유체 분석 및 모니터링을 위한 시스템, 장치 및 방법

Current fluid analysis system including oil and water analysis systems inefficient, incorrect, slow and/or maintenance cost higher. In particular, in current oil analysis system, oil analysis determined that 50% or more does not have sample read value can be returned and, extraction of a sample of oil contamination of the sample can be a result result is incorrect, 7 to 10 degree after analysis report is put around the drawn sample result in "old (stale)" is, minimizing the chance of the user trillion [chwi can be prophylactic, sampling method (sampling method) the plastic bottle and use of a sample of oil, storage and disposal can be requiring a negative influence and can affect the environment, can be delivered to the sample is generally laboratory, increasing costs and the delay time can be, respective oil sample analysis capabilities can be limited wear metal and viscosity measuring, complete analysis and reporting can be further results in exponential increases, results in additional cost with sample delay time can be pulling-out report receipt is, in most of the current system, storing and managing data collected from each analysis the user equipment used consistent with effective method or not, as well as the inherent deficiency have an opportunity to identify [...] in assays may not be disclosed.

Engine oil when engine oil analysis system are analyzed oil operation can lead to engine damage can include several constructs that are unique contaminants including complexity can be added. These contaminants are solid (carbon), liquid (water), and gas which, they cause a thermal cracking of engine oil, and as a result engine component wear and failure results in the internal combustion engine component for protecting a moving substrate. Combustion process from solid, liquid, and/or gas engine oil contaminants when changing the molecular structure of the photoresist layer is generated by the increase in the viscosity of oil 2n. thermal degradation thereof.

Similarly, some limit current water analysis system may have a substantially do not exist. These limitations recent (Flint, Michigan) crisis and new it comes the [cu which freezes in microscopic gun main flint block, such as water (water boil advisory) recommendation accomplished drug [...] repeat shown (and for the slow reaction) ms. from. In addition the rotting of well water to be tested in the presence of a private well if a neighborhood of the frontal faces of the since its very rare, contaminated water can be consumed situation made. In addition during storm rain wastewater treatment on behalf of the number supplied drinking water contamination causing door can be capable of.

Water, clean hot water because water in particular human survival of the most important resources is faster, more accurate, efficient embodiment number [...] water analysis systems is essential to the disclosed. For low water contaminated knowing which out brake (outbreak) has been consumed, methods, in order to prevent the bottles and mail very important disclosed. Most surrounding outlines an example of contaminants, microorganism, nitrate and arsenic flow tides. These contaminants which can lead to severe diseases, some circumstances collimates the light to death can result disclosed. An extremely safe, baby, in particular old immunodeficient and other contaminants by drinking water consumption according to those is having serious health influence vulnerable.

For example, bacteria, virus, and protozoal (e.g., [lam flagellum insect and creep toss gun d bud) and wide range of severe diseases can lead to drinking water contamination material that quickly. These microorganisms washed out by water or irrigation lake and mainly steel or non-human or animal waste can be transported to the shallow groundwater [...] originating from each other. As drinking water before the treatment (water system) is microbial contaminants from steel reservoir including the aqueous rare disclosed. However shallow log layers using chlorine to water (disinfection) aqueous generally first groundwater which, however contamination can be vulnerable logarithmic layer are disclosed. Aqueous total (total coliform) and colon bacillus coli (E. Coli), i.e., two types of presence of bacteria human or animal waste indicating the presence of a test as follows. When these bacteria found in a sample water, water suppliers enforcing further testing should immediately, contaminants cause processing program and, in some cases water treatment should increase. If a small door number becomes remarkable, all customer door number water suppliers in respect of which no drink tap water before boiling water (bottled water) should be inform.

Analysis of the fluid of the present invention in the embodiment generally, associated with the device and method, is limited to non-number in the embodiment example, embodiment is a system for online equipment fluid analysis and monitoring, device, and method relative to.

When the determination result of the present invention in the embodiment of user demand necessary at any number can be used to determine a location of fluid in state and/or attribute. In the embodiment includes a sampling system (sampling system) and a fluid analysis systems (analytical system) is coupled to said sampling analysis system including embodiment number [...] substrate. Fluid can be routed that penetrates a sampling system embodiment data is collected from said fluid can be. The sampling system can be first and second embodiment is processing data and analyzed. The analytical system comprises an embodiment receives data among the data database to store a database embodiment is compared to the existing data in fluids, said fluid state commands and can be configured to identify the system number.

At the moment when the operation of the present invention in the embodiment is a reduction in cost and service delivery, prophylactic maintenance program number [...] minimizing equipment down time, the flat equipment, used for generating a higher equipment used sales value, a negative effect on environment when compared to existing fluid analysis system can significantly reduce the latest cost-effective fluid monitoring solution into a number, clouds based data recording using online equipment fluid analysis and monitoring system embodiment is number [...] substrate.

The reference also 1, embodiment liver fluid analysis system (100) shown in the nanometer range. Fluid analysis system (100) sampling system (304)/attached to coolant system (302) having a seal (enclosure) (300) and said sampling system (304) coupled to the analysis system (400) can be comprising. Embodiment of data among the sampling system for collecting fluid from fluid (203) to fan out (as shown by arrow A) before fluid into fluid source (200) from me cooling system (302) is fed (as shown by the arrow A by) can be cooled. In the embodiment in an exemplary, embodiment is obtained through data spectroscopy (spectroscopy) of a fluid sample comprising "fingerprint" can be. However from the fluid sample can be different types of data among the other embodiment/information is obtained. Then sampling system (304) for processing the data among the example embodiment, uplink cellular, satellite, Wi-a Fi, automobiles and/or Ethernet (RJ-a 45) connected via a, WAN (Wide Area Network)/encrypted connection analysis system (400) can be transmitted. Analysis system (400) and/or external storage device can be located within the clouds. In exemplary in the embodiment, is easy (ship) or other external storage device can be located remote structure. E.g. user, the specification described any type of encrypted via a connection device (desktop computer, such as portable device) (HTTP/HTTPS) in web applications through analysis system (400) can be accesses and/or modify. The process is complete, fluid sampling system (304) from cooling system (304) as to get (represented by arrow B), finally fluid source (304) are return back to (as shown by the arrow B by). In another in the embodiment, if fluid needs to be cooling, liquid are source (200) in sampling system (304) can be directly target return.

Analysis system (400) receives fluid from embodiment of data among the database (402) to store, is embodiment database data (402) methods for data is compared with fluid in the fluid a system configured to identify the state of commands and the number (406) can be comprising. Reference can also 1. Specifically, a system command and number (406) is a sample of the fluid it will dance and receives the current number (neural network model) neural net model via a set of attributes and state prediction analysis processing of the fluid can be a hosted software system. The neural net model are analyzed can be any type of fluid can be configured three senses. The reference number it will dance and analyzing a sample fluid, processing network, and certain neural-net model statistical accuracy percentage can be depending on. In various in the embodiment, embodiment of data among the neural net model not corresponding to any one of the existing among a set of the user (through "training (training)") can be new or update existing neural net model establishes a neural net model. In the embodiment particularly in, then a system command and number (406) and/or new neural network model updated sampling system (304) including a fluid analysis system (100) can be arranged in the housing. In various in the embodiment, a system command and number (406) in addition the user/client security and associating can be configured to manage setting.

Database (402) is any type of external storage device or other clouds can be located. Database (402) different types of fluid (e.g., oil and water type) is and their associated with collecting and storing data among the embodiment can be used. Fluid non-number limited for example, industrial fluid or liquid, for example, cooling water, wastewater and the like thereof can. Oil is any type of oil, non-number limited for example, cemented carbide oil, e.g., state number fuel and gasoline, via, e.g., diesel, No. 2 Fuel oil, and rigid crude, heavy oil (medium oil), such as, most petroleum (most crude oil), and heavy oil (heavy oil), for example, heavy crude, No. 6 Fuel oil, and bunker C (Bunker C) flow tides. A sample of oil of different "state" number of limited for example, wear metal, added number, viscosity, water, TAN, TBN, and particle number 1. In exemplary in the embodiment, database (402) existing data among the different types of fluid molecules or configurations in the embodiment containing "fingerprint" information content can be.

In the embodiment in part, system (100) in the field of view for each site installation of base fluid sensor dash board in addition number ball 1308. These and to customize or approved user each dashboard can be changing. In the embodiment in an exemplary, dash board software update rate or data does not exceed 180 seconds when a change has been made can be [...] embodiment is monitoring and graphic update number. During persistent graphical representation including embodiment is observed data display can be updated. Automatically resizing all data screen and access function for accessing device can be used to meet the dashboard view area. In data acquisition and analysis of dashboard number limited for example, the following function disclosed: (sampling system (304) and analysis system (400) liver) analysis and comparison embodiment is update, predictive oil change comparative analysis, chronograph data, financial comparing data, a metal wear, be particles (particulate count), viscosity, TAN, TBN, nitrification reaction, acid reaction, foreign oil, solvent, glycol, soot, reduced number added utility gas and/or oil (Zn, Mo, Ph, Ca, Mg, Ba, Na), area plot (customer system (100) may be viewable by the layout of by a rather represents), mooring and notified that need.

In particular in the embodiment, seal (300) has a high durability be a digital still camera. For example, seal (300) through the screw and/or bolts e.g., minimize the noise vibration for rubber bush/can be mounted onto a flat surface using shock-absorption body. However seal (300) cooling system (302) and sampling system (304) for other suitable configuration both rigidly fixed to the can.

