阅读说明：本技术 一种用于有机朗肯循环的膨胀压缩一体机 (Expansion and compression integrated machine for organic Rankine cycle ) 是由 雷标 吴玉庭 王伟 于 2020-07-03 设计创作，主要内容包括：一种用于有机朗肯循环的膨胀压缩一体机,属于中低品位能源利用领域。本发明将工质泵和膨胀机做成整体,以减小工质泵功耗对系统的影响。由气缸(1)、活塞(2)、蒸发器(3)冷凝器(4)和四个阀门由相应的连接管路组成。其中气缸(1)有四个工质进出口,分别经一个阀门和冷凝器出口、冷凝器进口、蒸发器进口、蒸发器出口连接,部件及管路内部充满有机工质。经过四个阀门的不同打开顺序推动活塞(2)运动做功,实现了有机工质膨胀做功,又实现了液体压缩。(An expansion and compression integrated machine for organic Rankine cycle belongs to the field of medium-low grade energy utilization. The working medium pump and the expansion machine are integrated, so that the influence of the power consumption of the working medium pump on a system is reduced. The device consists of a cylinder (1), a piston (2), an evaporator (3), a condenser (4) and four valves which are formed by corresponding connecting pipelines. The cylinder (1) is provided with four working medium inlets and outlets which are respectively connected with a condenser outlet, a condenser inlet, an evaporator inlet and an evaporator outlet through a valve, and the parts and the pipeline are filled with organic working media. The piston (2) is pushed to move to do work through different opening sequences of the four valves, so that the expansion work of the organic working medium is realized, and the liquid compression is also realized.)

1. An expansion and compression integrated machine for organic Rankine cycle is characterized by mainly comprising a cylinder (1), a piston (2), an evaporator (3), a condenser (4), a first valve (5), a second valve (6), a third valve (7), a fourth valve (8) and corresponding connecting pipelines; the air cylinder (1) and the piston (2) are matched, and the piston (2) can move along the length direction of a central shaft of the air cylinder (1); the cylinder (1) is provided with four working medium inlets and outlets which are respectively connected with an outlet of the condenser (4), an inlet of the evaporator (3) and an outlet of the evaporator (3) through pipelines by a first valve (5), a second valve (6), a third valve (7) and a fourth valve (8); organic working media are filled in the parts and the pipelines; high-pressure organic working medium steam from the evaporator (3) enters the cylinder (1) through the fourth valve (8) to push the piston to move towards a bottom dead center, the high-pressure working medium expands to do work, and the fourth valve (8) is closed when the piston moves to a certain middle position in the period. When the piston moves to the bottom dead center, the second valve (6) is opened, the piston moves to the top dead center, and exhaust gas which does work in the cylinder is sent to the condenser (4) through the second valve (6) to be condensed; when the piston moves to a certain middle position, the first valve (5) is opened, condensate in the condenser (4) enters the cylinder (1) through the first valve (5), residual exhaust gas in the cylinder (1) is discharged out of the cylinder (1), the cylinder is filled with organic working medium fluid, and then the first valve (5) and the second valve (6) are closed; the piston (2) continues to move towards the upper dead point to compress fluid, and after the liquid pressure rises, the third valve (7) is opened to pressurize the liquid organic working medium and send the liquid organic working medium into the evaporator (3); when the piston (2) moves to the top dead center, the third valve (7) is closed, the fourth valve (8) is opened, high-pressure organic working medium steam from the evaporator (3) enters the cylinder (1) through the fourth valve (8), and the piston (2) is pushed to move to do work.

2. An expansion and compression integrated machine for an organic Rankine cycle according to claim 1, wherein the power of the organic working medium condensate entering the cylinder through the first valve (5) can be gravity action or action of a certain pre-pump, but the pump outlet pressure is far less than the working pressure of the organic Rankine cycle, and the pressure increase of the organic working medium liquid is mainly completed in the cylinder.

3. An expansion-compression all-in-one machine for an organic rankine cycle according to claim 1, characterized in that the third valve (7) is a check valve of a kind that opens automatically when the pressure in the cylinder is higher than the evaporator inlet pressure.

4. An expansion and compression all-in-one machine for an organic Rankine cycle according to claim 1, wherein the opening and closing of each valve is generally controlled by a special control system, and the opening and closing of each valve depends on a crank angle or a piston position and a movement direction; the control mode can be mechanical control, for example, the cam mechanism pushes the cam mechanism open at a certain rotation phase; or electronic control, for example, a sensor is used for detecting the position of the piston or the angle of the crankshaft, and a control signal is sent out to realize the opening and closing of each valve.

