각수를 순환펌프(42)로 순환시켜 열발생시스템을 냉각시키고 나온 온수를 보풀실온수냉각열교환장치(1)에서 냉각시켜 냉각수로 전환시킨 후 냉각수저장탱크(9)에 수집하고, 이와같은 냉각수 순환과정이 계속되는 동안 열발생시스템은 냉각되어 열에 의한 파손이나 운전정지를 방지하게 된다. 본 발명의 보풀실충진온수냉각기(도 9의 (가))는 실내에 설치할 수 있어 동절기에도 상시운전이 가능하고, 또한 기존 냉각기의 동절기 동파방지 및 동파방지를 위한 특수운전이나 타 냉각시스템의 대치운전에 따른 추가 운전비용을 절감할 수 있는 효과가 있으며, 소량의 냉각수를 사용하고 온수냉각시 발생되는 증기를 다량 응축 회수하여 냉각수로 재활용하므로 극소량의 냉각수를 보충하도록 되어 있어 절수효과의 장점을 가지고 있으며, 운전시 사용되는 전력은 순환펌프와 환풍기의 가동에 사용하는 전력으로서 같은 목적으로 현재 상용화되고 있는 칠러냉각기에 비해 규모에 따라 1/2 내지 1/10에 해당되므로, 보풀실충진온수냉각기(도 9의 (가))는 장기간 운전이 요구될 경우 다량의 전력을 절약할 수 있는 장점을 가지고 있다. 특히 본 발명의 보풀실충진 온수냉각기(도 9의 (가)) 및 냉각탑(도 9의 (나)))은 온수냉각효율이 높은 보풀실을 사용하므로 보풀이 없는 무보풀실을 사용하는 냉각실열교환온수냉각기(특허 제 0393126호)와 실충진냉각탑(출원번호 : 10-2003-0035794, 출원일자 : 2003. 6. 3)에 비해 저렴하게 제작할 수 있는 것이 가장 큰 장점이다. Lint chamber filled hot water cooler (Fig. 9 (a)) and cooling tower (Fig. 9 (b)) of the present invention is a forced draft evaporation hot water cooling system with high hot water cooling efficiency, the core device is hundreds or thousands of fluff room Is a columnar lint-free hot water cooling heat exchanger (1) formed by adjoining the lint, and the lint-room (4) is formed with surface tensions around the real surface and the fluff when wetted with water, thereby agglomerating a large amount of water on the real surface. When flowing down the surface of the water, the water flows through the surface of the room to ...

Method for manufacturing teflon type - heat exchanging

불소수지재로 형성된 튜브관과 슬리브를 용착하여 제작되어 지는 열교환기를 제작하는 방법에 관한 것으로, 사용자가 원하는 지름의 슬리브에 튜브다발을 정리하여 벌집 모양으로 삽입하고, 용착하고자 하는 일측을 정렬하는 튜브다발 삽입정렬단계와 상기 튜브다발이 삽입된 슬리브를 금형에 장착하고, 금형상단에 형성된 간극과 금형에 삽입되지 않은 튜브다발의 타측을 제2 진공부의 호스와 실리콘을 이용하여 실링한 후, 밴드히터와 히터의 온도를 385 ∼ 395℃로 예열하는 단계와 상기 금형상단의 제1 진공부를 이용하여 튜브다발의 외측의 공기를 6 ∼ 7kgf/cm 2 로 흡입하고, 이와 동시에 튜브다발 내측으로도 공기를 흡입하되 상기 튜브다발 외측의 흡입량보다 적은 3 ∼ 4kgf/cm 2 의 압력으로 흡입하여 튜브다발의 내외측의 압력차를 형성하는 단계와 상기 금형에 장착된 튜브다발이 삽입된 슬리브의 외측을 밴드히터와 열매체를 이용하여, 일정한 온도로 균일하게 가열하는 슬리브 측면 가열단계와 상기 튜브다발이 삽입된 슬리브의 하측으로부터 히터의 열로 열매체를 기화시켜 튜브다발의 내측을 10 ∼ 12분 동안 가열하는 단계와 와 상기 밴드히터와 히터의 열을 200℃이하로 낮추어 풀림 처리 실시후에 냉각하는 단계로 이루어진 것에 특징이 있는 불소수지재형 열교환기 제조방법을 제공한다. The present invention relates to a method of manufacturing a heat exchanger manufactured by welding a tube formed of a fluororesin and a sleeve. A tube is arranged in a honeycomb shape by arranging a bundle of tubes in a sleeve of a desired diameter and aligning one side to be welded. The bundle inserting step and the sleeve into which the tube bundle is inserted are mounted on the mold, and the gap formed at the upper end of the mold and the other side of the tube bundle not inserted into the mold are sealed using the hose and the silicone of the second vacuum part, and then the band Preheating the heater and the temperature of the heater to 385-395 ° C. and sucking the air outside the tube bundle at 6 to 7 kgf / cm 2 using the first vacuum part at the upper end of the mold, and at the same time inside the tube bundle. Suctioning air but inhaling at a pressure of 3 to 4 kgf / cm 2 less than the suction amount outside the tube bundle to form a pressure difference between the inside and the outside of the tube bundle; Sleeve side heating step of uniformly heating the outer side of the sleeve in which the tube bundle is mounted on the mold is inserted using a band heater and the heating medium to a constant temperature and vaporizing the heating medium from the lower side of the sleeve into which the tube bundle is inserted. ...