Of the present invention in the embodiment is "plug and play (plug and play)" can be designed using an event. Fluid analysis system (100) connector individual components of (306) and wiring harness (wiring harness) C through fluid analysis system (100) for the compressor and other components of the plugging/hereinafter can be snapped. Reference can also 1. For example, the cooling temperature of the droplet fluid system (302) sampling system (304) to be plugging or not. In exemplary in the embodiment, connector (306) of the fluid is cooling system (302) from sampling system (304) to be sent to a "snap" Eaton STC®abruptly turned-out connector (306) implementation being.

The reference 2 also, fluid analysis system (100) alternative in the embodiment 1 is also shown in fluid analysis system (100) substantially the same as the characteristics shown substrate. In the in the embodiment, cooling system (302) sampling system (304) having fluid analysis system (100) seal (300) are separated from and/can be air. Cooling system (302) includes a connector (306) and wiring harness C through seal (300)/sampling system (304) can be connected. Specific arrangement analysis system (100) the cooling system (300) to be disposed along the needs of the user or cooling system with excellent flexibility number [...] substrate. In exemplary in the embodiment, system (100) sent through cooling fluid required for cooling system (300) includes the seal (300)/sampling system (304) only can be connected. In the in the embodiment, sampling system (304) having a seal (300) 1 is also shown in cooling system (302) and sampling system (304) having both seal (300) can be smaller than in the embodiment of of case.

Figure 3 shows a cooling system also (302) is the schematic diagram of the exemplary in the embodiment. The specification as a, cooling system (302) may include cooling down when sampling system (304) coupled to an adjustable component or a separately plugging, sampling system (304) with seal (300) can be installed in pre -.

Cooling system (302) fluid source (200) fluid (e.g., oil, such as water) to be sampled from a number, cooling and filtering can be used. In exemplary in the embodiment, fluid engine (200) from cooling system (302) to pressure oil through source, e.g., engine (200) (as shown by arrow A) directed from can be oil. Fitting (fitting) (316) engine (200) oil line from the high-pressure line from cooling system (302) can be used to connected. In some in the embodiment, fitting (316) includes a connector (306), e.g., Eaton STC®"snap" connector (306) implementation being. In another in the embodiment, fitting (316) is ½ " FIP be a fitting. Cooling system (302) source valve manifold assembly (360) and C wiring harness connected to the valve (314) can be a. Valve (314) includes an oil cooling system (302) allowed number when a plower inner ear can be used. In some in the embodiment, valve (314) a unidirectional electrical chemical be a solenoid valve. In exemplary in the embodiment, valve (314) must be a number by the GemsTM Sensors & Controls AS series valve. Source manifold assembly (360) is GemsTM Sensors & Controls by number that should not be a manifold assembly. Valve (314) cooling system (302) and/or sampling system (304) through connection of the violations of the number located in number can be, number violations of the cooling system (302) according to allow oil into opening and closing with a second valve (314) can be sent.

In various in the embodiment, oil is first cooling system (302) is located outside filter connection (318) through the filter (320) 2. channeled into. Reference can also 3. Other in the embodiment in, filter (320) cooling system (302) can be located inside. Filter connection (318) and filter (320) is e.g., debris in the oil cooling system (302) enters a system (302) and finally sampling system (304) compromising diffusion layer can be used. Then oil is pressure sensor (308) having pressure reducer (regulator) valve sent disclosed. Pressure reducer valve (308) can input and one output is 2. Reference can also 3. In exemplary in the embodiment, pressure reducer valve (308) is be a back pressure regulator TescomTM number by loose BB-a 3 series stainless steel. In various in the embodiment, pressure reducer valve (308) engine (200) from a higher pressure (50 psi>) (fluid depending on the type) in avoid endangering 50psi can be reduce to approximately 1 under pressure. The level secure and easy to oil layer is formed, oil cooler/radiator (324) and can then be sent to a temperature sensor (310) and 2 - way solenoid valve (312) sent disclosed. In some in the embodiment, cooler (324) is radiating heat sink or fluid cooler system can be simple. In exemplary in the embodiment, cooler (324) is MishimotoTM be a number by which heat oil cooler MMOC provided 10 universal 10 - ball.

In exemplary in the embodiment, a temperature sensor (310) upon detection of the temperature of the oil as</=40 °C, valve (312) and switching oil cooling system (302) to the outside of the sampling system (304) channeled into the vehicle from the outside (as shown by arrow A). Reference can also 3. However temperature sensor (310) as > 40 °C upon detection of the temperature of the oil, oil reaches a desired temperature (e.g., 40 °C) until oil valve (312) via a reducer valve (308) and a cooler (324) can be sent back to. The temperature measurement are leveraged to the viscosity of oil since the pin is associated with. Based on the viscosity of lubricating oil having a dynamic viscosity or absolute (dynamic) viscosity can be measured. The dynamic viscosity of oil is provided to prevent flow and shear resistance to gravity at specific temperatures is defined. However simply speaking, viscosity is measured temperature viscosity of oil are not defined webcasted disclosed. In the case of most industrial oil, which is generally designated 40 °C in dynamic viscosity measurement, this ISO viscosity grade system (ISO 3448) basic because disclosed. In various in the embodiment, fan (370) cooling system (302) as needed (e.g., when the temperature of the oil > 40 °C) frame is covered with a impossible reason, based on the temperature air cooled oil cooler temperature of the droplet fluid and duplication can assist. Reference can also 3. Fan (370) sampling system (304) and/or cooling system (302) in number through the number anxiety can be disclosed.

The present invention is a cooling system wiring harness C specification (302) various connection sampling system (304) can be used to connected. Reference can also 3. Sampling system (304) by appropriately sampling the oil, oil sampling system (304) from cooling system (302) (represented by arrow B) be sent back. In order to return the, cooling system (302) can be opened thereby preventing any hearth kiln (322) by including, purification of air line oil sampling system (304) from cooling system (302) back to the mill or removed when any pressure no return velocity of oil can be increased. Then oil is the specification of oil in a cooling system (302) for input to 1. similarly fitting (316) - valve (314) - return valve manifold assembly (362) connected via a cooling system (302) or out and engine (200) be sent back. Reference can also 3. Return manifold assembly (362) is GemsTM Sensors & Controls number by which ball be a manifold assembly.

The reference also 4, 3 also shown in cooling system (302) substantially the same feature cooling system (302) in the embodiment alternative model substrate. In the in the embodiment, cooling system (302) for cooling and fluid sampling system (304) for directing a plurality of fluid source (200) having a connection to indicate that a substrate. In particular in the embodiment, fluid from only one source at a time cooling and sampling can be. In exemplary in the embodiment, cooling system (302) of the engine 2 (200) can be connected, wherein the fitting (316) and valve (314) is attached to the return inlet and outlet side each input / /, each independently number based on the sampled oil can be disclosed. As shown, 2 of engine (200) each connected valve (314) is one source manifold assembly (360) and a return manifold assembly (362) can be connected. Each valve (314) cooling system (302) and/or sampling system (304) can be located in a number through connection of the violations of the number, the number and/or engine for sampling violations of selected sample (200) according to, source and/or return manifold assembly (360, 362) on appropriate valve (314) further valve (314) to close the open signal can be received by a flow of the oil.

Figure 5 shows a 3 and 4 are also shown in cooling system (302) substantially the same feature cooling system (302) is the schematic diagram of an alternative in the embodiment. In the in the embodiment, cooling system (302) fluid source (200) pump connected (326) can be a, the fluid pressure is low or free. Pump (326) to these fluid cooling system (302) and finally sampling system (304) is channeled into the additional pressure/movement can be [...] number. In exemplary in the embodiment, oil is engine (200) pump from (326) and sent, then pump (326) is oil cooling system (302) pumped into (represented by arrow A). Oil is, as described in the specification, first filter connection (318)/oil filter (320), pressure reducer valve (308), cooler (324), temperature sensor (310), 2 - way solenoid valve (312), sampling system (304), and again cooling system (302) and engine (200) sent disclosed. Pump (326) is C wiring harness through sampling system (304) comprising the connection to a can. Fluid sample is requested the pump (326) cooling system (302) and/or sampling system (304) that are located within the connection can be initiated through violations of the number. In various in the embodiment, cooling system (302) and/or sampling system (304) in number [...] sampling is complete pump (326) putting out, then air valve (322) is opened according to a result, purification of air line oil cooling system (302) pushes or drawn back into return oil when any pressure no can be for various.

Figure 6 shows a also also 3, 4, and 5 shown in the cooling system (302) substantially the same feature cooling system (302) alternative schematic diagram of the in the embodiment are disclosed. In the in the embodiment, cooling system (302) having a fluid low pressure or without a plurality of fluid source (200) connected to the pump (326) can be a. As shown, source valve manifold (360) cooling system (302) which is located outside of, cooling system (302) on input line to dual valve (314) system can be prevent. In addition, cooling system (302) outside source valve manifold (360) by a number [...], cooling system (302) provided to make the input on redundant valve (314) system can be prevent. In addition, cooling system (302) on the outside of the source valve manifold (360) by a [...] number, a plurality of engine (200) from oil pump (326) before being sent to a single line sourcing, of the conveyor belt (326) in respect number can be a stand-alone. 6 Also can be reference. As shown, oil of engine 2 (200) from fitting (316) and source valve manifold (360) attached to the valve (314) sent disclosed. Each valve (314) cooling system (302) and/or sampling system (304) can be applied through connection of the violations of the number located in number, said number for the selected sample and/or engine sampling violations (200) according to, source and/or return manifold assembly (360, 362) on appropriate valve (314) further valve (314) to enable flow of oil while a closed state signal that can be open. Valve (314) polishing, oil pump (326) and sent, then cooling system (302) can be pumped to, e.g., the specification as a filter connector (318)/oil filter (320), pressure reducer valve (308), cooler (324), temperature sensor (310), 2 - way solenoid valve (312), sampling system (304), and again cooling system (302) and engine (200) 1308. pumped.

