PRESSURIZED COLUMN APPARATUS FOR ION RECOVERY AND METHOD FOR RECOVERING IONS USING SAME
The present invention refers to ion for the recovery of pressurized column device containing the same and relates to recovery method. Recovery ion aqueous solution more particularly ion is arranged at the edge of the device for the recovery of pressurized column containing the same and relates to recovery method. Recent mobile phone, notebook and electric vehicle field of industry due to developed by International for portable energy demand is becoming moved to a direction, which is. Such as energy source in particular, utilization of lithium secondary battery carried out at a selectively augmenting explosion. Korean industrial lithium secondary battery current, Japanese, which and being deployed about a China of a lithium secondary battery displayed a demang-based raw material core the lithium consumption also displayed objects' traces to. Lithium in addition a next-generation energy source to the expected fusion (thermonuclear fusion) for propagating a of tritium-generate power is used for, lithium on a database a further large.. On the other hand, about the seawater 10,000,000,000 5 transition 2 is dissolved lithium ion of a tone value X, it is assumed that lithium important which were beginning to hot up recognizing source. However the concentration thereof may seawater lithium ion are very low so in 0.17 mg per liter 1 regarding the lithium ions, when considered in the strength alloy, a corrosion-resistant which selective for recovering. the entire surface of the first substrate. For recovery lithium ion water from sea water the ion exchange adsorption method, solvent extraction, been this approach are method such as through the co-precipitation method, such attempt in ion exchange having and with very high manganese oxide having the same acid using adsorbent-based inorganic material which lithium ion recovery method is the most preferred method is one. The various manganese oxide-based inorganic material which adsorbent are developed of wet liquid to flow down. Manganese oxide-based inorganic adsorbent including a lithium ion, in the liquid lithium ion by ion exchange lithium ions of liquid said of lead ball and separates the lead, is adsorbed lithium ions after the inorganic adsorbent is a dilute hydrochloric acid and lithium ion, in an aqueous solution at through ion exchange enables recovery of lithium ion. Therefore, the manganese oxide based the inorganic adsorbent is used repeatedly by the method can prevent the/g.. After adsorption process adsorbent ion in the form of a powder is measures the number of powder, to overcome this the uses the one having adsorbent shaping method, support using method a of a substrate so as adsorbent and reservoirs types can. the applying. However, these conventional adsorption number of techniques, a method the so, the controller physical strength is lowered, by using the binder adsorbent adsorption of site blocking (blocking) decrease recovery phenomenon occurs to ., however, have the disadvantage that. Furthermore, support method using the amount of a sorbing agent which is apply [...] which compared to volume, reservoirs type in the case of low of water passage aqueous solution of aqueous solutions of adsorbent and a reactive operates a key or particular mode. Therefore, lithium resin such out by absorption of said adsorbent powder itself for the fitting of the scheme outweigh using is the regularized data in a database. On the other hand, ion absorption device of the existing method of ions by ion recovery process adsorption phase, ion elution and recovery step by chemical formula in which has undergone the ion adsorbent collector or, other device by wig is supposed to be moving the adsorption module to work of the fan to make ion/recovery step of subjecting the purified poses problems, such as a strong is interrupted to the efficiency for door is hingedly joined to the inside is necessary that. The present invention refers to ion adsorbent powder itself adsorption adsorption by molding using a molded body and efficiency in adsorption ion in the prior art is prevented from releasing with symmetrical force and reservoirs type of ion absorption type occurring in the under-in dependency low, improving responsiveness to adsorption of self powder adsorbent ion for the recovery of pressurized column device containing the same and method for providing recovery in. To achieve said purposes aqueous solution of a water-containing ion the present invention refers to a potential energy to a fuel tank pump; and internal in the space formed with a filter said filled space, said aqueous solution of adsorbing ions containing ion adsorbent made in the form of a powder having a column, said pump pressure of the valve body by the through hole toward a center axis of said column said hypochlorite aqueous solution which is prepared by ion recovery module to ion characterized by including provides for the recovery of pressurized column device. Wherein said ion recovery module has a plurality column said, plurality of said column disposed at parallel, each said pressurized columns said aqueous solution characterized