Honeycomb structure

Evaporator

본 발명은 차량용 에어컨의 곰팡이 냄새를 제거할 수 있는 증발기에 관한 것으로서, 더욱 상세하게는 증발기의 일면에, 복수개의 통기구멍이 형성되며 수분을 흡수하지 않는 소재의 직물 또는 망사를 밀착되도록 구성하고, 상기 직물 또는 망사의 일측에 결합되어 상기 증발기에 형성되는 핀의 내부 공간으로 연장되도록 촉수를 형성하여 증발기 외부에 발생되는 수분을 흡수하여 빠르게 건조시킬 수 있도록 함으로써, 상기 증발기의 외측에 곰팡이가 서식하는 것을 억제하여 악취를 제거할 수 있는 증발기에 관한 것이다. The present invention relates to an evaporator capable of removing a mold odor of a vehicle air conditioner. More particularly, the present invention relates to an evaporator which has a plurality of ventilation holes formed on one surface of an evaporator, The tentacles are coupled to one side of the fabric or mesh to form a tentacle so as to extend into the inner space of the fin formed in the evaporator, thereby absorbing moisture generated outside the evaporator and allowing it to dry quickly, And the odor can be removed.

Heat exchanger with heated air disinfection

FIELD: heating equipment.SUBSTANCE: invention relates to heating engineering and can be used in heating systems of vehicles. Heat exchanger with disinfection of heated air, made in the form of a shell, inside which a burner is installed, in the bottom of the shell an evaporator is built-in with a tube for water supply and a steam collector and, at least, one superheater with steam line, connected to evaporator steam collector, wherein evaporator and superheater are made in form of blind branch pipes, and the steam line is made in the form of a tube, partially submerged into the superheater and directed to the sterilization zone of air heated by the heat exchanger, wherein the burner casing is arranged inside the heat exchanger shell to form a clearance for the combustion products passage.EFFECT: disinfection of air supplied to vehicle.3 cl, 1 dwg РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 737 922 C1 (51) МПК F28D 1/00 (2006.01) F28C 3/02 (2006.01) F22B 1/18 (2006.01) F22G 7/00 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (52) СПК F28D 1/00 (2020.08); F28C 3/02 (2020.08); F22B 1/1807 (2020.08); F22G 7/00 (2020.08) (21)(22) Заявка: 2020129055, 02.09.2020 (24) Дата начала отсчета срока действия патента: (73) Патентообладатель(и): Кордит Евсей Аврумович (RU) Дата регистрации: 04.12.2020 (45) Опубликовано: 04.12.2020 Бюл. № 34 2 7 3 7 9 2 2 R U (54) ТЕПЛООБМЕННИК С ОБЕЗЗАРАЖИВАНИЕМ НАГРЕВАЕМОГО ВОЗДУХА (57) Реферат: Изобретение относится к области выполнены в виде глухих патрубков, а теплотехники и может использоваться в паропровод выполнен в виде трубки, частично отопительных системах транспортных средств. погруженной в пароперегреватель и Теплообменник с обеззараживанием направленной в зону стерилизации потока нагреваемого воздуха, выполненный в форме воздуха, нагреваемого теплообменником, причем стакана, внутри которого установлена горелка, кожух горелки размещен внутри стакана в дно стакана встроен испаритель с ...

METHOD FOR TRANSFER OF HEAT TO A LIQUID MIXTURE CONTAINING AT LEAST ONE (MET) ACRYLONOMER

1. Способ для переноса тепла на жидкую смесь, содержащую, по меньшей мере, один (мет)акрилмономер с помощью автономного теплообменника, по которому на его первичной стороне течет жидкий теплоноситель и на его вторичной стороне одновременно течет жидкая смесь, содержащая, по меньшей мере, один (мет)акрилмономер, отличающийся тем, что жидкая смесь, содержащая, по меньшей мере, один (мет)акрилмономер содержит добавленное, по меньшей мере, одно отличающееся от (мет)акрилмономеров активное соединение из группы, состоящей из третичных аминов, солей, образованных из третичного амина и кислоты Бренстеда, а также четвертичных соединений аммония при условии, что третичные и четвертичные атомы азота в, по меньшей мере, одном активном соединении не имеют никакой фенильной группы, но, по меньшей мере, частичное количество, по меньшей мере, одной алкильной группы. ! 2. Способ по п.1, отличающийся тем, что, по меньшей мере, одним (мет)акрилмономером является акриловая кислота и/или метакриловая кислота. ! 3. Способ по п.1, отличающийся тем, что, по меньшей мере, одним (мет)акрилмономером является, по меньшей мере, один мономер из группы, состоящей из гидроксиэтилакрилата, гидроксиэтилметакрилата, гидроксипропилакрилата, гидроксипропилметакрилата, глицидилакрилата, глицидилметакрилата, метилакрилата, метилметакрилата, н-бутилакрилата, изо-бутилакрилата, изо-бутилметакрилата, н-бутилметакрилата, трет-бутилакрилата, трет-бутилметакрилата, этилакрилата, этилметакрилата, 2-этилгексилакрилата и 2-этилгексилметакрилата. ! 4. Способ по п.1, отличающийся тем, что, по меньшей мере, одним активным соединением является третичный амин общей форм РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) 2009 127 851 (13) A (51) МПК C08K 5/17 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ, ПАТЕНТАМ И ТОВАРНЫМ ЗНАКАМ (12) ЗАЯВКА НА ИЗОБРЕТЕНИЕ (21)(22) Заявка: 2009127851/05, 11.12.2007 (71) Заявитель(и): БАСФ СЕ (DE) (43) Дата публикации заявки: 27.01.2011 Бюл. № 3 (86) Заявка PCT: EP 2007/063686 (11.12. ...