The reference also 7, sampling system (304) are shown. As shown, arrow A cooling system (302) and/or fluid source (200) represents fluid sent from a, arrow B sampling is then cooled system (302) and/or fluid source (200) fluid return back to exhibit, arrow C is sampling system (304) components are performed and sampling system (304) and cooling system (302) is exhibits a wiring harness connector.

Sampling system (304) includes at least one movable and replaceable sub - sampling system (330) can be comprising. In particular, sampling system (304) may for instance, a plurality of daisy - chain linked through wiring harness C sub - sampling system (330) can be of the "assembly line". In various in the embodiment, a plurality of sub - sampling system (330) can be stacked one above the other and each other, e.g., connector (306) connected with each other via a "snap". Reference can also 7. In particular in the embodiment, connector (306) of the fluid stream - sampling system (330) sent out of the Eaton STC®"snap" connector (306) implementation being. In the in the embodiment, each - sampling system (330) (upper) cancer input connector and a water input connector may have a (lower), the, - each sampling system (330) are successively laminated fluid and target can be satisfy the requirement. Sampling system (304) sub - used for sampling system (330) the desired fluid and constitute a kind of the target according to the counting identifying criterion s402.

In various in the embodiment, sampling system (304) input and output fitting (316), sensor/transducer input and output pressure reducer valve (308), input temperature sensor (310), at least one of granular (328), 2 - way solenoid valve (312), and at least one number violations (332) is further comprises connection can be. In particular, sampling system (304) violations of the at least one number (332) (e.g., for engagement through dovetail (dovetail)) from each - sampling system (330), at least one of granular (328), pressure sensor/transducer is pressure reducer valve (308), temperature sensor (310), 2 - way solenoid valve (312), and cooling system (302) to an external connector into ribbon connecting the plurality of wiring harness connector can be a C. For example, analysis system (400) is sampled fluid obtained from data base number by embodiment, violations of the number (332) is sampling system (304) and/or cooling system (302) to a number and analyzing system (400) can interact with.

Fluid sampling system (304) is sent, when the fluid pressure and/or temperature is too high or low, bypass valve (bypass valve) (312) is return line of coolant through the system (302) to bypass the fluid again can be. Pressure sensor/transducer (308) is located in the fluid return line/output pressure to input pressure and output pressure performs comparisons, identifying the presence of leakage sufficient to determine whether there is a substantially strong (drop) can be. This collection sample while sub - sampling system (330) can be made by sampling during uniform a pressure of fluid. Equalization after variation of pressure, i.e., strong stream - sampling system (330) in or output valve (308) can be converted in the presence of leakage. Output valves (308) is to determine whether a leakage, the user operating a solenoid current can be required monitoring. When driven by the solenoid valve will begin to fail, they are the same function (i.e., sticky valve (sticky valve), short (short) or the like) used to perform will draw more current. Solenoid valve memory device current monitoring sampling system (304)/fluid analysis system (100) can be another piece of self - diagnosis.

As shown, bypass valve when the fluid pressure and/or temperature level appropriate (312) includes at least one of granular (328) to bypass the fluid can be. At least one of granular (328) of the fluid viscosity and flow parameters can be used to measure. In exemplary in the embodiment, the granular Petroleum Analyzer Company, L. P. D/b/a PAC booked p be a number by which ball VISCOpro 2000 Process viscometer. The viscosity of a fluid is measured, at least a subset of - fluid sampling system (330) 2. channeled into. In exemplary in the embodiment, at least one of granular fluid (328) vertically stacked one another from 3 sub - sampling system (330) and sent, the, fluid each sub - sampling system (330) while in advance and calculation. Reference can also 7.

Sampling system (304) is wiring harness connector rods through violations of the number C (332) can be connected. Reference can also 7. In exemplary in the embodiment, violations of the number (332) cooling system (302), sub - sampling system (330), and/or cooling and sampling system (302, 304) contained in the dissimilar components connected to the custom shield with a ARM (Acorn RISC Machine/Advanced RISC Machine) can be based systems. In exemplary in the embodiment, violations of the number (332) (CAT5/6) is RJ45 Ethernet connection (334), antenna or antenna embodying portable connected for SMA (SubMiniature version A) (336), and power connector (338) can be a. Violations of the number (332) is e.g., USB, UDMI, automobiles and the like can be connected further comprises, mini - USB powered via an association thereof can. In exemplary in the embodiment, the violations of the number Raspberry Pi 3 Model B, Raspberry Pi Zero, or Raspberry Pi 1 Model A + implementation being. In another in the embodiment, violations of the number (332) is a number by which a plurality of pre-Mojo Board V3 - Embedded Micro shield with a FPGA (Field Programmable Gate Array) it became work ball number implementation being. Sampling system (304) and/or cooling system (302) violations of the number contained in the dissimilar components (332) connecting the shielding unit from being used (used for connection of a servo solenoid/valve) Servo Shield, Proto Shield (used for the chamber is stabilized (prototyping)), (configuration option for the output, input buttons, and switch used for normal traveling hereinafter) IO Shield, and/or Embedded Micro number by which ball (stacking shield used) can be stackable header. In some in the embodiment, violations of the number (332) is sampling system (304) seal (300) positioned in a sealing element separated from their, sampling system (304)/number of violations of the disaster in fluid leakage failure (332) can be protecting. In another in the embodiment, violations of the number (332) cooling system (302) contained within the casing may be filled.

In exemplary in the embodiment, violations of the number (332) is sampling system (304) is the analysis of fluids said fluids embodiment perform data analysis system (400) for aiding the transmission/receiving packetized of custom of its own can be software. In various in the embodiment, violations of the number (332) the software information, non-number limited for example, communication protocol, security setting, sampling system (304) conversation, cooling system (302)/number of violations of the law - number, system (100) temperature and pressure sensor, and spectroscopy based server - sampling system (330) triggers a system excitation in the manner and source and said detection method and apparatus connected a source reading can be determined way associated with information. The software is also 17 in the embodiment shown in exemplary sampling system (304) in the flow of related to the degree will thus described hereinafter. In some in the embodiment, sampling system (304) the software of the system to leakage and other possible door number (100) can be further monitoring.

In the embodiment particularly in, onboard sampling system (304) is on the minutes/specific instruction an instruction clouds in vitro assay systems (400) can the polling (poll). Sampling system (304) when arranged, of embedded software for custom login/password input or can be input by a user in advance - it comes with the board. Starting, login/password sampling system (304) ICs can be a configuration setting (configuration setting), established sampling system (304) from the input setting and onboard system (304) can be other information detected from its hardware can be. Exemplary setting be a sampled fluid sampling schedule and retention period. Sample data to store available onboard space number because it became grudge, onboard system (100)/sampling system (304) non-contact as a long period of time either remote zones/predicted the storage of the media and the fill its automated samples, whether to discard a sample can be. Clouds in vitro assay systems (400) has been established the connection to a, then onboard system (100)/sampling system (304) connected to the Internet from all automated registration number previously stored sample data can upload the disclosed.

The reference also 8, sub - sampling system (330) are shown in the, sub - sampling system (330) sampling system (304) sent through a sample of the fluid to form a fluid sample embodiment performing particular types of liver/"fingerprint" necessary to obtain information according to sampling system (304) can be removable and replaceable component/system to be a plugging. Sampling system (304) during assembly of a plurality of sub - sampling system (330) simply "plugging" together by a plurality of sub - sampling system (330) by combining, various other types of fluid sample can be analyzed, them of various other characteristics can be obtained.

In exemplary in the embodiment, fluid by electronic - optical assay (electro-a optical analysis) can be performed by performing accurate analysis and more precise data obtained from fluid sample are disclosed. Sub - sampling system (330) comprises a spectral scanner/spectrometer/custom electronic - optical system using any fluid, e.g., industrial oil and water molecules configuration and state and can be momentarily scan and consistent user. Various other types of fluid/material has its unique "fingerprint" for reading and analyzing optical system includes electronic - difference between these materials can be. In the embodiment in an exemplary, sub - sampling system (330) the pump (Raman) sub - sampling system (350), fluorescent sub - sampling system (352), absorbing sub - sampling system (354), Fourier transform IR absorbing sub - sampling system (356), absorbing and scattering sub - fluorescent - - sampling system (358) having at least one be a. Each type of electronic - optical assay based server - sampling system (33) by identifying different portions of the fluid, fluid analysis method can be a different number [...].

In the embodiment in an exemplary, sub - sampling system (330) plugging the fluid inputs and outputs connector (306) (i.e., a cancer-input be upper and a lower output) connection between, optical fiber probe (342) connected to continuous - flow (continuous non-flow) or pass - flow (flow provided through) electronic - optical sampling chamber (340), and probe (342) on excitation source/electromagnetic radiation source (344) both connected to each optical fiber cable (348) and detection systems (346) can be comprising. 8 Also can be reference. In particular in the embodiment, sampling chamber (340) is glass, quartz, borosilicate, or polystyrene can be chamber. Sub - sampling system (330) a number the specification violations (332) connected to wiring harness (shown by arrow C) and sub - sampling system (330) power component further comprises a power wire harness/power plug can be connected (as shown by arrow D). Wiring harness connector C micro number violations (332) in the specification and some in the embodiment be operably coupled to a fluid analysis system (100) for dovetail using various configurations of elements can be interconnected. In exemplary in the embodiment, power plug/D is connected seal (300)/sampling system (304) power distribution unit (PDU) of can be connected.