in that is supplied to the first. Furthermore, said ion adsorbent may include a lithium manganese oxide. Furthermore, said column the suction hole is established near the stored leaching misfortune based compound further includes quantity of water in a water reservoir, a pump said in the blocked condition inflow with said aqueous solution is matched with the password stored in said low said leaching misfortune which is flowed to said column, said ion recovery module, which pass through the said leach liquor by said water reservoir to said again is recycled leaching misfortune characterized in that series of cells for the same selected. Furthermore, introducing a pump said aqueous solution said number 1 inlet channel; said water reservoir is connected to pump said leaching misfortune introducing said number 2 inlet channel; and said number 1 is connected passage inlet said number 2 path between the inner inlet, said number 2 inlet flow in said number 1 inlet path between the inner pump to said one of a switching is selectively in communication with can be further includes a valve. Furthermore, ion recovery module which is connected at the rear end of the drain valve; said drain valve is connected to one end, said ion recovery module, which pass through the aqueous solution is discharged continuously, includes a drain flow path; and Said drain valve is connected to one end of the water reservoir is connected to said said ion recovery module leaching misfortune a section through the further includes introducing a circulation and placed at the perimeter, said drainage path between the inner a drain valve said one of said a circulation flow path is selectively in communication with said ion recovery module allows the. Furthermore, said switch valve when communication path between the inner inlet said number 1 said said drainage path between the inner communication with a drain valve, said switch valve when communication path between the inner inlet said number 2 a drain valve said pipe is communicated with the circulation path between the inner said switching valve and said drain valve is can be to be interlocked. While, the present invention refers to a) ion containing by coating it with an aqueous solution, said ion recovery modulo that additional; b) said column the suction hole is established near the leaching misfortune based compound said ion recovery modulo that additional; and c) said containing ion the AC electrolysis, and recovering the ion from process for preparing infusion solutions of to including provides characterized by ion recovery method. Contained in aqueous solution the present invention refers to lithium of ions, such as which is excellent in adsorbing performance, adsorption balanced and are connected to and used synthesis the significantly smaller the amount of the aqueous high-ion very efficient manner.. Furthermore, the present invention refers to existing press device using ion elution, adsorption of ion from an aqueous solution, adsorption by making ion intermittently generated consistently recovery step enables a process that which has high operation efficiency and unit is off. Furthermore, the present invention refers to several columns that are mounted in the powder are parallelly arranged and carries a resistance of a column through column by dispersing control flow quantity and of the aqueous it is decided that the. Figure 1 shows a a preferred embodiment of the present invention also: an ion for the recovery of pressurized column is multiplex device. Also Figure 2 shows a device for the recovery of pressurized column ion of the present invention a ion recovery module and is surface to explain the column. Figure 3 the present invention according to ion for the recovery of pressurized column reaction time of device is by ion absorption by graph. Ion Figure 4 of the present invention for the recovery of pressurized column device lithium passed through the aqueous solution is of graph absorption by ion according to amount. Figure 5 reaction time according to ion of the present invention for the recovery of pressurized column device lithium passed through the is of graph is representative of an amount of aqueous solution. Hereinafter, a preferred embodiment of the present invention in reference to drawing with an thereby, the cold air flows rapidly and to reduce a memory.. First each of the drawings components references are added thereto in, a structure similar to that of the elements displayed on drawings sheet other although for even as possible has the same sign is to. to significantly different. Furthermore, the present subject matter of invention a microscopic wall of the rectangular the when a mobile station is determined to a dispensed the description. Furthermore, in a preferred embodiment of the present invention hereinafter it is describe an thereby, the cold air flows, limited to technical idea of the present invention is not limited or may be embodiment by one skilled in the art as well as is. Figure 1 shows a a preferred embodiment of the present invention also: an ion for the recovery of pressurized column and multiplex device, ion Figure 2 of the present invention a device for the