radiator

본 발명은 라디에이터에 관한 것으로, 더욱 상세하게는 라디에이터의 헤더에 돌출턱을 구비하여 헤더와 탱크 결합 시 가스켓이 이탈되어 결합되는 것을 방지하게 되는 라디에이터에 관한 것이다. BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radiator, and more particularly, to a radiator having a protruding protrusion on a header of a radiator to prevent a gasket from being detached and coupled when a header and a tank are coupled. 본 발명의 라디에이터는 둘레를 따라 삽입부(11)가 형성되는 헤더(10)와, 상기 삽입부(11)에 대응하여 개구된 면의 둘레를 따라 결합부(21)가 돌출 형성된 탱크(20)와, 상기 헤더(10)의 삽입부(11)와 상기 탱크(20)의 결합부(21)와 사이에 끼워지는 가스켓(30)을 포함하고, 일정거리가 이격되어 나란하게 구비되는 헤더탱크(100); 상기 헤더탱크에 양 단이 고정되어 열교환 매체 유로를 형성하는 다수의 튜브(200); 상기 튜브(200) 사이에 개재되는 핀(300); 을 포함하여 이루어지는 라디에이터(R)에 있어서, 상기 헤더(10)는 삽입부(11)의 측면에 형성되는 돌출턱(12); 상기 탱크(20)는 상기 결합부(21)의 내면에 형성되어 상기 돌출턱(12)에 대응되는 돌출홈(22); 을 포함하여 이루어지는 것을 특징으로 한다. The radiator of the present invention includes a header 10 on which an insertion portion 11 is formed along a circumference and a tank 20 on which a coupling portion 21 is protruded along a circumference of a surface opened corresponding to the insertion portion 11. [ And a gasket 30 sandwiched between the insertion portion 11 of the header 10 and the coupling portion 21 of the tank 20. The header tank 30 is disposed at a predetermined distance from the header tank 10, 100); A plurality of tubes (200) having both ends fixed to the header tank to form a heat exchange medium flow path; A pin (300) interposed between the tubes (200); A protruding protrusion 12 formed on a side surface of the insertion portion 11; The tank 20 has a protruding groove 22 formed on the inner surface of the engaging portion 21 and corresponding to the protruding protrusion 12; And a control unit. 상기와 같은 구성에 의한 본 발명의 라디에이터는 헤더와 탱크 결합 시에 발생할 수 있는 가스켓의 이탈을 예방하여 냉각수의 누수를 방지하고, 기존의 헤더와 탱크 금형의 큰 수정 없이 제작이 가능하여 헤더와 탱크의 설계 변경에 따른 원가 상승을 줄일 수 있는 효과가 있다. The radiator according to the present invention can prevent the leakage of the gaskets caused by the detachment of the gasket that may occur when the header ...

Cryogenic heat transfer system

Disclosed herein is a cryogenic heat transfer system capable of transferring 50 W or more at cryogenic temperatures of 100° K or less for use with cryocooler systems. In an embodiment, a cryogenic heat transfer system comprises a refrigerant contained within an inner chamber bound by a condenser in fluid communication with an evaporator through at least one flexible conduit, the condenser in thermal communication with the cold station of a cryocooler, and the evaporator positionable in thermal communication with a heat source, typically a radiation shield of a cryogenic chamber. A process to remove heat from a cryogenic chamber is also disclosed.

Steam pyrolysis as a process to enhance the hydro-gasification of carbonaceous materials

A process and apparatus for producing a synthesis gas for use as a gaseous fuel or as feed into a Fischer-Tropsch reactor to produce a liquid fuel in a substantially self-sustaining process. In one embodiment, a slurry of carbonaceous material in water, and hydrogen from an internal source, are fed into a hydro-gasification reactor to generate methane rich producer gases which are fed into a steam pyrolytic reformer to generate synthesis gas comprising hydrogen and carbon monoxide. A portion of the hydrogen is used as the internal hydrogen source. The remaining synthesis gas is either used as fuel to produce electricity and/or process heat or is fed into a Fischer-Tropsch reactor to produce liquid fuel. In another embodiment of the invention, carbonaceous material can be heated simultaneously in the presence of both hydrogen and steam to undergo steam pyrolysis and hydro-gasification in a single step.