As shown, fluid valve (312) and/or at least one of granular (328) for analysis from sampling chamber (340) state change - sampling system (330) sent disclosed. In particular, violations of the number (332) is sampling system (304) and a fluid source (200) according to the distance between the particular time chamber (340) of the fluid through the sample in an, different sources (200) can be a stand-alone ensure clean number from previous fluid sample. Then go back number (332) is sampling system (304) and/or cooling system (302) of associated inputs and output valve (308, 314) to close, stopping the fluid flow can be. Then go back number (332) includes a probe (342), excitation source (344) and detection systems (346) connected between the first, fluids can be obtain/embodiment of data among the fingerprint information. In particular, violations of the number (332) herein is a source (344) triggering and detection system (346) of the resulting fluid from collecting samples by reading of data among the embodiment will begin to be. Sampling chamber (340) of a fluid sample in the fluid is arranged to apply the static attribute (still nature) in resolution optical spectroscopy can in addition. Appropriate sampling the fluid sample carried out with respect to the (data among the related embodiment is obtained), another fluid sub - sampling system (330) (represented by arrow B) and/or cooling system or sent back to the can be.

In exemplary in the embodiment, violations of the number (332) is in addition sampling system (304) based on learning feedback from, sampling chamber (340) by increasing or decreasing the distance to probe, probe (342) can be focus control. While maintaining control distance, violations of the number (332) continuously collection is requested, an excellent focus known matching interactions are stored may attempt disclosed. Known excellent focus system (100) prior to installation of the database (402) can be established over the fluid sample from an already stored on the server can be of particular interest. Focus correction (focus run) manually or automatically based on focus run samples during or reference standards can be publication. In various in the embodiment, probe (342) of the focal length is (micro number violations (332) through instructions from) the highest gain a resolution of a sample of the fluid can be adjusted during the setup. In particular, violations of the number (322) includes a probe (342) used to worm gear or a type of dynamic regulator/number of focus can be glide system using anxiety.

Excitation source (344) and detection systems (346) to perform fluid analysis can be effervescent couple. Detection system (346) specific excitation source (344) - for driving optical "eye (eye)" can be acts as a. Violations of the number (332) is preparing sampling as detection system (346) can be smaller than the reference value, then excitation source (344) to electromagnetic radiation and fluid samples "launch (fire)" to do allyl, then detection system (346) results of this "launch" can be registered. In exemplary in the embodiment, the "launch" currently used is required depending on the type of work in milliseconds to several excitation source and detection length may have. In particular in the embodiment, excitation source (344) the LED source (source specific color, monochrome, UV), IR/NIR (near infrared /) source and/or wavelength stabilized laser (excitation specific wavelength laser) implementation being. In various in the embodiment, detection system (344) is (direct data reporting a PdO spectrometer for filtering the) charge coupled device (CCD)- a type of, (a particular wavelength finding) set of photodiodes and/or spectral filter matching set filtering spectrometer connected to sources of heat from a number which is also coupled to the CCD spectral sensitivities that may be an ellipsometer disclosed.

In the embodiment in part, sub - sampling system (330) about 1 to 10 ml of a fluid sample that is analyzed is a sampling system (304) can be further configured to bypass the in recovery storage segment/container. By doing so, analysis system (400) itself and the operation of the equalization processor samples obtained accurately identifying if, gas chromatography/mass spectrometry (Gas Chromatography) fluid sample can be analyzed through (Mass Spectrometry) can be analyzed. In various in the embodiment, sub - sampling system (330) including fluid sample compartment/further processing and/or conveying the container number to an outward position and analyzed by wetting ability can be can be port.

The reference also 9, Raman (Raman) sub - sampling system (350) shown in the nanometer range. 9A also includes a Raman probe (342) internals shown substrate. Raman sub - sampling system (350) is also of substantially 8 specification described sub - sampling system (330) and active similar characteristics, probe (342), excitation source (344), and detection systems (346) kind of the altered.

Raman spectroscopy can be used for sample identification and quantification of the sample molecules to obtain information about the spectral technique for vibration are disclosed. The method further includes light source (e.g., laser) comprising detecting scatter light falling on the sample. Rayleigh (Rayleigh) known as the excitation source or an elastic scattering light scattered majority may have the same frequency. Scattered light incident electromagnetic wave and a very small amount of sample molecules vibrational energy level is a signal from energy transfer interaction can be described. The intensity of the light versus frequency by a Raman spectrum of the sample is "shifted" [...] ("Raman mobile (Raman shift)") is derived. Raman spectrum is generally Rayleigh band 0 cm^-1 So that the laser frequency encoded [...]. This scale, band position corresponding to frequency to be placed on different functional group vibration energy are disclosed.

In the embodiment in an exemplary, "fingerprint" of a fluid sample is special Raman probe (342) through using single frequency wavelength Raman sub - sampling system (350) is obtained from, molecular energy level change "scatter" be a capture. In exemplary in the embodiment, Raman sub - sampling system (350) specific Raman probe (342), stabilized wavelength laser (344), and Raman movement a desired wavelength target three and of the spectral filter (346) can be a set of. In various in the embodiment, chamber (340) is laser (344) on the basis of the value of the wavelength of power/flow - through quartz or glass can be continuous flow chamber. For example, laser (344) is when the UV range, chamber (340) can be the quartz chamber. In exemplary in the embodiment, laser (344) is be a 785 nm wavelength optic pumped Raman laser. In particular in the embodiment, Raman probe (342) is Ocean Optics, Inc General Purpose Raman Probe co number by which implementation being.

Also as shown in 9a, excitation source (electro-a magnetic source) (excitation fiber) into and EM herein fiber Raman probe (342) band - pass wavelength filter and the dichroic filter (dichroic filter) can be emitted through. The dichroic filter regions of the source and then reflected EM, mirror reflect from long wavelength pass through the wavelength filter (long a-pass wavelength filter) and collecting fiber (collection fiber), optical fiber cable (348) transmitted through photo diode (346) and collected on the substrate. Raman probe (342) of the excited sample can be used to measure a wavelength shift (Raman mobile). These Raman movement spectrum graph can be peak appears. Raman mobile includes the following formula can be wavelength multiplexed through:

Frequency - wavelength

Frequency - frequency

Frequency - electronic bolt

: Frequency (cm^-1 )

Λ: wavelength (micro m)

V: frequency (s^-1 )

C: speed of light (2. 99792458, 10⁸ M/s)

E: basic charge (1. 60217733, 10^-19 C)

H: [...] constant (6. 6260755, 10^-34 J, s)

E: energy (eV)

In exemplary in the embodiment, this "Raman mobile"/"fingerprint" of a fluid sample can be obtained by determining the value of.

10 Also reference surface, fluorescent sub - sampling system (352) are shown.

10A also includes fluorescent sub - sampling system (352) is exposed used in reflective probe (342) is shown as follows. Fluorescent sub - sampling system (352) in conjunction with the specification also 8 substantially a sub - sampling system (330) and similar features, probe (342), excitation source (344), and detection systems (346) been provided with a modified type of in particular.

Fluorescent spectroscopy based systems can be used to can be analyzing fluorescence from electromagnetic spectroscopy. These systems they excitation light into electrons in molecules of certain compounds, generally, visible light beam to emit light, generally, can be comprising using ultraviolet light. Generally fluorescent sub - sampling/detection system includes at least, excitation light source, fluorescent stage (after re-diverging optical excitation light can be chemical compounds were), excitation photon diverging from the photons with a wavelength filter for isolating, and divergence photon registering recordable output, usually requiring electrical signal can be generated as a detector.

"Fingerprint" of a fluid sample includes the following technique based on fluorescent sub - sampling system (352) can be obtained from: broadband light (i.e., light wavelength) using a second light emits a photon can be various energy to dissipate. When illuminating a sample of oil/fluid source, sample molecules while constituting so as to satisfy, where light photon penetration as follows. Sample each molecule has set its energy, the specific energy having the molecule is in the lower part, photon can be simply disappear. Light source transmitted by billions of photon among, disappearance part can be - in particular, with whip [ching to an energy having the vibration of the sample can be disappear from the field. After repeated collision of molecules of the sample photon penetration of the sample, the sample can be leaving some of the photon. The, these photon to these who should what "it be rude to" which is important, this sample coming from analyzing light color can be achieved. Wavelength light has been lost, more specifically, with respect to each other light wavelength can be attenuated.

These wavelength is matching and vibration energy of the sample, the sample transmission of absorbing/fluorescent "fingerprint"/constituting the substrate. In the embodiment of the present invention in the exemplary, through a "fingerprint" of the sample to obtain fluorescent spectroscopy, samples of broadband light source may illuminate a disclosed. Wavelength of light from a fluid sample is collected and then contents can be analyzed. After leaving samples collected the wavelengths of light transmitted by comparing the wavelength of emitted light initially sample, sample molecules can be contents are analyzed and determined.

In exemplary in the embodiment, fluorescent sub - sampling system (352) reflective probe (342), said probe (342) connected LED source (344), of a sample and fluorescence parameter, e.g., a particular light spectrum after excitation emission spectra used to measure the intensity and wavelength of the distribution said probe (342) detector connected (346) can be a, presence or absence of specific molecular a sample that these parameters can be used to identify and volume. In various in the embodiment, chamber (34) the quartz or polystyrene can be straight through flow cell/continuous-flow chamber. For example, source (344) when the low power consumption LED source, chamber (340) is polystyrene can be chamber. In exemplary in the embodiment, source (344) is reflected probe (342) can be connected to the 240 - 627 nm LED source. Alternatively, if necessary UV range wider light source source (344) can be used. In particular in the embodiment, reflection probe (342) is Ocean Optics, Inc. The number by bath can be premium - grade reflective probe. 10A also can be referencing. In various in the embodiment, detector (346) comprises a source (344) remaining filtering for detecting all wavelengths one from the excitation source can be the same special control voltage fluorescent may be an ellipsometer disclosed. In the embodiment in, detector (346) is a set of spectral filter or CCD photodiodes can be. In the embodiment which even, energy state transition, quenching or from absorption is placed on a the detection system (346) is converted to electrical signals by a number violations (332) are transmitted back to the "fingerprint" of the sample fluid can be identify information.

