TH18024B - Devices and methods for removing condensate materials from gases - Google Patents

Abstract

DC60 (08/02/45) Improved methods and equipment have been disclosed for removing condensate material from gases. The gas will cause it to flow continuously through a coolant for cooling the gas. And condenses the condensed material out of the gas. And then through the gas through the heater To heat the gas again Specified input Reeve's advance, Gerant will pass In a closed circuit, through a coolant to cool the gas by absorbing heat from the gas and turning it into vapor, the gas reeferant is then compressed by a compression unit with an electric drive device. The hot compressed gas reefer is passed through the condensate to determine its size to Eliminate the energy which is added to the reeferant by the compression unit at no load condition, then the reeferant is then passed through the heater to allow the reef rigant to condense. Again and for Transfer heat to existing gas The reeferant will then exit the heater and reverse. Return to the cooler Fully closed Specified input In advance of Reeve found The rant is sized to make the reeferant leaving the heater in gas state. When there is no gas flow through the heater and to make the pressure of the reeferant released From the heater decreases as the gas flow through the heater increases Improved methods and equipment have been disclosed for removing condensate material from the gas, the gas will cause it to flow continuously through the coolant for cooling the gas. And condenses the condensed material out of the gas. And then through the gas through the heater To heat the gas again Specified input Reeve's advance, Gerant will pass In a closed circuit, through a coolant to cool the gas by absorbing heat from the gas and turning it into vapor, the gas reeferant is then compressed by a compression unit with an electric drive device. The hot compressed gas reefer is passed through the condensate to determine its size to Eliminate the energy which is added to the reeferant by the compression unit at no load condition, then the reeferant is then passed through the heater to allow the reef rigant to condense. Again and for Transfer heat to existing gas The reeferant will then exit the heater and reverse. Return to the cooler Fully closed Specified input In advance of Reeve found The rant is sized to make the reeferant leaving the heater in gas state. When there is no gas flow through the heater and to make the pressure of the reeferant released From the heater decreases as the gas flow through the heater increases

Claims (3)