Radiator of vehicle driven by ice

Изобретение относится к устройству радиатора в транспортном средстве (1), приводимом в движение двигателем внутреннего сгорания (2). Устройство радиатора содержит систему (20) кондиционирования воздуха с циркулирующим хладагентом, предназначенным для выделения тепла в конденсаторе (12) и для поглощения тепла в испарителе (23), который находится в контакте с воздухом, близким к пространству (24) кабины в транспортном средстве (1), и линейную цепь, в которой циркулирующий охладитель приходит в теплопередающий контакт с двигателем (2). Конденсатор (12) системы КВ также находится в теплопередающем контакте с охладителем, который циркулирует через линейную цепь, и устройство радиатора содержит средство приведения в действие, которое позволяет системе (20) КВ приводиться в действие и охладителю циркулировать через линейную цепь в случаях, когда двигатель (2) не функционирует. Когда двигатель (2) холодный, охладитель, который циркулирует в линейной цепи, может доставлять к нему тепловую энергию, которую он приобретает в конденсаторе (12). Достигается экономичность системы кондиционирования при выключенном двигателе транспортного средства. 7 з.п. ф-лы, 1 ил. РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 541 550 C2 (51) МПК B60H 1/32 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ (21)(22) Заявка: ИЗОБРЕТЕНИЯ К ПАТЕНТУ 2013132553/11, 24.11.2011 (24) Дата начала отсчета срока действия патента: 24.11.2011 (72) Автор(ы): КАРДОС Зольтан (SE), ХАЛЛЬ Ола (SE) (73) Патентообладатель(и): СКАНИА СВ АБ (SE) Приоритет(ы): (30) Конвенционный приоритет: (43) Дата публикации заявки: 20.01.2015 Бюл. № 2 R U 14.12.2010 SE 1051316-6 (45) Опубликовано: 20.02.2015 Бюл. № 5 2003159455 A1, 28.08.2003. EP 2191990 A2, 02.06.2010. RU 2008140677 A, 20.04.2011 (85) Дата начала рассмотрения заявки PCT на национальной фазе: 15.07.2013 (86) Заявка PCT: 2 5 4 1 5 5 0 (56) Список документов, цитированных в отчете о поиске: US 2004194949 A1, 07.10.2004. US 2 5 4 1 5 5 0 R U (87) ...

Controlling the temperature of galvanic cells by means of heat-conducting plastics compounds

The present invention relates to a temperature-controlling panel (T) and a plastics housing (G) for one or more galvanic cells (Z), in particular lithium cells, for example lithium-ion cells. To improve the temperature control of the cells (Z) and to reduce costs and weight, the temperature-controlling panel (T) or the plastics housing (G) comprises at least one portion (12a) intended for heat dissipation, which is formed from a plastics compound (MW) that comprises at least one additive for increasing the thermal conductivity.

Radiator and condenser assembly

본 발명은 라디에이터 및 콘덴서 조립체에 관한 것으로, 더욱 상세하게는 라디에이터의 헤더탱크 하측에 콘덴서의 좌우 위치고정을 위한 한 쌍의 돌기를 형성하고 콘덴서의 전후 위치를 고정하기 위해 'U'자형의 고정부를 형성하여 콘덴서의 기액분리기를 라디에이터의 헤더탱크에 직접 고정할 수 있도록 함으로써, 콘덴서에 형성되는 고정 브라켓을 삭제할 수 있어 부품 제작비, 고정 브라켓을 형성하기 위한 추가적인 공정 및 가공비를 절감할 수 있는 라디에이터 및 콘덴서 조립체에 관한 것이다. The present invention relates to a radiator and a condenser assembly, and more particularly, to a radiator and a condenser assembly, in which a pair of projections for fixing a left and right position of a condenser are formed below a header tank of a radiator, Liquid separator of the condenser can be directly fixed to the header tank of the radiator, it is possible to eliminate the fixing bracket formed on the condenser, thereby reducing the manufacturing cost of the component, the additional process for forming the fixing bracket, and the processing cost. To a capacitor assembly.

Cooling tower arrangement and indirect dry cooling method

FIELD: heating. SUBSTANCE: invention refers to heat engineering and can be used in cooling towers with dry-type heat exchangers. A heat exchanger meant for cooling of liquid and oriented vertically along the longitudinal axis, comprises the first cooling delta set in the first point along the longitudinal axis and including the first inlet pipeline to let the flow of liquid in, which is connected to the first supply main via the fluid medium, and the first outlet pipeline to let the flow of liquid out, which is connected to the first inlet pipeline and the first discharge main via the fluid medium as well as the second cooling delta set in the second point along the longitudinal axis above the first cooling delta and including the second inlet pipeline to let the flow of liquid in, which is connected to the second supply main via the fluid medium, and the second outlet pipeline to let the flow of liquid out, which is connected to the second inlet pipeline and the second discharge main via the fluid medium. EFFECT: increased heat exchange in cooling deltas. 21 cl, 15 dwg РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 521 182 C2 (51) МПК F25B 41/00 (2006.01) F28D 21/00 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ (21)(22) Заявка: ИЗОБРЕТЕНИЯ К ПАТЕНТУ 2011149206/06, 04.05.2010 (24) Дата начала отсчета срока действия патента: 04.05.2010 Приоритет(ы): (30) Конвенционный приоритет: (72) Автор(ы): БОДАШ Янош (HU), ШАГИ Балаж (HU), ШОЙОМ Аттила (HU) 04.05.2009 US 61/175,319 (43) Дата публикации заявки: 10.06.2013 Бюл. № 16 R U (73) Патентообладатель(и): ЭсПиЭкс КУЛИНГ ТЕХНОЛОДЖИС, ИНК. (US) (45) Опубликовано: 27.06.2014 Бюл. № 18 (85) Дата начала рассмотрения заявки PCT на национальной фазе: 05.12.2011 C 2 C 2 _ПЕТЕРБУРГСКИЙ НИИПКИ "АТОМЭНЕРГОПРОЕКТ") 20.08.1996 . SU 1158769 A1 (КРАСНОДАРСКИЙ ПОЛИТЕХИ)30.05.1985 . US 0003881548 A1 (WESTINGHOUSE ELECTRIC CORP.) 06.05.1975 . US 0003916638 A1 (WYLAIN, INC.) 04.11.1975 (86) Заявка PCT: 2 5 2 1 1 8 2 ...

