An expansion engine operating on a Brayton cycle which is part of a system for producing refrigeration at cryogenic temperatures that includes a compressor, a counter-flow heat exchanger, and a load that may be remote, which is cooled by gas circulating from the engine. The engine has a piston in a
An expansion engine operating on a Brayton cycle which is part of a system for producing refrigeration at cryogenic temperatures that includes a compressor, a counter-flow heat exchanger, and a load that may be remote, which is cooled by gas circulating from the engine. The engine has a piston in a cylinder which has nearly the same pressure above and below the piston while it is moving. Low pressure on a piston drive stem provides a force imbalance to move the piston towards the warm end.
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1. A method of producing refrigeration at cryogenic temperature with an expansion engine, the expansion engine comprising a piston in a cylinder, the cylinder comprising a warm end and a cold end, andthe piston having a drive stem at the warm end;the method comprising the steps of: (a) supplying the
1. A method of producing refrigeration at cryogenic temperature with an expansion engine, the expansion engine comprising a piston in a cylinder, the cylinder comprising a warm end and a cold end, andthe piston having a drive stem at the warm end;the method comprising the steps of: (a) supplying the expansion engine supplied with a gas at a high pressure from a feed line of a compressor;(b) returning the gas to the compressor via a return line at a lower pressure than the high pressure in the feed line;(c) reciprocating the piston in the cylinder between the cold end and the warm end;(d) admitting gas from the feed line at the high pressure via inlet valves to the cold end of the cylinder when the piston is at or near the cold end of said cylinder and while the piston is moving toward the warm end;(e) exhausting gas from the cold end of the cylinder when the piston is at or near the warm end of the cylinder and as the piston is moving toward the cold end to the return line via outlet valves; and(f) maintaining the pressure on the warm end of the piston, outside an area of the drive stem, at about the same pressure as on the cold end of the piston, while the piston is moving;wherein step (f) further comprises operating an inlet check valve in a first series with a first throttle valve, and an outlet check valve in a second series with a second throttle valve, the check valves being connected between the warm end and the feed line from the compressor. 2. The method of producing refrigeration of claim 1, wherein step (f) further comprises increasing the operating pressure when the piston is near the cold end by operating an active valve or a passive valve, the active valve or the passive valve being disposed between the feed line from the compressor and the warm end of the cylinder. 3. The method of producing refrigeration of claim 1, wherein step (c) further comprises changing a speed at which the piston reciprocates by changing settings of the throttle valves. 4. The method of producing refrigeration of claim 1, further comprising a step of removing heat from the warm end via a cooler in a line with the outlet check valve. 5. A method of producing refrigeration at cryogenic temperature with an expansion engine, the expansion engine comprising a piston in a cylinder, the cylinder comprising a warm end and a cold end, andthe piston having a drive stem at the warm end;the method comprising the steps of: (a) supplying the expansion engine supplied with a gas at a high pressure from a feed line of a compressor;(b) returning the gas to the compressor via a return line at a lower pressure than the high pressure in the feed line;(c) reciprocating the piston in the cylinder between the cold end and the warm end;(d) admitting gas from the feed line at the high pressure via inlet valves to the cold end of the cylinder when the piston is at or near the cold end of said cylinder and while the piston is moving toward the warm end;(e) exhausting gas from the cold end of the cylinder when the piston is at or near the warm end of the cylinder and as the piston is moving toward the cold end to the return line via outlet valves; and(f) maintaining the pressure on the warm end of the piston, outside an area of the drive stem, at about the same pressure as on the cold end of the piston, while the piston is moving;wherein step (f) further comprises operating an inlet check valve in a first series with a first throttle valve, and an outlet check valve in a second series with a second throttle valve, the check valves being connected between the warm end and the feed line from the compressor, andincreasing the operating pressure when the piston is near the cold end by operating an active valve or a passive valve, the active valve or the passive valve being disposed between the feed line from the compressor and the warm end of the cylinder;wherein the passive valve is disposed in the drive stem.
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이 특허에 인용된 특허 (12)
Ohtani Yasumi,JPX ; Takahashi Masahiko,JPX ; Hatakeyama Hideo,JPX ; Chandratilleke Rohana,JPX ; Kuriyama Toru ; Nakagome Hideki,JPX ; Kobayashi Takayuki,JPX ; Hattori Tomomi,JPX ; Yoshino Tatsuya,JPX, Cooling system having a plurality of cooling stages in which refrigerant-filled chamber type refrigerators are used.
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