1. a device for removing material that can be condensed from gases, which includes A flow gas system incorporating a series-connected cooler for cooling loud gas. And condenses such condensed material from the said gas, a separator to separate the The condensate is removed from the gas and the condensate is drained, and the heater for To heat the said gas again Closed refrigerant system through which pre-set refrigerant is fed Series through the such coolant to cool the gas by absorbing heat from that gas Said and vaporized, through a compression unit where the refrigerant is compressed and the amount of power The work is added there, then through an auxiliary condenser that is sized to eliminate the added energy. There, from the aforementioned refrigerant by the aforementioned compression unit at no-load state, and then through a heat sink. The router and return to the said cooler and Where the aforementioned refrigerant input is sized to make the refrigerant The cooling that exits the heater is rather in a gas state when there is no flow. Gas and to normalize the pressure of such refrigerant which leaves the said heater 2. The device of claim No. 1, which is additionally equipped with a refrigerant expansion device. The refrigerant passes after exiting the heater and before entering the coolant. 3. Device of claim No. 2 where the pre-set refrigerant supply is Set the size to make the refrigerant that enters the said refrigerant expansion device in Liquid state when gas is flowing and gas state when there is no gas flow 4. Equipment of claim 2, which is additionally equipped with a filter / reagent concentrator. A dry cooler for removing water and microscopic matter from such refrigerants. The cooler passes after exiting the heater and before access to the expansion device. 5. Device of claim 1, which is supplemented with a filter / refrigerant. A dry cooler for removing water and microscopic matter from such refrigerants. Cooling through after exiting the heater and before entering the cooler 6. Device of claim No. 1 where the compressor and motor are included. Electrically driven, such a motor has a coil over where the refrigerant passes for cooling. 7. Device of claim No. 6, where the compressor is piston compressor 8. Device of claim No. 6, where the compressor is sealed. 9. Device of claim No. 1, which is supplemented by a label that changes color according to temperature. The destination of the heater and the source of the cooler to know the temperature of the refrigerant that has passed. 1 0. Clause 1 device, where the gas is compressed 1 1. The device of the claim Article 1 where gas is air 1 2. Equipment of claim 1 where condensable material is water 1 3. equipment of claim 1, where condensation assists are parts of the external structure of Equipment 1 4. Equipment of claim No. 1, where the condensers help exchange heat with air by Forced movement of air passes, 1 5. Device of claim 1, where the refrigerant is halogenated hydrocarbon No. 1 6. Device of claim 15, where the refrigerant Is the halogenated hydrocarbons that It was selected from a group consisting of R - 12, R - 22, and R - 134a 1 7. Methods of removal of condensate materials from gases were assembled with a procedure of Making the gas flow in series through the coolant for cooling the gas and Condensate the condensed material from the gas, then through a separator to separate the condensed material. Condensate it from the gas and drains the condensate, and then through the heat. Router for heating the said gas again. Serial feeding of the pre-set refrigerant through the cooler. It is said to cool the gas by absorbing heat from it and turning it into vapor, through a compression unit where the refrigerant is compressed and the amount of energy is added to the refrigerant. It is then passed through an auxiliary condenser that is scaled to eliminate the energy added there from the reagent. The cooling by the compression unit under no-load condition, and then through the said heater and Back to the aforementioned coolant and Presetting such a predetermined refrigerant feed size to make the The cooling that exits the heater is somewhat gas when it is not flowing. Of gas and to make the pressure of such refrigerant which is generally released from the said heater This decreases while the flow of gas through the said heater increases. 1 8. Method of claim No. 17, which is supplemented by the process of transmitting the substance. Cooling through a refrigerant expansion device after passing through the said heater and before the 1 9. Method of Clause 18 whereby the procedure for determining the size of the refrigerant feed. The preset chiller also consists of keeping the refrigerant in a state. Rather liquid as it enters the refrigerant expansion device during the gas flow period, and in the somewhat gas phase during the non-gas flow period 2 0. Method of claim 18, which Additional components are included with the transmission of refrigerants. Through a filter / drier for removing water and microscopic matter from the refrigerant. After passing through the said heater, and before passing through the expansion device 2 1. Method of claim 17, which is supplemented with refrigerant transmission as follows: Through a filter / drier for removing water and microscopic matter from the refrigerant. After passing through the said heater and before passing through the cooling medium 2 2. Method of claim No. 17, which is supplemented by the procedure for the transmission of the substance Cold through labels that change color with temperature after passing through the said heater and before passing Through the coolant to determine the approximate temperature of the refrigerant 2 3. A device for removing material that can be condensed from compressed gas, which includes Compressed gas flow system incorporating a serial coupler for cooling the gas. It compresses and condenses the condensed material from the compressed gas, a separator to separate the material. The condensate is removed from the compressed gas and the condensate is emitted, and the heater itself. For heating the compressed gas again Closed refrigerant system through which pre-set refrigerant is fed Through the said coolant to cool the compressed gas by absorbing heat from the compressed gas. It is then vaporized, through a compression unit which has a compressor and electrically cooled route. The refrigerant is cooled where the refrigerant is compressed and the amount of energy is added there, then through a scaled auxiliary condenser to eliminate the energy added there from the refrigerant. Said by such compression unit under no-load condition, through the said heater, through a filter / dampener Dry cooling for removing water and microparticle matter from such refrigerants, through refrigerant expansion device, through temperature-changing labels to determine approximate temperatures of The refrigerant, and then return to the said coolant and Where the aforementioned refrigerant input is sized to make the refrigerant The cooling that leaves the heater is rather gas during the non-gas phase. There is a flow of compressed gas, to keep the pressure of the refrigerant exiting the heater. Generally decreases as the aforementioned flow of compressed gas through the said heater increases, and to ensure That the liquid refrigerant is sealed at the refrigerant expansion device during the period of the flow of The gas compressed by the condensers is part of the external structure of the device.