recovery of pressurized column ion recovery module and is surface to explain the column. Hereinafter, also 1 and 2 a preferred embodiment of the present invention by reference to an ion for the recovery of pressurized column device (100) according to the described. A preferred embodiment of the present invention: an ion for the recovery of pressurized column device (100) the water reservoir (110), pump (120) and ion recovery module (130) includes. Water reservoir (110) an ionic recovery module (130) column (135) the suction hole is established near the based compound stores the leaching misfortune. Pump (120) a lithiated resin such pumps sea water or brackish water containing with an aqueous solution including a section (110) is pressurized leaching misfortune stored in the recovery module (130). through the first discharge port. Specifically, pump (120) pump comprising on the front end (120) are introduced into (104,106) for the conversion of a switching valve (102) is provided with a, switching valve (102) aqueous solution of a water-containing ion comprising on the front end pump (120) introducing a number 1 inlet channel (104) and a water reservoir (110) is connected to pump leaching misfortune (120) introducing a number 2 inlet channel (106) is connected. Switching valve (102) the number 1 inlet channel (104) and a number 2 inlet channel (106) one of pump (120) is selectively in communication with to. for the conversion of flow path to. I.e., switching valve (102) an ionic recovery module (130) seawater step of adsorbing with ions in ion conductivity with salt water or saline containing coating it with an aqueous solution, is supplied to the first inlet channel number 1 (104) is pump (120) is be in communication with. And, ion recovery module (130) ion is eluted and recovery of the suction hole is established near the installed at the upper part of the switching valve (102) the water reservoir (110) leaching misfortune entering stored in the number 2 inlet channel (106) is pump (120) and a plate to be put on the aqueous solution containing evacuated path from an ion source to shield the inlet, in this state leaching misfortune pump (120) by ion recovery module (130) to enter the a. Ion recovery module (130) opening-available (132), drain valve (133) and columns (135) comprises an ultra-. Available opening (132) include pump (120) and sodium hydroxide to the aqueous solution containing ion through is inlet leaching misfortune. Drain valve (133) an ionic recovery module (130) is connected to the rear end of and sodium hydroxide to the aqueous solution containing ion is discharge leaching misfortune. Such drain valve (133) at the rear end of one end drain valve (133) lixsiymzovnw multitude connected to recovery module (130) includes a drain discharge aqueous solution having a through the flow path (140) and a, one end of the drain valve (133) is connected to water reservoir (110) is connected to ion recovery module (130), which pass through the leaching misfortune water reservoir (110) a circulation flow path introducing a (142) comprises the rectangular plate like nut 3. The, drain valve (133) has drainage flow path (140) and a a circulation flow path (142) one of ion recovery module (130) consists of to is selectively in communication with to. The drain valve (133) the switching valve (102) is number 1 inlet channel (104) is removed, communication with containing drainage as it is aqueous solution having a flow path (140) and a plate to be put on the evacuated path from an ion source recovery module (130) through the aqueous solution having a outputs a relay driving signal. is discharged to the outside. Furthermore, switching valve (102) is number 2 inlet channel (106) and leaching misfortune as it is communicated with the drain valve (133) the a circulation flow path (142) to be in communication with, ion recovery module (130) through the AC electrolysis ions-containing leaching misfortune water reservoir (110) to enter the by so circulation leaching misfortune. The, switching valve (102), and a draining valve (133) evacuated path from an ion source to be interlocked each other of dissolution and by making ion intermittently generated adsorption an adsorption phase and a consistently recovery step it is preferable that the process. Ion recovery module (130) a column (135) therein includes a filter (137) and filter (137) the free space side beside of adsorbing ions containing aqueous solution, in powder form, of active ion adsorbent (138) made of a. The, ion adsorbent (138) has, in powder form, of active lithium manganese oxide is removed by reacting the sacrificial sea water or brackish water lithium from an aqueous solution containing lithium such as recovering the.. Column (135) can be has a plurality, plurality of column (135) is the harmonic frequency from the signal outputted from. Available opening (132) aqueous solution to apply data signals to the data in parallel each column (135) which is pressed implanted, and column (135) by placing in parallel implanted pressurized column for to an aqueous solution (135) to disperse resistance of can be created, column (135) through flow rate of aqueous solution is enabled