CN111140445A

CN111140445A - Gas-steam combined cycle cooling, heating and power multi-energy combined supply system

Info

Publication number: CN111140445A
Application number: CN201911357438.4A
Authority: CN
Inventors: 何理; 王治亚; 张诗悦; 颜鹏东; 焦蒙蒙
Original assignee: Tianjin University
Current assignee: Tianjin University
Priority date: 2019-12-25
Filing date: 2019-12-25
Publication date: 2020-05-12

Abstract

The combined cooling, heating and power system with combined gas-steam circulation includes gas power generating system and steam power generating system; the gas power generation system comprises a gas turbine, a first generator, a lithium bromide refrigeration system and a first inverter, wherein the gas turbine drives the first generator to generate power, electric energy generated by the first generator is supplied to a power grid through the first inverter, a gas turbine exhaust pipe is communicated with a cooling branch and a heating branch through a first flow control device, and the lithium bromide refrigeration system is installed on the cooling branch; the condensed water of the condenser is returned to the exhaust-heat boiler through the first water pump, and the gas is communicated with the gas turbine and the exhaust-heat boiler through the gas pipe. The invention can combine solar heat, fuel gas and steam to realize a multi-energy combined supply system integrating power supply, heat supply and cold supply.

Description

Gas-steam combined cycle cooling, heating and power multi-energy combined supply system

Technical Field

The invention relates to a combined cooling heating and power system, in particular to a combined cooling, heating and power system with solar-assisted gas-steam combined cycle.

Background

Solar thermal power generation is realized by converting solar radiation into heat energy by using a solar light-gathering heat collector and then converting the heat energy into electric energy for users to use through different ways. Because solar energy has the characteristics of instability and discontinuity, in order to ensure the continuous and stable operation of the system, the solar energy is combined with other energy sources, and when the solar energy is insufficient, the energy sources are supplied by other energy sources, so that a solar energy auxiliary energy supply system is formed.

The gas-steam combined cycle means that a gas turbine and a steam power plant are combined for use, and has great significance for improving the heat energy utilization rate. One of the gas-steam combined cycle device is that air is compressed by a compressor and enters a fuel chamber to be combusted together with fuel, the generated high-temperature gas enters a gas turbine to do work, the flue gas discharged by the gas turbine is discharged after partial heat is recovered by a waste heat boiler, and the steam generated by the waste heat boiler can drive an auxiliary machine or be used for heating and living. The exhausted steam of the steam turbine is discharged into a condenser, and the condensed water of the steam turbine returns to the boiler after passing through a heater. The waste heat boiler can be divided into a scheme with afterburning and a scheme without afterburning, and the scheme system without afterburning is simpler, but the power of a steam turbine is lower. With the afterburning approach, steam turbine power can be increased as needed, but the system is more complex.

Disclosure of Invention

The invention provides a combined cooling heating and power system with combined gas-steam cycle, which combines solar heat, gas and steam to realize a combined cooling and heating system with integrated power supply, heat supply and cooling.

In order to solve the above problems, the technical solution to be solved by the present invention is:

the combined cooling, heating and power system with combined gas-steam circulation includes gas power generating system and steam power generating system;

the gas power generation system comprises a gas turbine, a first generator, a lithium bromide refrigeration system and a first inverter, wherein the gas turbine drives the first generator to generate power, electric energy generated by the first generator is supplied to a power grid through the first inverter, a gas turbine exhaust pipe is communicated with a cooling branch and a heating branch through a first flow control device, and the lithium bromide refrigeration system is installed on the cooling branch;

the steam power generation system comprises a waste heat boiler, a steam turbine, a second power generator, a second inverter, a flue gas treatment device and a condenser, wherein the waste heat boiler and the flue gas treatment device are sequentially installed on a heat supply branch, the waste heat boiler drives the steam turbine, the steam turbine drives the second power generator to generate power, electric energy generated by the power generator is supplied to a power grid through the second inverter, exhaust steam of the steam turbine is discharged into the condenser, condensed water of the condenser is returned to the waste heat boiler through a first water pump, and fuel gas is communicated with the gas turbine and the waste heat boiler through a gas pipe.

Still include solar energy air preheating system, solar energy air preheating system includes solar heat absorber, second flow control device, compressor and fuel, and the air is sent into the fuel through the compressor, and solar heat absorber one end switch-on fuel, and the other end is put through with the compressor blast pipe through second flow control device, and the gas passes through gas pipe intercommunication fuel.

Still include heating circulation system, heating circulation system includes heating return water house steward and moisturizing pipe, and moisturizing pipe one end intercommunication heating return water house steward installs on heating return water house steward at storage water tank, heat exchanger, second water pump and peak boiler, installs chemical water purification unit, third water pump and moisturizing oxygen-eliminating device on the moisturizing pipe, and gas turbine blast pipe switch-on heat exchanger cools off water runoff condenser in the return water house steward.

The invention has the technical effects that: the invention combines a solar air preheating system with a gas-steam combined cycle device; the solar air preheating system converts solar radiation into heat energy, so that the consumption of fuel and the emission of polluted gas are effectively reduced; the high-temperature exhaust of the gas turbine can be used for utilizing the waste heat of the boiler, and heat supply or cold supply can be selected according to different requirements, so that the cascade utilization of energy is realized; the invention utilizes the waste heat of gas power generation, steam power generation and a waste heat boiler in multiple stages, realizes the combined supply of cold, heat and electricity, transmits electricity to a power grid, optimizes the energy utilization and effectively improves the system efficiency.

Drawings

The invention is further described below with reference to the accompanying drawings:

FIG. 1 is a schematic diagram of one embodiment of the present invention.

