TH51160B - Systems and methods for effective air dehumidification and fluid recovery through evaporative cooling. - Google Patents

Abstract

DC60 (17/07/56) This invention deals with systems and methods for removing moisture from the air. By providing a humidity difference in one or more dehumidification units. Water vapor from the relatively humid atmospheric air entering the dehumidification unit is extracted by The dehumidification unit almost does not condense into the vacuum volume of low pressure steam. For example, in one way, the steam is extracted through the unit's vapor permeable membrane. Removes moisture entering the vacuum volume of low pressure steam. In such a manner, the air leaving The dehumidification unit has less moisture than the air entering the dehumidification unit. low pressure steam The extracted air is compressed to a slightly higher pressure, then condensed and removed from the system. at the condition of the environment In addition, each dehumidification unit may also be associated with One or more evaporative cooling units where the air will be controlled to flow The evaporative refrigeration unit is the upstream and/or downstream side of the dehumidification unit. In one way, the dehumidification unit acts to reduce the humidity and temperature ratio until the condition. the final required by the cycle method of the ideal humidity ratio vs. temperature curve. This invention deals with systems and methods for removing moisture from the air. By providing a humidity difference in one or more dehumidification units. Water vapor from the relatively humid atmospheric air entering the dehumidification unit is extracted by The dehumidification unit almost does not condense into the vacuum volume of low pressure steam. For example, in one way, the steam is extracted through the unit's vapor permeable membrane. Removes moisture into the vacuum volume of low pressure steam. In such a manner, the air leaving The air dehumidification unit is less humid than the air entering the dehumidification unit. low pressure steam The extracted air is compressed to a slightly higher pressure, then condensed and removed from the system. at the condition of the environment In addition, the dehumidification unit Each unit may also be related to One or more evaporative cooling units where the air will be controlled to flow The evaporative refrigeration unit is the upstream and/or downstream side of the dehumidification unit. In one way, the dehumidification unit acts to reduce the humidity and temperature ratio until the condition. The final required by the loop method of the ideal humidity ratio vs. temperature curve.

Claims (1)