Figure 11 shows a sampling system also absorbing sub - (354) is the schematic diagram of the. 11A is also absorbing sub - sampling system (354) is exposed deep probe used in transmission shown substrate. Absorbing sub - sampling system (354) in conjunction with the specification also 8 substantially at a sub - sampling system (330) and similar features, probe (342), excitation source (344), and detection systems (346) type of been specifically modified.

Spectrometry (spectrophotometry) small size automatic background signal removal often encode specific absorbing spectroscopy at a wavelength absorbed by the sample measuring intensity based on integrity are disclosed. Ultraviolet (UV) and visible light (VIS) molecular absorption spectroscopy electromagnetic spectrum in gas, liquid, or solid through the radiation measured absorptive as relative. In a wavelength region can have typically used about 190 to 1000 nm, at room temperature absorbing medium can be disclosed.

In the embodiment of in the specification, obtaining a "fingerprint" of the sample absorbing spectroscopy through fluorescent spectroscopy to obtain a fingerprint of the sample through the specification comprising the same general method can be. In exemplary in the embodiment, samples first broadband light source may illuminate a disclosed. Wavelength of light can be collected sample then coming from content can be analyzed. After leaving the sample then initially transmitted wavelength of emitted light by comparing the wavelength of emitted light of the sample molecules collected sample contents can be determined and analyzed.

In exemplary in the embodiment, absorbing sub - sampling system (354) deep color probe (transmission dip probe) (342), said probe (342) near-infrared (NIR) connected to source (344), and sample and selects a source (344) (transmittance) output from the measuring probe (342) connected to the detector (346) can be comprising, the, input and output is a difference between the air-fuel ratio, i.e., "fingerprint" of the sample are disclosed. In various in the embodiment, chamber (340) through flow cell / - be a continuous flow chamber is quartz. In exemplary in the embodiment, source (344) is transmission dip probe (342) connected to be a 1000 - 5000 nm NIR source. Alternatively, if necessary wider source range UV source (344) can be used. In some in the embodiment, source (344) is infrared and/or visible light source can be a (generally 190 to 1000 nm). In particular in the embodiment, transmission dip probe (342) is Ocean Optics, Inc. Ball number by which transmission series can be TP300 - probe. Also 11a can be consulting. In various in the embodiment, detector used for detection (346) for final wavelength intensity in the spectral filter comprises a source is compared with set of CCD or photodiode can be.

Figure 12 shows a Fourier transform IR also absorbing sub - sampling system (356) is the schematic diagram of the. Fourier transform IR absorbing sub - sampling system is also 12a (356) Fourier transform infrared spectroscopy (FTIR) in schematic of among others. Fourier transform IR absorbing sub - sampling system (356) in conjunction with the specification also 8 substantially at a sub - sampling system (330) and active similar characteristics, probe (342), excitation source (344), and detection systems (346) been specifically type of change.

Fourier transform infrared spectroscopy (FTIR) solid, liquid, or gas absorption or of the divergence of infrared absorbing spectroscopy have used to determine the form of. Collecting the spectral resolution data with an FTIR spectrometer can be across a broad spectrum antimicrobial agent. In the embodiment of the present invention in exemplary, obtaining a "fingerprint" of the sample through the FTIR spectroscopy to obtain the fingerprint of the sample through specification over a general method can be the same. For example, infrared (IR) radiation through the first sampling the communication signal can be. Some of the IR can be absorbed by the sample can pass through some of these (transmission). A molecular absorption and transmission by specifying the final spectrum, "fingerprint" of the sample molecules can be made. ". ". "". "Fingerprint" can comprise proportion of frequency corresponding to the absorption peak of vibration having a predetermined wavelength. Respective different because a unique combination of material atoms, compounds capable of producing exactly the same IR spectrum and also any two, the substance through qualitative analysis identifying different types checked the relationship. The number chamber, the magnitude of the absorption peak in the spectra indicating the exact amount of is mixed therein.

In exemplary in the embodiment, Fourier transform IR absorbing sub - sampling system (356) the transmission dip probe (342), near-infrared (NIR) source (344), and detector (346) absorbing sub - including a sampling system (354) can be substantially the same features. However Fourier transform IR absorbing sub - sampling system (356) source (344) a probe (348) is the interferometer further, measuring wavelength range can be the entire sample at a time. 12 Also can be consulting. In various in the embodiment, chamber (340) through the quartz flow cell / - be a continuous flow chamber. In exemplary in the embodiment, source (344) is transmission dip probe (342) connected to implementation being 1000 - 5000 nm NIR. Source (344) is be a monochromatic source. Alternatively, NIR infrared spectrum in other source (344) can be used. In some in the embodiment, source (344) infrared and/or visible light includes a light source (usually 190 to lOOOnm) can be. In particular in the embodiment, transmission dip probe (342) is Ocean Optics, Inc. Ball number by which transmission series can be TP300 - probe. 11A can also reference.

In exemplary in the embodiment, as shown in 12a also, beam/infrared energy source (344) from diverge toward the interferometer can be. Then beam is entering the interferometer can be "spectrum encoding" can occur. Then exiting the chamber or final interference signal is interferometer (340) can be toward, wherein depending on the type of analysis resulting in a uniform, chamber (340) of a fluid sample can be in surface waves passing or reflect. This energy is taken up where certain inherent properties of sample are disclosed. Although not shown, then probe (342) is the final output from a sample collecting measurement data demodulation detector (346) can be delivered. A detector used (346) specially arranged to measure interference signal can be common. Then a digitized measured signal sampling system (304) can be modeled in number transmitted, this signal analysis system (400) can be transmitted, a Fourier transform in analysis system can be generated. Final IR spectrum (measurement of any sample beam no) by comparing the background spectrum, the spectrum features identifying sample alone can be present. In exemplary in the embodiment, analysis system (400) using a Fourier transform infrared calculation number violations (332) decodes the signal received from the "fingerprint" of a fluid sample can be obtain.

The reference also 13, fluorescent/absorbing/scattering sub - sampling system (358) are shown in the schematic diagram of the degree. Fluorescent/absorbing/scattering sub - sampling system (358) with respect to the specification also 8 substantially a sub - sampling system (330) and active similar characteristics, probe (342), excitation source (344), and detection systems (346) type of specific change is made that as well as probe (342) detection system (346) is further optical fiber cable (348) 330.

In particular, fluorescent/absorbing/scattering sub - sampling system (358) specification is also a fluorescent and absorbing sub - sampling system (352, 354) can be combining of both. In exemplary in the embodiment, fluorescent/absorbing/scattering sub - sampling system (358) is reflected and/or transmitted deep probe (342), probe (342) connected to a plurality of sources (344), and sample and selects a source (344) (transmittance) output from the measuring probe (342) connected to the detection system (346) can be comprising, wherein input and output is a difference between the air-fuel ratio, i.e., "fingerprint" of the sample are disclosed. In various in the embodiment, chamber (340) through the quartz flow cell / - be a continuous flow chamber. In exemplary in the embodiment, source (344) the optical fiber cable (348) reflected and/or transmitted through deep probe (342) is independently connected to a plurality includes a source of a can. For example, LED source and/or UV source reflected probe (342) can be connected to, 1000 - 5000 nm NIR source for preparing deep probe (342) can be connected. In particular in the embodiment, transmission dip probe (342) is Ocean Optics, Inc TP300 - series transmission probe number by which ball can be. 11A can also reference. In exemplary in the embodiment, reflection probe (342) is Ocean Optics, Inc - grade reflective probe number by premium it became work can be. 10A also can be referencing. In various in the embodiment, detection system (346) source (344) final wavelength compared to a number of specialized filter having CCD or photodiode can be set of. In exemplary in the embodiment, a plurality of sources (344) use of each cable (348) plurality of "eye (eye)", i.e., fingerprint data from a fluid sample used each type of spectroscopy systems for detection of detection system (346) photodiode has a set of different probe (342) is connected to optical fiber cable (348) can be requires. Excitation source (344) wavelength to produce the spectral filter cable (348) by applying or are not applied, additional optical fiber cable (348) is use, measurement of different types of fingerprint data can be disclosed.

The specification reference analysis of a particular oil even in the embodiment, the specification a, cooling system (302), sampling system (304), and/or analysis system (400) including a fluid analysis system (100) is other types of fluid, such as, analyzing the attributes of can be used. In exemplary in the embodiment, the specification a fluid analysis system (100) water analysis system (100) implementation being. Water analysis system (100) in the embodiment of in, water is water source (200), for example, reservoir (reservoir) from cooling system (302) to and/or sampling system (304) sent directly in, fluids can be obtain data is embodiment. For example, microorganisms of the present invention in the embodiment water, can be analyzed to determine the absence or presence of nitrate and arsenic.

In various in the embodiment, water analysis system (100) cooling system (302), sampling system (304), and/or analysis system (400) a specification to an oil analysis system (100) can be substantially the same features. However in some in the embodiment, water analysis system (100) cooling system (302) filter (320) thereof can not. Oil analysis system (100) segments, water sampling system (304) analyzed through temperature low enough when cooling system (302) water analysis system (100) can be used in 2000. In various in the embodiment, water analysis system (100) of sampling system (304) is viscometer (328) or not containing a thereof can.

