Multistage Stirling engine and steady-state operation parameter regulating and controlling method thereof

A Stirling machine and mechanical energy technology, applied in the field of multi-stage Stirling machine and its steady-state operation parameter control, can solve the problem of poor adaptability of piston pump gas, inability to reduce the unit cost of Stirling engine, and increase the complexity of equipment, etc. question

Active Publication Date: 2020-10-16
王利
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

There are several deficiencies in this double-acting free-piston Stirling machine: the one is that each double-acting free-piston needs to output part of the mechanical energy to the outside, and the parts for outputting mechanical energy will increase the complexity of the equipment; The connection needs to be equipped with connecting parts such as elbows and gas collecting pipes. The connecting parts will increase the invalid volume of the large-diameter Stirling unit and the difficulty of manufacturing; third, the pressure difference of gases in different enclosed spaces cannot be used to bear the weight of the piston, and a spring is required. The dead weight of the piston and the balance position of the control piston; the fourth is that the control of the piston movement process is difficult and the adjustability is poor; Pulling the engine cannot achieve a balance between large-scale and manufacturing costs. Generally, the diameter and stroke of the piston of a Stirling engine have a certain proportional relationship. Enlarging the diameter of the piston requires increasing the stroke of the piston, and increasing the stroke of the piston will cause gas Adverse effects such as increased flow resistance limit the enlargement of the Stirling engine, and the unit cost of the Stirling engine cannot be reduced through enlargement

Method used

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  • Multistage Stirling engine and steady-state operation parameter regulating and controlling method thereof
  • Multistage Stirling engine and steady-state operation parameter regulating and controlling method thereof
  • Multistage Stirling engine and steady-state operation parameter regulating and controlling method thereof

Examples

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Effect test

Embodiment 1

[0122] A multistage Stirling machine (as attached figure 2 As shown), a mechanical energy input device 1 is arranged at one end thereof, and the mechanical energy input device 1 is connected with the mechanical energy input piston 2, and the mechanical energy input piston 2 is arranged in the first cylinder 101; the first cylinder 101 passes through the first radiator 3, the second A regenerator 4, the first heat absorber 5 communicate with the second cylinder 102, and the second cylinder 102 is provided with a mechanical energy transfer double-acting free piston 6; the second cylinder 102 passes through the second radiator 3', the second regenerator 4'. The second heat absorber 5' communicates with the last-stage cylinder 103, and the mechanical energy output piston 7 is arranged in the last-stage cylinder 103; the other end of the mechanical energy output piston 7 is connected with the mechanical energy output device 8. A closed working space is formed between the mechanical ...

Embodiment 2

[0124] A kind of multi-stage Stirling machine, a mechanical energy input device 1 is arranged at one end thereof, the mechanical energy input device 1 is connected with a mechanical energy input piston 2, and the mechanical energy input piston 2 is arranged in a first cylinder 101; the first cylinder 101 passes through the first The radiator 3, the first regenerator 4, and the first heat absorber 5 communicate with the second cylinder 102, and the second cylinder 102 is provided with a mechanical energy transfer double-acting free piston 6; the second cylinder 102 passes through the second radiator 3', The second regenerator 4' and the second heat absorber 5' communicate with the third cylinder, and the third cylinder is equipped with a mechanical energy transfer double-acting free piston; the third cylinder passes through the radiator, heat regenerator, heat absorber and the final The first stage cylinder 103 is connected, and the mechanical energy output piston 7 is arranged ...

Embodiment 3

[0126] A multi-stage Stirling engine that utilizes the exhaust heat of an internal combustion engine. Biogas power generation generally uses internal combustion engines. The exhaust temperature of internal combustion engines is about 500°C. It is generally used for heat preservation of biogas tanks. The waste heat cannot be fully utilized in the three seasons of spring, summer and autumn every year due to low heat preservation requirements. In this embodiment, the exhaust gas is used to heat the temperature of the heat transfer oil from 300°C to 350°C as the heat source of the multi-stage Stirling engine, so as to realize efficient utilization of exhaust heat. The cold source adopts the thermal insulation water of the biogas tank, and the temperature of the thermal insulation water is heated from 50°C to 90°C to realize the utilization of low-temperature waste heat. The multi-stage Stirling engine of this embodiment is as attached image 3 As shown, the vertical arrangement i...

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Abstract

The invention relates to a multistage Stirling engine and a steady-state operation parameter regulating and controlling method thereof. According to the multistage Stirling engine, multiple Stirling work units are formed by mechanical energy input pistons, mechanical energy transferring double-acting free pistons and mechanical energy output pistons. The mechanical energy input pistons are connected with mechanical energy input devices, and the mechanical energy output pistons are connected with mechanical energy output devices. When the Stirling engine serves as an engine, small mechanical energy is input into the mechanical energy input pistons in one group of pistons, and after the mechanical energy is amplified by the multi-stage Stirling units, large mechanical energy is output by themechanical energy output pistons. According to the multistage Stirling engine and the steady-state operation parameter regulating and controlling method thereof, a needed piston motion manner is achieved through parameter calculation, selection and designing, and therefore the multistage Stirling engine can adapt to the change of the input conditions and regulate the output power according to needs. The multistage Stirling engine is simple in structure, good in regulation performance, small in mechanical loss, small in noneffective volume and suitable for adopting large-diameter pistons, andcan be widely used for waste heat power generation and distributed energy and renewable energy power generation.

Description

technical field [0001] The invention belongs to the field of Stirling machines, and in particular relates to a multi-stage Stirling machine and a method for adjusting and controlling its steady-state operating parameters. Background technique [0002] Adopt the Stirling engine of double-acting free piston in the prior art (as attached figure 1 As shown), multiple identical pistons are connected to each other through radiators, regenerators, and heat absorbers to form multiple identical Stirling working units, and the mechanical energy and reciprocating motion between the pistons form a circular cycle transmission between the pistons. There are several deficiencies in this double-acting free-piston Stirling machine: the one is that each double-acting free-piston needs to output part of the mechanical energy to the outside, and the parts for outputting mechanical energy will increase the complexity of the equipment; The connection needs to be equipped with connecting parts su...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F02G1/045F02G1/043
CPCF02G1/045F02G1/0435Y02E10/46F02G1/044F02G2244/52F02G1/04F02G2243/30F02G2243/40
Inventor 王利
Owner 王利
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