Claims (all) which will not appear on the advertisement page :Edit 17/07/2015 1. Moisture removal system. (dehumidification system) for removing water vapor from the air stream. It includes: the first and the second compartment separated by a membrane. is structured to help remove water vapor from air streams flowing through the first chamber by aiding in the passage of H2O from the steam to the second chamber through the membrane permeable region. while blocking other components All of the air currents do not allow significant flow through the membrane; evaporative cooling unit, the first unit that is structured to cool the air stream at the end of the membrane; A second evaporative refrigeration unit structured to cool the current. air on the upstream side of the membrane; The pressure booster is structured to generate the sub-pressure of the steam within the second chamber. lower than the first compartment in such a way that H2O moves through the membrane to the second compartment. by the device The pressure booster is also structured to increase the pressure of the steam at the outlet of the booster until The sub-pressure of steam in the appropriate range for the subsequent condensation, and the controller, which consists of a microprocessor that is structured to Control the operation of this dehumidification system. 2. System according to Claim 1, where the operating system consists of operating refrigeration by first evaporation obtained from the refrigeration unit. By evaporating the first unit, perform dehumidification operations at One is obtained from the pressure boosting device and the second evaporative cooling operation is obtained from the second evaporative refrigeration unit. During the operation 3. The system according to Claim 2, where the control device is structured to control the operation. of this dehumidification system to obtain the results of temperature control according to the psychometric diagram. (psychrometric chart) of the dehumidification system Structure to receive steam from the pressure booster and condense the steam to liquid state water. Transports liquid water from the condensing device. 6. System according to claim 1, where the membrane is composed of zeolite. 7. System, which includes: Dehumidification unit for removing H2O vapor from the stream. Air, which includes: an air chamber structured to accept incoming and discharge air streams: and a H2O permeable material adjacent to the air chamber. where the H2O material is permeable It is structured so that H2O can be selected from the H2O vapor in the incoming air stream to pass through the material, where the H2O is permeable to the suction side of the H2O permeable material. and blocking other components in the significant incoming air stream from flowing through the H2O-permeable material to the suction side of the H2O permeable material; Evaporative refrigeration units are structured to cool the air stream; pressure booster that is structured to create the H2O vapor sub-pressure on the suction side of the H2O vapor permeable material below the H2O vapor sub-pressure in the incoming air stream. To drive the flow of H2O out of the H2O vapor in the incoming air stream to penetrate through the H2O-permeable material. and to increase the pressure at the outlet of the booster to the H2O vapor sub-pressure suitable for condensing H2O vapor to liquid H2O; and a control device which consists of a microprocessor that is structured to control The first operation of the dehumidification unit 8. The system according to claim 7, which consists of refrigeration unit by evaporating the unit Two are mounted on the upstream side of the dehumidification unit. 9. The system according to claim 7, where the control equipment is structured to control operating at Two of the evaporative refrigeration units 1 0. The system according to Claim 7, which consists of a condensing device, is supplied. Structure to receive H2O vapor from the outlet of the pressure booster. and to condense H2O vapor to liquid H2O. 11. System according to Claim 10, which consists of a liquid pump structured to transport liquid H2O from a condensation device. where H2O is permeable consists of membrane that H2O is permeable 13. System according to claim 7 where H2O permeable material is composed of zeolite The dehumidification unit is a variable speed dehumidification unit and a refrigeration unit. by evaporation is the refrigeration unit by variable speed evaporation 15. The method includes: intake of air stream containing H2O vapor into the air inlet of dehumidification unit, provided that the air stream is the first sub-pressure of H2O vapor. air with refrigeration unit by evaporation; H2O uptake into the H2O vapor bouquet of the dehumidification unit penetrates the H2O permeable material of the dehumidification unit. By using the pressure difference across the H2O permeable material, the H2O permeable material consists of zeolite and the H2O vapor channel is subpressure. The second value of the H2O vapor is lower than the sub-pressure, the first value of the H2O vapor of the air stream; and receiving H2O vapor from the H2O vapor channel into the pressure booster and increasing the H2O vapor pressure from the booster up to the third sub-pressure of H2O vapor higher than the second sub-pressure of H2O vapor 1. 6. Method according to claim 15, which includes airflow cooling with the unit cooling by evaporation before directing the air stream into the dehumidification unit 1 7. Method according to claim 15, which includes airflow cooling. refrigeration unit by evaporation after receiving the air stream from the dehumidification unit. 18. Claim 15 method, which also includes airflow cooling. refrigeration unit by evaporating unit one before regulating air flow into the dehumidification unit and airflow cooling with a refrigeration unit by evaporating the second unit after receiving Air flow from dehumidification unit 1 9. Claim 15 method, which consists of obtaining H2O vapor from a pressure booster. Enter the condensation apparatus and condense H2O vapor to liquid H2O 2 0. Claim 19 method, where the air stream has the initial sub-pressure of H2O vapor in the range of about 0.2-1.0 psia, the The second sub-pressure of H2O vapor ranges from approximately 0.1-1.0 psia, and the third sub-pressure of the H2O vapor ranges from approximately 0.25-1.1 psia. according to the psychometric diagram including one or more adjustments on the psychometric diagram ------------------------------------------------ 1. dehumidification system system) for removing water vapor from the air stream which consists of The first and second compartments are separated from each other by the membrane. It is structured to help remove water vapor from the air stream flowing through the first chamber by taking the HO path from the steam to the second chamber through the membrane permeable region. while blocking Other components All of the air streams are mostly not allowed to pass through the membrane. First structured cvaportive cooling unit to cool the air stream downstream of the membrane A second evaporative cooling unit structured to cool the air stream. Upstream side of the membrane The pressure booster is structured to generate the sub-pressure of the steam within the second chamber. lower than the first ventricle in such a way that HO moves through the membrane to the second ventricle. by the device The pressure booster is also structured to increase the pressure of the steam at the outlet of the booster up to The sub-pressure of steam in the appropriate range for The subsequent condensation and controller are structured to control the operation of this dehumidification system.