Oil analysis system (100) and water analysis system (100) including a fluid analysis system (100) could be applied to 13/1/having the features shown in a particular configuration and the specification but also a, these systems/applications/features these specific configuration without limit other features/nickel-iron/applied different configurations of various types of analysis of fluids can be used to perform a suitable used.

The reference 14 also, nano-chip plug (nano chip plug) (1032) having fluid analysis system (1000) in the embodiment shown the schematic diagram of an alternative degree over. Fluid analysis system (1000) cancer pipe threaded inlet (1016) and outlet (1018) having a seal (1002) can be a. In exemplary in the embodiment, seal (1000) is 18in x 18in x 6in metal seal may be, inlet (1016) and outlet (1018) is be a ¼ inch inlet and outlet. In various in the embodiment, seal (1002) the mouth of the system (1000) without the need for shutting down seal (1002) and/or maintenance needs to be performed on the safety shut - off valve for design contained in (1020) can be a. In addition, oil analysis to establish a new reference oil change after the seal (1002)/(reset) of pulse generator engine for one on either side of reset switch (1014) can be a.

In addition the seal number the number of fluid analysis sensor maximum 36 [...] violations (1012) can be further comprises. Fluid analysis sensor seal (1002) can be mounted in. For example, seal (1002) comprises a plurality of types of oil analysis sensor, non-number limited for example can be the next having the attribute sensor: oil attribute monitoring capability, and/or certain wear metal (1022) identification, moisture level (1024), particles be (1026), viscosity (1028), TAN, TBN, nitrification reaction, acid reaction, foreign oil, solvent, glycol, soot, utility gas, and/or oil (Zn, Mo, Ph, Ca, Mg, Ba, Na) reduced number added. E.g. 14 also can be consulting. Sensor 5 years or more life number violations (1012) can be programmed to be seconds to 2 minutes to communicating data. In the embodiment in part, easy changing or replacement is needed when the knee is used ball number can be disclosed. Replaced by a sensor, with shut-off valve (1020) and uses (shut off), open the front cover panel, violations of the number (1012) sensor from separating, arm pin clutch from sensor are isolated each other. The stripped, replacing a new sensor in the same manner are attached to a material. Violations of the number (1012) is new sensor can be configured to start automatically recognizing and for collecting data.

In some in the embodiment, seal (1002) and attached equipment/engine oil out of the oil seal on the lower side (1002) by a number of equipment/engine electric pump into the can. Pump 120v, 240v, or 480v can be an electric pump. Seal (1002) can be embedded on an inlet pressure line further includes a pressure reducing valve. In exemplary in the embodiment, a pressure reducing valve oil seal (1002) before going back through equipment/engine oil pressure can be reduced in 50psi 5000psi.

In various in the embodiment, seal (1002) is can be 1 - micron oil filter. Oil is system (1000) of oil which flows in a specific sequence through verification and elongated lifetime can be ensure. In one in the embodiment, system (1000) can be composed of the following order: wear metal sensor (1022), a water sensor (1024), particles be sensor (1026), viscosity sensor (1028), oil parameter sensor, 1 - micron oil filter, particles be sensor, oil parameter sensor. 1 - Micron filter and the particles in the oil can vary the moisture content since this sequence includes equipment used in determining the oil purity can be important. System (1000) across the oil 1 - micron filter before wear metal, water, particles be, viscosity, and parameters be extrapolation it will do. 1 - Micron filter prior to reading of a system that can be calculating (1000) correct the ability of oil quality measurement and oil life prediction calculation can be enabling. 1 - Micron filter and may be positioned both on either side of these read value since, oil and equipment state a revised read can be made. 1 - Micron filter and the side of the drive, in this order reading can be to further enhance predictability of life of the oil and equipment status.

In exemplary in the embodiment, system (1000) includes the seal (1002) connected to node seal (1004) can be further comprises. 14 Also can be referencing. Node seal (1004) satellite, cellular telephone, or Wi-a Fi 12in x 12in x 6in weather for connecting antennas (weatherproof) be a seal. Node seal (1004) is one e-mail account can be up to 6 different entry of data tracking. Each data point has a node seal (1004) back to the hard wiring (hard wire) individual seal (1002) can be associated. 6 Hardwired of buffered seal in addition to, system (1000) maximum 36 with the other system (1000) for the other system (1000) (piggy back) with piggy backed and node seal (1004) 2. in sent back to at least one connection. The specific configuration of the network by (1000) includes a plurality of seal (1002)/system (1000) for only one communication node may have only, consumer benefits and great expense [...] number system (1000) of can install more and more clean. Node seal (1004) satellite/Wi-a Fi/cell base station antenna (1008) coupling and power port and/or Ethernet/HDMI port (1010) can be further comprises.

Node seal (1004) sensor input text message or e-mail notification that a significant ability to calculate and process for delivering custom programming and algorithm a stable node (1006) can be with. Programming and algorithm includes the following can be part for oil analysis including a read: specific wear metal, moisture, particles be, viscosity, TAN, TBN, nitrification reaction, acid reaction, foreign oil, solvent, glycol, soot, utility gas, and/or oil (Zn, Mo, Ph, Ca, Mg, Ba, Na) reduced number added. In addition custom programming is established by the user determined preferred or any user determined preference node (1006) is programmed onto NIST (National Institute of Standards and Technology) has not determined by the standard oil analysis takes place in a moment further transmitting user instant notification can be reached. Program and algorithm or a maintenance notification displayed user node (1006) may have embedded design of prediction capability.

In various in the embodiment, system (1000) of networking capability includes the seal (1002) together can be transgenic system (1000) to substantially limit the ability of can be free of disclosed. Networking the receiver opens comprises: (i) one node seal (1004) then go to maximum 36 of seal (1002) daisy chaining, or (ii) maximum 36 of seal (1002) node seal (1004) directly wiring. These plural seal (1002) node data seal (1004) data through, system (1000) number of data points is endlessly, through any Internet connected device 24x7 based on user can be accessible by one e-mail account can be combination. This displayed user interface equipment/engine monitoring and maintenance camera [...] number can impart disclosed.

In the embodiment of the present invention in exemplary, oil equipment of the present invention through the system, sent back to back equipment 2. Oil flowing through the system, wear metal, moisture, particles be, viscosity, TAN, TBN, nitrification reaction, acid reaction, foreign oil, solvent, glycol, soot, utility gas, and/or oil (Zn, Mo, Ph, Ca, Mg, Ba, Na) reduced number added, and/or oil temperature reporting may be tested and can be recording acquired a 2. In some in the embodiment, additional sensor radiating monitoring can be added. Each analysis data points specific to that particular sensor respective different measurements can be performed. The present invention is a seal specification data (1002) number embedded in law (1012) can be collected into be. Violations of the number (1012) has a node (1006) can transfer data. In exemplary in the embodiment, node (1006) is small Linux (Linux) based computer be a. Node (1006) is violations of the number (1012) to calculate and processing sensor input from the important custom algorithm can be programmed to deliver the notification. Then node (1006) through a use the best possible method of, for example, Ethernet cable, Wi-a Fi, mobile telephone signal, or can transmit data via satellite signal.

The data is transmitted, the data stored in the second user that the clouds this computer, tablet, or can be easily accessible from the telephone. Internet signal when playing, Internet signal until information recovered can be hard drive nodes 60 permit (1006) can be mounted. If registered Internet, node (1006) to all data clouds based reservoir can be costs to automatically. If there is important information collected from system, the user text message or e-mail to be notified. The user able to view all equipment and monitoring data points be custom designed dash board having logs its account. Custom dashboard and informing users can be determined to meet its individual request. Informing system algorithm from a particular data point can be for a program in the text message can be sent to the user via e-mail or e automatically. The web - based online dashboard may be any device having a connection to Internet can be accessed from the disclosed. The car dash board and can be folded automatically (collapse)/log when the computer by an authorized user's web browser without, tablet and/or mobile telephone screen for data stacked disclosed.

The system (1000) are installed parameter nodes (1006) if is programmed onto, a user of the local industrial body can be completely independent and band number. Customer any oil wrap (oil lab), oil (oil tech) technetium, mailing Company, and/or taking a sample of oil from a fully independent techniques related human errors or core during system processes there is a time delay data cannot swept's desire. In addition user requirement when extinguishing fires, it is additional data point node (1006) can be programmed into the. Customer may use a unique type of oil system (1000) on-board sensor sentences is found when reading the custom notification if desired, system (1000) can be custom programmed for this customer needs. This kind of custom programming be monitored is that require certain core element having greater customer number engine operation can be important.

In some in the embodiment, of the present invention system (1000) includes a plurality of equipment is embodiment can be use in performing oil analysis sampling. A plurality of equipment sampling a same type of oil to be packetized multi - bringing oil from a plurality of equipment to be made over the valve can be custom flow number. In the embodiment in, equipment one another system (1000) can be located near. In another in the embodiment, equipment one another system (1000) can be remotely located away from the /.

The present specification number multi - flow valve through a custom designed number 1308. the dashboard. Multi - flow valve can be configured as a manifold valve connected number - number. The valve comprises an inlet valve and/or outlet flow number multi - flow number number be a multi - flow valve. System (1000) is executed on a time specification oil through only one engine inlet valve seal (1002) flowing into an inlet flow number can be programmed to multi - comprising the valve. System (1000) is a drawn through outlet valves and engine oil the specification the same engine programmed to allow a return to multi - valve and outlet flow number back to back to the same equipment further comprises a return line can be. In exemplary in the embodiment, 2 to 5 minutes analysis the, inlet valve been switched off can be applied to, the, other valve system also includes a sampling sequence to enable the program to the next and thereby to improve a informed can be programmed to open. In the embodiment in part, system (1000) for cleaning the supply line the most favorite products and the opening of the valve and system (1000) between 60 to 180 seconds to begin read can be delay occurs. In the embodiment in another, different equipment sequence are performed each time a customer depending on the needs of equipment be into the sulfates, can be programmed.