Device for Exchanging Heat with a Flat Product and Cooling Device for a Flat Product

전방에서 이동하는 편평 제품과의 열교환용 장치는 적어도 하나의 플리넘 챔버(11)를 소정 가스 압력 하에 위치시키는 수단을 포함하고, 상기 플리넘 챔버(11)는 편평 제품의 표면을 향한 가스의 배출을 위한 덕트를 형성하는 수개의 블레이드(12)를 전방면에서 포함하고, 상기 블레이드(12)들은 편평 제품의 이동 방향으로 서로 중첩되고 가스를 배출하기 위해 편평 제품의 폭의 방향으로 연장하는 배출 오리피스를 구성한다. The apparatus for heat exchange with a flat product moving forward comprises means for positioning at least one plenum chamber 11 under a predetermined gas pressure, the plenum chamber 11 discharging gas towards the surface of the flat product. A plurality of blades 12 from the front face, which form a duct for the purpose, wherein the blades 12 overlap each other in the direction of movement of the flat product and extend in the direction of the width of the flat product for discharging gas Configure 플리넘 챔버(11)는 플리넘 챔버(11)의 양 측면 상에서 가스의 방출을 허용하도록 충분하게, 제품의 폭 방향으로의 소정 폭을 갖는다. The plenum chamber 11 has a predetermined width in the width direction of the product sufficiently to permit the release of gas on both sides of the plenum chamber 11. 특히 압연 가공 강철 제품의 냉각을 위해 적용된다. It is especially applied for the cooling of rolled steel products. 열교환 장치, 편평 제품, 플리넘 챔버, 블레이드 Heat exchanger, flat products, plenum chamber, blade

High efficiency modular OEL heat exchanger with heat transfer promoting effect

본 발명은 열전달 촉진효과를 갖는 고효율 모듈형 오엘에프 열교환기에 관한 것으로, 그 구성은 열교환기에 있어서, a) 용량에 따라 길이가 다른 유체 공급용 헤더(Header, 13, 131, 132, 133)를 내부에 개유로 헤더(header) 연결용 소켓내부 삽입 링(17)과 폐유로 헤더(header) 연결용 소켓내부 막음 디스크(18)를 번갈아 삽입하여 유로를 변경시키는 소켓(14)을 사용하여 연결하고 상·하단부에는 유입/유출관(16)이 연결된 길이 가변형 유체(기체, 액체,또는 그 혼합물)공급용 연결관과; b) 상기 유체공급용 연결관이 양단에 위치하도록 연결·설치되고, 상부에 주유동 기체에 대해 충돌각(β)을 갖도록 절단 가공된 스트립이 형성된 OLF핀(12)이 부착되며, 양단이 절단각(θ) 만큼 경사지게 가공됨과 동시에 상기 가공된 양단을 길이가 다른 유체 공급용 헤더(Header, 13, 131, 132, 133)의 일측면에 형성된 각각의 측면 구멍(19)내로 삽입시켜 조립하는 유체공급용 편평관(11)과; c) 상기 유체공급용 연결관과 이 유체공급용 연결관의 헤더(Header, 13, 131, 132, 133) 일측면에 형성된 각각의 측면 구멍(19)에 삽입되고 상하 연속적으로 적층된 유체공급용 편평관(11)을 엔드 캡(end cap, 15)을 사용하여 헤더(header, 13, 133)의 끝단을 막음과 동시에 고정 지지하도록 상부와 하부 2곳에 설치된 ' '자형 열교환기 지지프레임(Support frame, 21)으로 구성된다. The present invention relates to a high efficiency modular OELF heat exchanger having a heat transfer promoting effect, the configuration of the heat exchanger, a) a fluid supply header (Header, 13, 131, 132, 133 having a different length depending on the capacity) Connect using the socket 14 for changing the flow path by inserting the internal insertion ring 17 for the header connection socket and the plugging block inside the socket 18 for the header connection for the waste flow path. A lower end connection tube for supplying a variable-length fluid (gas, liquid, or mixture thereof) to which the inlet / outlet tube 16 is connected; b) The OLF pin 12 is formed and connected so that the fluid supply pipe is positioned at both ends, and a strip is formed on the upper part of which has been cut to have a collision angle β with respect to the main flow gas. Fluid to be assembled by being inclined by an angle θ and inserted into each side hole 19 formed at one side of the fluid supply headers 13, 131, 132, and 133 having different lengths. A supply pipe 11 for supply; c) Fluid supply connector inserted into each side hole 19 formed in one side of the header for supplying the fluid supply and the header (13, 131, ...