of. A preferred embodiment of the present invention such as said: an ion for the recovery of pressurized column device (100) for the recovery of ions using first, pump (120) aqueous solution of a water-containing ions into a pressurized with a pressure roller ion recovery module (130) column (135). passing. The, ion the column contained in aqueous solution (135) as it passes through the cylinder, ion adsorbent (138) and adsorbed to. Furthermore, column (135) the suction hole is established near the based compound leaching misfortune ion recovery module (130) and through the first discharge port, the AC electrolysis process for preparing infusion solutions of ion containing retrieves the ion from. A preferred embodiment of the present invention and: an ion for the recovery of pressurized column device (100) a connecting structure of door stopper and recovery method the seawater of an ion with salt water or saline aqueous solution containing ion adsorption phase, ion elution step and adsorption by making ion intermittently generated recovery step that the cleaning unit consistently unit is off. Also the present invention according to Figure 3 shows a device for the recovery of pressurized column reaction time of ion by ion absorption by graph and, ion Figure 4 of the present invention for the recovery of pressurized column device according to ion absorption amount aqueous solution lithium passed through the is a graphical representation indicating a, 5 a reactant ion of the present invention over time for the recovery of pressurized column device lithium passed through the is of graph is representative of an amount of aqueous solution. Figure 5 of the present invention to 3 also the ion according to a preferred embodiment for the recovery of pressurized column device (100) recovery type ion reservoirs of the existing method and a device using lithium ion retrieving the experiments concerns a.. Specifically, until it reaches a balanced adsorption response time, each amount of an aqueous solution containing lithium passed through the device, said throughput of an aqueous solution containing electrode and a lithium reaction time represents the relationship of.. The, pressure of the device types of reservoirs 2-2.5kgf/cm2 been passing such solutions, ion of the present invention for the recovery of pressurized column device (100) the pressure of the air passage, and at least aqueous solution 2-2.5kgf/cm2 examples of the experiment number 1 5-6kgf/cm2 pressure of the air passage, and at least aqueous solution thereby, the cold air flows experiment number 2 shown. First, the same pressure conditions 2-2.5kgf/cm2 a to centrifugal separation device and ion types of reservoirs of the existing method of the present invention device (100) for the recovery of pressurized column li ion recovery efficiency by compared to, ion of the present invention and device types of reservoirs of the existing method for the recovery of pressurized column device (100) reaches balanced by adsorption is until the time when about 3000 minutes, the reaction times are both at similar up out (reference 3 also). However, ion of the present invention for the recovery of pressurized column device (100) through which the aqueous solution of about 5000 ℓ degree has reached a balanced adsorption when found, , until it reaches a balanced adsorption types of reservoirs of the existing method passed through the device the amount of an aqueous solution containing lithium beyond the 20000 ℓ the present invention is output from the speaker as sound more amount than gradient 4, was shown to be aqueous solution (reference 4 also). As viewed in this, ion of the present invention for the recovery of pressurized column device (100) device types of reservoirs of the existing method is compared to data structure for supply mother liquors adsorption a main body silica is again coated with titanate system. On the other hand, ion of the present invention for the recovery of pressurized column device (100) using surfaces of a contemplated experiment number 2, about, the time to reach the equilibrium adsorption 2000 minutes to faster contemplated experiment number 1 is shown to which has a adsorbing rate lithium ion, lithium ion reduced in adsorption of about 20 mg/g in the first deoxygenator experiment number 1 and received by using the about 13 mg/g (reference 3 also) but inferior to it in a color. Furthermore, the first deoxygenator experiment number 2 through device surfaces of a amount the aqueous solution, adsorption equilibrium to inside and outside the aqueous solution until about 1000 ℓ using device types of reservoirs of the existing method is shown to the first deoxygenator experiment number 1 and compared to amount of the aqueous using device has a remarkably low can be viewed (reference 4 also). As described above a preferred embodiment of the present invention: an ion for the recovery of pressurized column device (100) has an aqueous solution containing lithium of ions, such as which is excellent in adsorbing performance, adsorption balanced and are connected to and used synthesis the significantly smaller the amount of the aqueous high-ion very efficient manner.. Or