Technical Field

The invention relates to an expansion and compression integrated machine for organic Rankine cycle, and belongs to the field of medium and low grade energy utilization.

Background

The organic rankine cycle system has significant advantages in recycling various middle and low grade heat energy such as industrial waste heat and solar energy, and the existing research mainly uses the energy generated by the system for power generation. In an organic Rankine cycle system, four parts of an evaporator, an expander, a condenser and a working medium pump are generally included. Generally, the expander and the working medium pump are two independent parts, the expander outputs mechanical power, and the working medium pump consumes a part of the mechanical power output by the expander. Because the critical temperature of the organic working medium is far lower than that of water, compared with the traditional steam power cycle, the theoretical pump work of the organic Rankine cycle is much larger, and in the actual organic Rankine cycle system, the energy consumed by the working medium pump is larger than the theoretical pump work, so that the pump work of the organic Rankine cycle cannot be ignored, and the organic Rankine cycle can be also influenced significantly under certain conditions. The traditional working medium pump has the defects that the efficiency of the working medium pump is too low, particularly in small-scale organic Rankine cycle, the working medium pump has large irreversible loss, the power consumption of the working medium pump accounts for the overlarge output power ratio of the expansion machine, and even the power consumption of the working medium pump is larger than the output power of the expansion machine under certain conditions. This greatly restricts the performance improvement of the organic rankine cycle.

Disclosure of Invention

The invention mainly solves the problem that the power consumption of a working medium pump accounts for the overlarge proportion of the output power of an expansion machine, and the main idea is to utilize one device to realize the functions of the working medium pump and the expansion machine at the same time, and the output power of the device (namely an expansion and compression integrated machine) is the net power of the organic Rankine cycle.

The invention mainly aims to realize all functions of a working medium pump and an expansion machine by utilizing a set of cylinder piston system, and the system comprises a cylinder (1), a piston (2), an evaporator (3), a condenser (4), a first valve (5), a second valve (6), a third valve (7), a fourth valve (8) and corresponding connecting pipelines. Wherein the cylinder (1) and the piston (2) are matched, and the piston (2) can move along the length direction of the central shaft of the cylinder (1); the cylinder (1) is provided with four working medium inlets and outlets which are respectively connected with the outlet of the condenser (4), the inlet of the evaporator (3) and the outlet of the evaporator (3) through pipelines by a first valve (5), a second valve (6), a third valve (7) and a fourth valve (8). The parts and the pipeline are filled with organic working media. High-pressure organic working medium steam from the evaporator (3) enters the cylinder (1) through the fourth valve (8) to push the piston to move towards a bottom dead center, the high-pressure working medium expands to do work, and the fourth valve (8) is closed when the piston moves to a certain middle position in the period. When the piston moves to the bottom dead center, the second valve (6) is opened, the piston moves to the top dead center, and exhaust gas which does work in the cylinder is sent to the condenser (4) through the second valve (6) to be condensed. When the piston moves to a certain middle position, the first valve (5) is opened, condensate in the condenser (4) enters the cylinder (1) through the first valve (5), residual exhaust gas in the cylinder (1) is replaced out of the cylinder (1), the cylinder is filled with organic working medium fluid, and then the first valve (5) and the second valve (6) are closed. And the piston (2) continues to move towards the upper dead point to compress fluid, and after the liquid pressure is increased, the third valve (7) is opened to pressurize the liquid organic working medium and send the liquid organic working medium into the evaporator (3). When the piston (2) moves to the top dead center, the third valve (7) is closed, the fourth valve (8) is opened, high-pressure organic working medium steam from the evaporator (3) enters the cylinder (1) through the fourth valve (8), and the piston (2) is pushed to move to do work.

Optionally, the power of the organic working medium condensate entering the cylinder through the first valve (5) can be gravity action or the action of a certain pre-pump, but the pump outlet pressure is far less than the working pressure of the organic Rankine cycle, and the pressure rise of the organic working medium liquid is mainly completed in the cylinder.

Alternatively, the third valve (7) may be a check valve of some kind, and the third valve (7) opens automatically when the pressure in the cylinder is higher than the evaporator inlet pressure.

Drawings

FIG. 1 shows a working flow chart of an expansion and compression integrated machine of an organic Rankine cycle

Cylinder (1), piston (2), evaporator (3), condenser (4), first valve (5), second valve (6), third valve (7), fourth valve (8)

Detailed Description

The present invention will be further described with reference to the following examples, but the present invention is not limited to the following examples.