Refrigerator and condenser

一种冰箱：将作为封入可燃性致冷剂的冷冻循环11的蒸发器的中间热交换器16设于绝热材料2的内部，于中间热交换器16与冷却用热交换器21间设置热输送装置的同时，在停止时与发生致冷剂漏流时，把中间热交换器16内的致冷剂回收到冷凝器内或致冷剂的回收容器内，即使发生致冷剂漏流，也可以减少往冰箱内部的致冷剂漏流量。

For the composition that freezes and method

利用传热流体的传热系统、方法和组合物，所述传热流体包含：(a)大约30重量%至大约65重量%的HFC-134a；(b)大约0重量%至大约70重量%的HFO1234ze；和(c)大约0重量%至大约70重量%的HFO-1234yf，条件是该组合物中HFO-1234ze和HFO-1234yf的总量为至少大约35重量%，该重量百分比基于该组合物中组分(a)–(c)的总量。

U-tube vaporizer

증발기는 용기(7) 내에 포함되는 복수의 U 자형 튜브(17)를 포함하고, 각각의 튜브는 두 개의 단부를 포함하고, 상기 튜브는 적어도 하나의 평면에 배치되고, 상기 용기는 튜브 단부와 같은 수의 개구를 갖는 판(13)에 의해 일측이 폐쇄되고, 튜브 측과 대향하는 측에서 돔(2)이 덮어지고, 상기 돔은 입구 챔버(3) 및 배출 챔버(5)를 형성하기 위해 상기 튜브의 평면에 수직인 벽(6)에 의해 한정되고, 상기 입구 챔버는 상기 튜브의 평면 및 벽에 직각인 칸막이(21)에 의해 두 부분으로 나누어짐으로써 상기 판과 칸막이 사이에서 액체 입구 챔버와 칸막이 다른 쪽에서 보조 챔버를 형성하고, 액체 입구는 증발기 외부로부터 시작되어 입구 챔버와 통하고, 상기 보조 챔버는, 입구 챔버에서 시작된 액체만 수용하도록 설계되어 외부로부터 시작되어 입구 챔버에 도달한 액체가 하부 개구를 통해서만 튜브로 들어간다. The evaporator comprises a plurality of U-shaped tubes (17) contained in a vessel (7), each tube comprising two ends, the tubes being arranged in at least one plane, One side is closed by a plate 13 having a numerical aperture and the dome 2 is covered on the side opposite to the tube side and the dome is fixed to the inlet chamber 3 and the discharge chamber 5 Characterized in that the inlet chamber is divided into two parts by a partition (21) perpendicular to the plane and wall of the tube such that the inlet chamber is between the plate and the partition and between the liquid inlet chamber The liquid inlet forming from the outside of the evaporator and communicating with the inlet chamber, said auxiliary chamber being designed to receive only the liquid starting from the inlet chamber, starting from the outside and reaching the inlet chamber The liquid enters the tube only through the lower opening.

Heat exchanger for vehicle

本发明涉及用于车辆的热交换器。用于车辆的热交换器被安装在具有传动系的车辆中，发动机冷却剂、发动机油和变速器油流过传动系，并且在传动系中发动机油的流量和变速器油的流量彼此不同。通过层压多个板而形成用于引起发动机冷却剂流动的第一流路、用于引起发动机油流动的第二流路和用于引起变速器油流动的第三流路。该热交换器包括如下区域，在该区域处，第一流路仅仅与第二流路和第三流路中的流体以较低流量流过的那一个流路相邻。

HEAT EXCHANGE DEVICE WITH A FLAT PRODUCT.

Dispositivo de intercambio de calor con un producto plano (1) que avanza ante dicho dispositivo (10), comprendiendo medios de puesta a presión gaseosa (16) de al menos un cajón (11), comprendiendo dicho cajón (11) en una cara delantera varias láminas (12) que forman conducto para la eyección del gas en dirección a una superficie del producto plano (1), estando superpuestas las láminas (12) unas a otras según la dirección de avance del producto plano (1) y constituyendo un orificio de salida (13) del gas que se extiende en el sentido de la anchura del producto plano (1), caracterizado porque la anchura de dicho cajón (11) en el sentido de la anchura del producto plano (1) es inferior a la anchura del orificio de salida (13) del gas que se extiende en la anchura del producto plano (1), permitiendo la anchura reducida del cajón (11) la evacuación del gas hacia atrás por una parte y por otra de dicho cajón (11).

Heat exchanger and method of performing chemical processes

A heat exchanger (1) including a passageway having an internal passage adapted to form a first flow path, and an array of conduits (3) having internal passages that collectively form a second flow path. The conduits (3) extending through the internal passage of the passageway, and a first conduit (3a) of the array is provided with a lower total heat exchange surface area per unit volume therein than a second conduit (3b) of the array. A method of performing chemical processes is provided that includes providing a catalyst bed (50) within the second flow path, and minimizing a temperature differential between a maximum temperature of a fluid in the second flow path and a minimum temperature of the fluid in the second flow path.

Process for transferring heat to a liquid mixture comprising at least one (meth)acrylic monomer

A process for transferring heat to a liquid mixture comprising at least one (meth)acrylic monomer in an indirect heat exchanger, wherein a quaternary ammonium salt, a tertiary amine or salt thereof with a Brønsted acid is added to the liquid mixture to reduce fouling.

