SU1222885A1 - Thermomechanical compressor - Google Patents

Description

The invention relates to the power industry, in particular, to devices for raising pressure and pumping low-temperature liquids.

The purpose of the invention is to increase the performance of a thermomechanical pump.

The drawing schematically shows a thermomechanical pump.

The thermomechanical pump contains two cylinders 1 and 2, in each of which is located with the formation of warm and cold cavities 3 and 4 propellant 5, heat exchangers 6 and 7 connected to warm and cold cavities 3 and 4 and located in cylinders 1 and 2 on the cold side. cavities 4 suction and discharge valves 8 and 9, connected to lines 10 and 11 of the same name. Cylinders 1 and 2 are equipped with heat exchangers 12 located in the zone of warm cavities 3 and connected to discharge lines 11, and the latter bypass lines 13 with adjusting the vent 14 mi.

Thermomechanical pump works as follows.

In the initial position, the cold cavity is filled with a liquid cryoproduct under Rve pressure. When the displacer 5 moves downward, a part of the cryoproduct is pushed out of the cavity 4 into the warm cavity 3 through the heat exchanger 6 and the heat exchanger 7. As a result of the supply of heat to the heat exchangers 6 and 7, the liquid cryo-product evaporates. Since steam density is tens and hundreds of times less

liquid density, the pressure in cylinders 1 and 2 increases up to the discharge pressure PH. After that, the discharge valve 9 opens. With further

moving down the displacer 5, the part of the remaining cryoproduct from cavity 4 continues to push into the warm cavity 3 to maintain the discharge pressure, and the other part enters the discharge line 11, passes through the heat exchanger 12, maintaining the warm cavity 3 at the required temperature, and further to the consumer.

In order to clearly maintain the required temperature in cavity 3, the injection flow (or part thereof) after valve 9 can pass through a bypass line 13, a heat exchanger 12 passes. The control valve 14 serves to distribute the flow when the propellant 5 occupies the bottom polo, living

After the movement of the displacer 5 reverses, the valve 9 is closed. The vaporous cryoproduct from cavity 3 is pushing into cavity 4 through heat exchangers 7 and 6. As a result of the heat removal, the vapor condenses, the pressure drops down to the Pve suction pressure. Upon further movement of the displacer 5 upward, the suction process proceeds through the valve 8. This process ends when the displacer 5 reaches the upper end position. The process then repeats.

Claims (1)

THERMOMECHANICAL PUMP containing two cylinders, in each of which a displacer is formed with the formation of warm and cold cavities, heat exchangers connected to the warm and cold cavities and suction and discharge valves located in the cylinders from the side of the cold cavities, connected to the same lines, characterized in that that, in order to increase productivity, the cylinders are equipped with heat exchangers located in the zone of warm cavities and connected to the discharge lines, and the latter with bypass lines with control valves. with SS SU ₍₁₁₎ 1222885>