In exemplary in the embodiment, system (1000) in respective different motor/equipment when performing a reading region, the individual custom designed system specification compared in a dashboard implementing algorithms, the comparison of analysis of various other equipment to which engine oil from most efficiently be operated whether special attention and which engine, modification and/or services can be configured to determine whether require. Detailed reporting customer by different equipment efficiently even number not known to exist when any door locate accurately the even number any door can be solve. In addition the report by either engine and which engine customer most efficiently whether to operate a float can be man decide for himself if necessary.

In particular in the embodiment, system (1000) nano-chip plug (1032) technique retrofitted to (retrofit), a fluid the specification as a plurality of sensors (1022, 1024, 1026, 1028) can be analysis of embodiment is suitable fluid is oil. 14 Also can be referencing. Figure 15 shows a or chemical chip plug (1032) of etched when internal component. Nano chip plug (1032) is spectral scanner/spectrometer (1034) molecular configuration and state using any industrial oil and consistent and momentarily scan can be notified to a user. The specification as described in the specification, there are different types of fluid/material has own unique "fingerprint" nano-chip plug (1032) for reading and analyzing the difference between these materials through spectroscopy of a piston of the "fingerprint" can be acquired. In the embodiment in an exemplary, nano-chip plug (1032) may have a size less than approximately 1 inch x 1 inch. In another in the embodiment, nano-chip plug (1032) is embodiment is for oil analysis of other differently sized and configuration may have. In different industries and applications of the present invention in the embodiment, non-number limited for example, oil and gas, marine, space, information, agricultural, water, waste water, lubricating oil, hydraulic, fish oil to, a plurality of various other options such as cooling water cover number [...] substrate. The specification is described in the embodiment of the system can be any type of industrial fluid handling.

In the embodiment in an exemplary, nano chip spectrometer (1034) integrates an oil plug, nano chip oil plug (1032) is oil analysis can be used for the embodiment. Reference example 15 also can be. Oil plug that is analyzed fluid be a plug of any access. In exemplary in the embodiment, engine/equipment in existing oil plug and nano chip number volatile oil plug (1032) on behalf of the engine/equipment can be installed on existing oil plug.

The specification of the present invention in the embodiment is a further database using a systems and the specification can be. In exemplary in the embodiment, the specific engine (e.g., diesel generator Caterpillar Cat®3516B) specific type of oil (e.g., Shell Rotella®15W-a 40) of the sample "fingerprint" in nano chip plug (1032) system with (1000) can be analyzed through the collected. Then a "fingerprint" information is the specification as node (1006) can be sent, then said node to any of the disclosed system specification information and through a system of the specification can be sent to a database. This information is then stored in database database specific type of oil and state, non-number limited for example, any oil that is analyzed to detect whether the presence of a metal wear existing can be compared to the information. In particular in the embodiment, node (1006) is clouds can be connected to the same type of oil database to existing information on-fingerprint information comparison analysis algorithm, a sample of oil specified accurate configuration can. By doing so, a plurality of state of detecting the presence of oil sample, non-number limited for example, detection of the presence of a metal wear as well as diagnosis of whether engine for any particular door number can be possible. In exemplary in the embodiment, existing data among the data comparison and analysis including current embodiment embodiment is only 30 seconds can be applied only to process 2. Then system (1000)/database comparison is requesting information conclusions from an assay can be a push. In in the embodiment, this information is e-mail, text message, web site software, and/or in any other available methods for communicating information via the can be sent to.

Sample scan existing database by comparing a new scan, system (1000) of a fluid sample can be momentarily [...] the state number. In some in the embodiment, they may scan by an additional sample type available by adding, system (1000) can be continuously grown, the accuracy of detection capabilities of the entire system can be increased. Database is Internet, mobile telephone signal, satellite connection, and/or an external source to other any available to be accessed via the connection be. In various in the embodiment, as a specification database comprises a basic neural networks can be grown through "training".

Figure 16 shows a specification therefore a nano chip plug (1032) having fluid analysis system (2000) alternative schematic diagram of the in the embodiment are disclosed. As shown, nano-chip plug (1032) having fluid analysis system (2000) installed engine oil pressure it will fold back can be configured to bypass the engine oil filler neck (oil filler neck). Bypass loop, oil is equipment fluid connection point can be programmed from the flow number Y valve (2002)/2. to flow through. Number flow valve (2002) open and closed oil system (2000) can be programmed to allow the exhaust gas flows through. Valve (2002) closed during the scans, oil is system (2000) in can be stationary. This option is not needed e.g. an 50psi oil at a stable flow can be can be more detailed while scanning a sample of oil. Scan is complete, valve (2002) can be opening the next sampling time of the oil system (2000) can be flowing through. In exemplary in the embodiment, 30 acquired a sampling point is the next can be generated. However the system (2000) thereby preventing any other when taking any sample can be configured.

Oil pump (2004) fed through, also not available any oil/fluid pressure when pressure can be [...] number. 16 Also can be reference. In various in the embodiment, oil is pressure reducing valve (2006), oil cooler (2008), and oil nano chip plug (1032) for sampling a sample of oil before the oil inside the push-button valve (2010) 2. the intended. System (2000) sent through oil cooler when the oil is too hot (2008) can be used in-line is. Nano chip plug (1032) from, 1 micron oil bypass oil filter (2014) sent to, in more specific analysis allows a sample of oil can be more extended through additional filtering engine oil life. In the embodiment in an exemplary, 1 micron bypass oil filter (2014) after another nano-chip plug (1032) can be added. 1 Micron oil filter (2014) pass line loop may be inline fluid/oil filter (2014) before and after passing through the scanhead by performing, perform well how filtering condition and angle (2014) determining whether inputted through a microphone and affecting how accurately a sample of oil/fluid can be. This additional nano chip plug (1032) has been added is, before and after it is inputted through a microphone and read value of the sample, data then can be used to extend the lifetime of the oil filter (2014) can affect the oil is measurable effect number [...] because specific configuration can be special disclosed. Alternatively, a legacy system in oil filter (2014) of embodiment shown measurable effect between the Serial numbers disclosed. Of fluidic return point Z to engine oil filler neck back during reversibly deformed, a sample of oil oil is another push-button valve (2010) can be passed through.

Fluid analysis system (2000) or and/or related data collecting samples from a fluid sample is added to the database can be used. Fluid analysis system (2000) transmitting data from the samples can be connected node, said node the specification for transferring data to a database as can be. The clouds or any known database can be located external device. In some in the embodiment, node itself can be embedded database.

Figure 17 shows a specification as a invention, sampling system (304) and/or cooling system (302) number of violations (332) in cooling system including related software (302) and sampling system (304) using fluid analysis system (100) flow are disclosed. The specification a device, system, and method using, 17 also in conjunction with a fluid analysis system (100), cooling system (302), and sampling system (304) is executed on a device specification, and various methods of in the embodiment can be achieved using system and method. As shown in fig. 17, fluid analysis system (100) comprising of the following steps can be.

In exemplary in the embodiment, sampling system (304) number of violations (332) is first software, excitation source (344) and/or the valve (312, 314) is operated in order to determine whether the cooling system (302) and sampling system (304) from executing any error conditions can be self - diagnostic checking. When a fault condition in the initial magnetic - diagnostic check is visible, violations of the number (332) to these error/fault and any associated fault code analysis system (400) can be wirelessly reports, excitation source (344) is turned off and all valve (312, 314) (where possible) is closed can be ensure. When initial magnetic - diagnostic checking any errors occurring state, sub - sampling system (330) is be powered up. In other words, with an error status, violations of the number (332) to these error/fault and any associated fault code analysis system (400) and wirelessly reports, excitation source (344) and turned off (when) all valve (312, 314) is closed is effectively sealed with each other. Sub - sampling system (330) is applied to a digital signal is not attached to any error conditions, violations of the number (332) cooling system (302) signaling the specification as a pressure reducer valve (308), the leucorrhea going, (324), temperature sensor (310), and 2 - way solenoid valve (312) associated with the operation of close temperature loop, fluidic return and fluid discharge valve (314) opens, cooler (324) and fan (fan) (370) capable of activating the cooling fluid.

When > 40 °C temperature, additional cooling oil for the specification as a back cooler (324) 2. sent back to. When<=40 °C temperature, bypass valve (312) opening the fluid sampling system (304) that penetrates a can. Sampling system (304) in, violations of the number (332) is used to calculate the entire cycle time length parameter can be starting a timer. In particular, a plurality of fluid source (200) are present and, one source (200) another source (200) when positioned away significantly from, sampling system (304) for long periods of time closer to the fluid sub - sampling system (330) is non-contaminated can be adjusted. If not a timer expires, violations of the number (332) is sampling system (304)// return line output of sensors located transducer (308) using, input pressure and output pressure is by pressure comparisons, identifying the presence of determining whether there is a sufficient leakage can be strong. If so, identifying the presence of leakage when, violations of the number (332) no fault and any associated fault code analysis system (400) wherein the source wirelessly reports (344) and turned off (when) all valve (312, 314) is closed can be ensure.