more description techniques of the present invention describes illustratively event efficacy as an anti-to a modem, the present invention is in the field of the typically encountered in having knowledge of the current source from deviating from an essential element of the present invention grow within such a range that causes no various modification, change and substituted will capable. Thus the present invention to a disclosure of the present invention are in the embodiment and appends a drawing and to limit the slimly is supported by the upper case and for described, such a and appends in the embodiment of the present invention by drawing slimly range of limited not. By signals of the present invention scope of protection must be of subsequent analysis, and equivalent that lie within the ranges included within the scope rights of all technical idea of the present invention should be interpreted to will. 100: ion for the recovery of pressurized column device 102: switching valve 104: number 1 inlet channel 110 inlet channel 106: number 2 : water reservoir 120: pump 130 : ion recovery module 132:133 opening available: drain valve 135: column 137 : filter 138: ion adsorbent 140: drainage flow path 142 : a circulation flow path The present invention relates to a pressurized column apparatus for ion recovery and a method for recovering ions using the same. According to the present invention, the pressurized column apparatus for ion recovery comprises: a booster pump to press an aqueous solution containing ions; and an ion recovery module including a filter having an empty space inside and a column consisting of an ion adsorbent in the form of powder with which the empty space is filled, and to adsorb ions contained in the aqueous solution, and wherein the aqueous solution pressed by the booster pump flows in the column. The present invention has effects of having an excellent adsorption performance of ions such as lithium contained in an aqueous solution, having the short reaction time to reach adsorption equilibrium, and efficiently recovering ions as an amount of the used aqueous solution is small. COPYRIGHT KIPO 2015 Aqueous solution of a water-containing ion pump a potential energy to a fuel tank; internal in the space formed with a filter said filled space, said aqueous solution of adsorbing ions containing ion adsorbent made in the form of a powder having a column, said pump pressure of the valve body by the hypochlorite aqueous solution which is prepared by ion recovery module through hole toward a center axis of said column; said column the suction hole is established near the stored leaching misfortune based compound quantity of water in a water reservoir; introducing a pump said aqueous solution said number 1 inlet channel; said water reservoir is connected to pump said leaching misfortune introducing said number 2 inlet channel; and said number 1 is connected passage inlet said number 2 path between the inner inlet, said number 1 inlet path between the inner inlet flow in one of said number 2 is selectively in communication with said pump to a switching valve to, a pump said in the blocked condition inflow with said aqueous solution is matched with the password stored in said low said leaching misfortune which is flowed to said column, said ion recovery module, which pass through the said leach liquor again by said water reservoir to said series of cells for the same selected is recycled leaching misfortune characterized by ion for the recovery of pressurized column device. According to Claim 1, has a plurality column frequency module minute description ion said, plurality of said column disposed at parallel, each said pressurized columns said aqueous solution is supplied to the first ion characterized by device for the recovery of pressurized column. According to Claim 1, said ion adsorbent to characterized by including lithium manganese oxide for selective ion for the recovery of pressurized column device. Deleted Deleted According to Claim 1, which is connected at the rear end of the module recovery ion said drain valve; said drain valve is connected to one end, said ion recovery module, which pass through the aqueous solution is discharged continuously, includes a drain flow path; and said drain valve is connected to one end of the water reservoir is connected to said said ion recovery module leaching misfortune a section through the further includes introducing a circulation and placed at the perimeter, said drainage path between the inner a drain valve said one of said a circulation flow path is selectively in communication with said ion recovery module ion characterized by the device for the recovery of pressurized column. According to Claim 6, said switch valve when communication path between the inner inlet said number 1 said said drainage path between the inner communication with a drain valve, said switch valve when communication path between the inner inlet said number 2 a drain valve said pipe is communicated with the circulation path between the inner said switching valve and said drain valve is from interlocking with a rotating device characterized by ion for the recovery of pressurized column. Deleted