Fin type heat exchanger for refrigerating cycle

본 발명은 냉동사이클용 핀형 열교환기에 관한 것으로, 그 목적은 냉매관 배열구조를 개선하여 공기의 흡입저항을 줄이며 열교환 효율을 보다 향상시킬 수 있도록 하는 것이다. The present invention relates to a fin heat exchanger for a refrigeration cycle, the object of which is to improve the refrigerant pipe arrangement structure to reduce the suction resistance of the air and to further improve the heat exchange efficiency. 본 발명에 따른 냉동사이클용 열교환기에 의하면, 냉매관(12)이 기류 유입측 열교환핀(11) 하부에 다단으로 배열되되 기류방향(화살표 F방향)에 대해 상하로 나란하게 배열된 직선배열부(12a)와, 기류 유출측 열교환핀(11) 상부에 다단으로 배열되되 상하로 엇갈리게 배열된 엇갈림배열부(12b)로 이루어짐으로써, 최대로 착상이 진행되어도 기류가 원활하게 유입되어 유량감소가 방지됨은 물론이고, 기류가 엇갈림배열부(12b)의 냉매관(12)에 고르게 부딪치면서 유출되어 열교환기의 전체적인 성능이 보다 향상되는 이점이 있다. According to the heat exchanger for a refrigeration cycle according to the present invention, the refrigerant pipe 12 is arranged in multiple stages under the airflow inlet side heat exchange fins 11 in a linear arrangement arranged side by side up and down with respect to the air flow direction (arrow F direction) ( 12a) and a staggered arrangement portion 12b arranged in multiple stages on the airflow outlet side heat exchange fin 11 and staggered up and down, so that airflow is smoothly introduced even when maximal progression is prevented to reduce the flow rate. Of course, the flow of air flows evenly hit the refrigerant pipe 12 of the staggered arrangement (12b) has the advantage that the overall performance of the heat exchanger is more improved.

HEAT EXCHANGER AND BLADE FOR THE EXCHANGER

The invention relates to a heat exchanger comprising a casing (2) inside which is housed, and fastened by brazing, a heat exchange assembly (3) comprising a stack of heat exchange plates, each plate (4) having at least one edge (14) for brazing to the casing (2). The heat exchanger is characterized by the fact that it includes means, called unfastening means (20, 21, 22, 23), designed to prevent the casing from being brazed to at least a portion of the edge (14) of at least one end plate (4E) of the stack (3). By virtue of the invention, the heat exchanger is more flexible and absorbs thermal stresses better.

HEAT EXCHANGE DEVICE WITH FLAT PRODUCT

Un dispositif d'échange de chaleur avec un produit plat défilant devant le dispositif comprend des moyens de mise sous pression gazeuse d'au moins un caisson (11), le caisson (11) comprenant sur une face avant plusieurs lames (12) formant conduit pour l'éjection du gaz en direction d'une surface du produit plat, les lames (12) étant superposées les unes aux autres suivant la direction de défilement du produit plat et constituant un orifice de sortie du gaz s'étendant dans la largeur du produit plat.Le caisson (11) a une largeur dans la largeur du produit plat, suffisante pour permettre l'évacuation du gaz de part et d'autre du caisson (11).Utilisation notamment pour refroidir un produit laminé en acier. A heat exchange device with a flat product moving past the device comprises gas pressurizing means of at least one box (11), the box (11) comprising on a front face several blades (12) forming a duct for the gas ejection towards a surface of the flat product, the blades (12) being superimposed on each other in the direction of travel of the flat product and constituting a gas outlet orifice extending in the width of the flat product.The box (11) has a width in the width of the flat product, sufficient to allow the evacuation of gas on both sides of the box (11) .Utilization particular for cooling a rolled steel product.

DUAL HEAT EXCHANGER HAVING A CONDENSER AND A RADIATOR

In a double heat exchanger with a condenser and a radiator, a flexible portion formed into a wave shape to be flexible is provided in a side plate at least at one side of connection portions of the side plate, connected to condenser header tanks and radiator header tanks. Further, a slit is provided to be recessed from one longitudinal end of the side plate to the flexible portion. Accordingly, a heat stress generated in condenser tubes and radiator tubes can be absorbed by the flexible portion even when a length of the slit is made shorter.

Mounting structure of radiator

본 발명은 차량의 진동 또는 냉각팬 구동시 발생되는 차체와 라디에이터 간의 진동을 절연시키는 라디에이터 마운팅 구조에 관한 것이다. 개시발명은, 라디에이터(100)의 상부 및 하부에 형성되는 고정핀(110)과, 차체에 설치되며 상기 고정핀(110)이 삽입 고정되는 마운팅 장치(200)를 포함하는 라디에이터 마운팅 구조에 있어서, 상기 마운팅 장치(200)가, 차체에 고정되며 내부에 공간이 형성된 브라켓(210); 상기 브라켓(210)의 내부공간에 복수개가 방사상으로 수평 설치되며, 서로 마주보는 단부 사이로 상기 고정핀(110)이 삽입 지지되는 지지부(220); 상기 브라켓(210)의 내부공간에 복수개가 방사상으로 수평 설치되어 상기 지지부(220)를 슬라이딩 가능하게 지지하는 가이드부(230)(231)(232)(233); 및 상기 브라켓(210)의 내측면에 수평 설치되어 상기 브라켓(210)에 대하여 상기 지지부(220)를 수평방향으로 탄성 지지하여 진동을 흡수하는 탄성부재(240)를 포함한다. 따라서, 차체의 진동 및 냉각팬의 작동에 의한 차체와 라디에이터 간의 진동 저감 효과 즉, 절연효과가 증대된다. BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radiator mounting structure for isolating vibrations between a vehicle body and a radiator generated when a vehicle is driven or a cooling fan is driven. The present invention discloses a radiator mounting structure including a fixing pin 110 formed on upper and lower portions of a radiator 100 and a mounting device 200 mounted on a vehicle body for fixing the fixing pin 110 therein, The mounting device 200 includes: a bracket 210 fixed to a vehicle body and having a space formed therein; A plurality of supports horizontally installed in the inner space of the bracket 210 in a radial direction and inserted and supported by the fixing pins 110 between opposite ends thereof; A plurality of guides 230, 231, 232, and 233 horizontally installed radially in the inner space of the bracket 210 to slidably support the support 220; And an elastic member 240 horizontally installed on the inner surface of the bracket 210 to elastically support the support portion 220 with respect to the bracket 210 to absorb vibration. Therefore, the vibration reduction effect between the vehicle body and the radiator due to the vibration of the vehicle body and the operation of the cooling fan, that is, the insulation effect is increased.