Difference between input pressure and output pressure without significant violations of the number (322) and when a timer expires, violations of the number (332) is supplied to all valve (312, 314) are closed to a, interruption of the movement of the instant specification as a fluid sampling system (304) can start sampling of fluid. In various in the embodiment, then sampling system (304) fluid sample acquisition start, viscometer (328) of a fluid viscosity measurements and/or temperature sensor achieved using (310) using the specification described in the specification can be measuring the temperature of the fluid. In exemplary in the embodiment, then sampling system (304) each sample types of 13 to 20 the number of violations of the sample data sets them is sampled (332) can be transmitted, said number violations (332) is requested data set analysis system (400) to be number at a correct time.

In various in the embodiment, violations of the number (332) cooling system (302) can be terminating cycles of that signal to them. For example, cooler (324) specification as the present invention is when it reaches a temperature ambient air fan (370) can be terminated. Sampling system (304) to the fluid by the sampled properly, fluid sampling system (304) cooling systems in (302) sent disclosed. In order to return the, violations of the number (332) cooling system (302) in return air valve (322) to open allowing air purification line according to need, fluid sampling system (304) cooling systems in any desired contents for gravity drainage/push back pressure when no return for various fluid can be. Then go back number (332) comprises a basic specification can determine whether a timer expires. When expires, violations of the number (332) is air valve (322) from the subset and closing - sampling system (330) and/or sampling system (304) can be put out.

Figure 18 shows a command and also a system number (406) and database (402) including a analysis system (400) flow are disclosed. 18 Also a analysis system (400), a system command and number (406), and/or database (402) specification the present invention is a device, system and method and various methods of in the embodiment can be achieved using.

The specification as described in the specification, a system command and number (406) it will dance and receive the set of sample data for analysis and predictably neural net model number are connected via a set of processes it can be be a hosted software system. The neural net model are analyzed fluid can be configured to any type of target separation. The reference number it will dance and analyzing a sample fluid, processing network, and can be a statistical accuracy percentage depending on the particular network model.

Spectrum spectral wave output from a fluid sample as known. This signature as x (for generally wavelengths or Raman movement) and Y (wavelength point generally in the field of intensity values) can be visualized as a set of. Data then (point) graph of analysis system (400) can be uploaded, wherein this is a, are evaluated, neural network model for accurate identification and system prediction 1308. ball number. Together with the context of any sample spectrum, criteria are established for specific neural networks to be known prior to receiving a fluid sample should sample is obtained. Next neural network of layer 3, i.e., input layer, a hidden layer and an output layer can be composed, each layer comprising at least one node, wherein the information signals are transmitted through the links between nodes.

When the kind of the sample cannot be identified, neural network "training", i.e., auxiliary and the resultant neural-net model with a synthesized resin sample to aid in the identification of sample/sub - sampling system (330) associated with known type of input parameters can be requires. The neural net model exhibits its network knowledge. The specification as a, part of the data set from the neural net model can be made. When the sample base number, identifying a particular neural collected sample parameters be used for identification can be required. For example, parameter, non-number limited for example, sub - sampling system used (330) type of, wavelength of electromagnetic radiation (or monochrome (monochromatic) when), viscosity, temperature, and pressure by the set of, the specification a fluid analysis system (100, 1000, 2000) for forming a network nerve can be. These parameters may include a network and can be later model is composed on the. Y x ppm of known prior determined parameters associated with having data set, i.e., a frequency spectrum of a sample fluid (e.g., hundred type (clean oil)) network can enable the generation of "training" and models. In parallel with the neural network training known (excellent) timing data, identifying unknown sample accuracy and canceling increases the pressure in the other. In the embodiment in an exemplary, require the use of a neural net model can utilize more than one among computing resources. For this purpose, among the clouds in the model of in vitro assay systems (400) can be generated, if the onboard analysis model sampling system (304) can be pushed.

In exemplary in the embodiment, e.g. user, the specification a device via a web application in any type of encrypted connection through (HTTP/HTTPS), analysis system (400) can be accesses and/or modify. In exemplary in the embodiment, the user database (402) and a log-in process, and play and based on the security rights, available sampling system (304) of dash board, message (sample based on predictive analysis message), error message, and/or can be the training request message. In various in the embodiment, the user specific sampling system (304) select, sampling system (304) which interact with, sampling system (304) to obtain a fluid sample analysis which may then request, system (304) constituting the (i.e., automated sampling time and establishes), system (304) on embodiment is from parameters (e.g., temperature, sample collection last time, pressure, fluid temperature and the like) can be analyzing. In some in the embodiment, a client user new sampling system (330) or adding and/or existing sampling system (330) - a rights deprived (de-a authorize) or shutdown (shutdown) can. In addition the user, if available, sampling system (304) and/or cooling system (302) and software update publication, neural network analysis and observations and related network statistics, excellent in addition a plurality of known sample, the percentage of successful identification, view or threshold accuracy, and/or diagnosis be retraining or model.

The reference also 18 again, analysis system (400) comprising of the following steps can be. Analysis system (400) number of command and a system (406) violations of a first number (332) through which a fluid can be parsed from the number it will dance and receives a set of sample data. 17 Also can be reference. Them a set of data is received, a system command and number (406) associated with a first sample client/system information and sampling system (304) can be interlocked configuration. Client/system information and sampling system (304) in the absence of a surface of the sample data set number configuration it will dance and ICs, system (400) is "error log (log error)" command and number 06 can be a system (406) is database (402) via a dialogue web application by the user to indicate error log, it is user causes appropriate corrective can be created. When finished, a system command and number (406) client/system/sampling system (304) configuration data sets based on engine model number as blend sample to be. In exemplary in the embodiment, a system command and number (406) the sample data set according to the present invention the database (402) can be stored.

A system command and then number (406) is setting up a particular model number/system can be verifying running queue (submission queue) is available. For example, one type of oil viscosity and light with a wavelength of 785 nm X sample Raman sub - sampling system (350) when used to perform the analysis of oil, a system command and number (406) is database (402) and an accurate parameter search using matching model and model, determining the identity of the sample oil can be.

Number when running queue not available, system (400) is "error log" command and number 06 can be a system (406) is database (402) via a dialogue web application by the user to indicate error log, it is user causes appropriate corrective can be created. Number running queue if available, a system command and number (406) into data be each neural network model number at a correct time. Each data set can be based on processing results then the neural net model, this result may command and a system number (406) database by (402) can be sent. Each dataset neural network model number associated with the storage capacity of each memory any door with an even number, system (400) allows the user to "log error" can be searched.

To the neural net model the fluid by processed assay results, a system command and number (406) these results sampling system (330) sample/type specific to the user notifications whether specified analysis threshold can be met. If so, a system command and number (406) is castellated lateral neural net model number set of data can be finished in the disclosed.

A system command and then number (406) can be requires determining whether multiple "training". When the reservoir is not required, a system command and number (406) is castellated lateral neural net model number set of data can be finished in the disclosed. However system does not require training, a system command and number (406) allows the user to appropriate training it necessary that notification can. In exemplary in the embodiment, the user training is requested (through web application) each samples a system specific training input command and number (406) can be supplied. A system command and number (406) neural network model updater/or re-using these training input, fluid sample data set with new data can be acquired from a variety of new neural network model. A system command and then number (406) is database (402) store or updated/new model, and/or updated/new model again sampling system (304) can be arranged. In various in the embodiment, the user database through web application (402) in the existing and updated neural-net model, and related data can access the disclosed.

In the embodiment of the fluid analysis method for performing a number [...] substrate. The method cooling system (302), sampling system (304), and command and a system number (406) and database (402) including a analysis system (400) including the specification to a fluid analysis system (100) can be using the. In exemplary in the embodiment, movable and replaceable sampling system method (304) fluids through the sending, sampling system (304) comprising collecting data among the fluids through the embodiment from, and sampling system (304) coupled to the analysis system (400) is processing data and transmitting the embodiment comprising the following steps. The sampling system said method (304) sent through in order to cool the fluid prior movable and replace type cooling system (302) sending fluids through the can. In exemplary in the embodiment, method a system command and number (406) database for analysis and prediction data among the embodiment through receiving (402) via a set of methods for and receiving fluid in a neural net model can be. Said method embodiment is any of the set of existing data among the neural net model do not correspond to the existing or new neural network model to update the neural net model when the can. Said method or updated new neural network model sampling system (304) can be further comprises overlapping with each other.

The fluid analysis of the present invention in the embodiment requires several chamber number and industrial applications, non-number limited for example, land and marine oil and gas excavator, oil and gas pipeline, oil processing and chemical, marine vessel, interleaver work boat, trucks, any large commercial engine, and illustrated water quality, water quality appendage (well, rainwater, log layer, water), engine oil, hydraulic, oil, cooling water, (system and a station in) fuel, a zero oxygen factory milk, beer [...] (kegging)/zero oxygen factory, industrial water, transport crude, and/or urine can be used in analysis of associated with.

The embodiment of the present invention in the embodiment is more accurate application data, generate [...] according to increase of number of clouds in history used value, better accuracy and consistent degree of through measurements of the oil analysis, all of the core system for reduction of the cost of strategy, manpower reduction of current demand, risk - based cost reduction and root cause failure prevention through continuous monitoring number ball, during exposure to operator safety and health risks to minimize sampling, reduced risk of HDD during sampling, and the reduction of H&S door number, in particular, "food safety -" oil industry, in the disposal of sample and reagents/number of deck decreasing the wetting ability, according to NIST standard clean oil can remain and is indicated by an optimal maintenance information for maximization of extending drain intervals, extending oil drain interval, solid oil, liquid, and/or gas of reduction of contaminants, engine and equipment life increased, and operation of which a number can be [...].

In the embodiment are described with reference to various embodiments and utilizing embodiments but, these in the embodiment which is example, not limited to the range of the present invention. Various variation, modification, additional, and improving process from. In addition, the specification can be performed in any step described in any desired order, or a number surfaces can be any desired step.