Manufacturing process of radiators for motor cars and other applications

Device for automobile radiator or other applications

Heat exchanger of the type with parallel flow, mounted on a vehicle

Heat exchanger mounted on a vehicle, including a plurality of tubes (14) which extend parallel to each other, an input distributor conduit (1) connected to the first ends of the respective tubes (14) and an output manifold conduit (1) connected to the other ends of the said respective tubes (14), so that parallel flows of coolant fluid are set up between the two conduits (1, 1). Each of the said conduits (1) is longitudinally divided into two elements, namely a tank (2) and an end plate (3) which both have walls forming an outward bulge, and the end plate (3) is solidly joined to the tank, the opposite side edges (2a) forming a joint for the tank bearing against the inner surfaces (3a) of the opposite side edges forming a joint and situated facing each other on the end plate.

Improvements made to the establishment of electrolytically obtained radiators

Advanced training in automobile cooling tanks

Heating and cooling system and its heat exchanger

一种加热和冷却系统，包括用于在加热模式和冷却模式下在制冷剂和空气之间传递热的热交换部分。该热交换部分包括至少两个制冷剂通道。制冷剂在加热模式和冷却模式下沿着相同的方向被循环通过制冷剂通道，从而使得在加热模式以及冷却模式下，制冷剂通道和空气之间的总体流动取向都是逆流取向。

Cooling radiator having liquid cooling

Heat exchanger

Thermal storage material container and heat exchanger

本发明提供一种蓄热材料容器。蓄冷材料容器(16)通过将两张铝板(19)的周缘部彼此钎焊而形成，并且在蓄热材料封入部(16a)内封入有积蓄冷能的蓄冷材料。蓄冷材料容器(16)具有封固部(25)，该封固部通过将形成在两张铝板(19)的周缘部上且用于将蓄冷材料注入蓄冷材料封入部(16a)内的蓄冷材料注入口封闭而设置。封固部(25)通过将蓄热材料注入口压溃而以在两铝板(19)上向外侧突出的方式设置，并具有相互紧密接触的两个外侧突出片(26)。两个外侧突出片(26)彼此通过厌气性粘接剂而粘接。通过厌气性粘接剂而粘接的两个外侧突出片(26)在铝板(19)的厚度方向上弯曲为截面V字状。

radiator and condenser assembly

Provided is a radiator and condenser assembly, and more particularly, a radiator and condenser assembly capable of forming a pair of protrusions for horizontally fixing the condenser at a lower portion of a header tank of the radiator and forming a fixed part in a ‘U’ shape for fixing the condenser in a front and back direction to directly fix a vapor-liquid separator of the condenser to the header tank of the radiator to remove a fixed bracket formed in the condenser, thereby saving component manufacturing costs and additional process and processing costs for forming the fixed bracket.

Compositions and methods for refrigeration

Thermal storage material container and heat exchanger

A cool storage material container is formed by brazing together peripheral edge portions of two aluminum plates. A cool storage material for storing cool is charged into a cool storage material accommodation space. The cool storage material container has a seal portion provided by closing a thermal storage material charging inlet which is formed at the peripheral edge portions of the two aluminum plates and is used to charge the cool storage material into the cool storage material accommodation space. The seal portion includes two outward protrusions which are formed by pressing and collapsing the thermal storage material charging inlet such that they project outward from the two aluminum plates and are brought into close contact with each other. The outward protrusions are bonded together by an anaerobic adhesive and are bent in the thickness direction of the aluminum plates such that their bent portions have a V-shaped cross section.

Test bench and method for testing fluid pumps and fluid injectors

用于检验流体喷射泵(8)和/或流体喷射器（10）的检验站（2），具有用于调理用于检验的检验流体的装置。该装置具有储罐（4），它构造用于容纳和储存检验流体；第一流体取出管道（6），它构造用于从储罐（4）取出检验流体并且输送到流体喷射泵（8）；冷却回路（12），它构造用于冷却储存在储罐（4）中的检验流体。冷却回路（12）具有第二流体取出管道（14）和回输管道（18）。流体取出管道（14）构造用于从储罐（4）取出检验流体并且与热交换器（16）连接，它构造用于冷却从储罐（4）取出的检验流体。回输管道（18）与热交换器（16）连接并且构造用于使来自热交换器（16）的检验流体导回到储罐（4）中。