In the figure: the system comprises a first inverter 1, a second inverter 2, a flue gas treatment device 3, a solar heat absorber 4, a second flow control device 5, a gas compressor 6, a fuel chamber 7, a gas turbine 8, a waste heat boiler 9, a steam turbine 10, a first generator 11, a second generator 12, a lithium bromide refrigeration system 13, a first flow control device 14, a condenser 15, a first water pump 16, a water storage tank 17, a heat exchanger 18, a water replenishing deaerator 19, a third water pump 20, a chemical water purification treatment device 21, a peak boiler 22 and a second water pump 23.

Detailed Description

As shown in fig. 1, the combined cooling heating and power system with combined gas-steam cycle comprises a gas power generation system and a steam power generation system;

the gas power generation system comprises a gas turbine 8, a first generator 11, a lithium bromide refrigeration system 13 and a first inverter 1, wherein the gas turbine 8 drives the first generator 11 to generate electricity, the electric energy generated by the first generator 11 is supplied to a power grid through the first inverter 1, an exhaust pipe of the gas turbine 8 is communicated with a cooling branch and a heating branch through a first flow control device 14, and the lithium bromide refrigeration system 13 is arranged on the cooling branch;

the steam power generation system comprises a waste heat boiler 9, a steam turbine 10, a second generator 12, a second inverter 2, a flue gas treatment device 3 and a condenser 15, the waste heat boiler 9 and the flue gas treatment device 3 are sequentially installed on a heat supply branch, flue gas discharged by the waste heat boiler 9 is used for low-temperature hot water supply or heating, the waste heat boiler 9 drives the steam turbine 10, the steam turbine 10 drives the second generator 12 to generate electricity, electric energy generated by the generator is supplied to a power grid through the second inverter 2, exhaust steam of the steam turbine is discharged into the condenser 15, condensed water of the condenser 15 is returned to the waste heat boiler 9 through a first water pump 16, and gas is communicated with the gas turbine 8 and the waste heat boiler 9 through a gas pipe.

The working process of the invention is as follows: after the gas turbine 8 is started, the gas turbine 8 drives the electric energy generated by the first generator 11 to be supplied to a power grid through the first inverter 1, tail gas discharged by the gas turbine 8 enters a cold supply branch and a heat supply branch, and the tail gas entering the cold supply branch generates cold air through the lithium bromide refrigerating system 13 and is sent to an indoor cold air nozzle for cooling; tail gas gets into exhaust-heat boiler 9 and retrieves tail gas part heat on getting into the heat supply branch road, and exhaust-heat boiler 9 burns the gas and supplements retrieving the not enough heat of tail gas simultaneously, and exhaust-heat boiler 9 exhaust flue gas gets into flue gas processing apparatus 3, sets up the heating pipe of retrieving the flue gas heat in the flue gas processing apparatus 3 for heat supply water or heating. Steam generated by the waste heat boiler 9 drives the steam turbine 10 to do work, drives the second generator 12 to generate electricity, and generates electric energy which is supplied to a power grid through the second inverter 2; exhaust steam of the steam turbine is discharged into a condenser 15, and condensed water of the condenser 15 is returned to the waste heat boiler 9 through a first water pump 16 so as to be recycled.

When the demand for cooling is large in summer, the first flow control device 14 (the flow control device can be a one-inlet two-outlet three-way valve) is used for increasing the flow between the exhaust smoke of the gas turbine 8 and the lithium bromide refrigerating system 13, so that the refrigerating capacity is increased. When the heating demand is met in winter, the flue gas conveying on the heating branch is closed, the refrigeration is stopped, the flue gas enters the heating branch, and the waste heat boiler 9 recovers partial heat of the tail gas.

Still include solar energy air preheating system, solar energy air preheating system includes solar heat absorber 4, second flow control device 5, compressor 6 and fuel room 7, and the air sends into fuel room 7 through compressor 6, and solar heat absorber 4 one end switch-on fuel room 7, and second flow control device 5 and 6 blast pipes switch-on of compressor are passed through to other one end, and the gas passes through gas pipe intercommunication fuel room 7.

Air passes through the air compressor 6 and then is sent into the solar heat absorber 4 and the fuel chamber 7, and the air flow is controlled by the second flow control device 5; when the solar energy is sufficient, the compressed air is preheated by the solar heat absorber 4 and then enters the fuel chamber 7, so that the initial temperature of combustion air is increased, and the consumption of fuel gas is reduced; when solar energy is insufficient or absent, part or all of the compressed air enters the fuel chamber 7, is mixed with gas for combustion, and then enters the gas turbine 8 for expansion to do work.

Still include heating circulation system, heating circulation system includes heating return water house steward and moisturizing pipe, and moisturizing pipe one end intercommunication heating return water house steward installs on the heating return water house steward at storage water tank 17, heat exchanger 18, second water pump 23 and peak boiler 22, installs chemistry water purification unit 21, third water pump 20 and moisturizing oxygen-eliminating device 19 on the moisturizing pipe, and 8 blast pipes of gas turbine switch-on heat exchanger 18, cooling water runoff condenser 15 in the moisturizing house steward.

Water is treated by a chemical water purification device 21, a third water pump 20 and a water supplementing deaerator 19 and then is sent into a water storage tank 17 to supplement water in the water storage tank 17, cooling water pumped by a second water pump 23 into the water storage tank 17 is sent into a heat exchanger 18 after entering a condenser 15, the water temperature rises, and then the cooling water enters a peak boiler 22 and is sent to a heating system, wherein the peak boiler 22 is put into operation at the peak of heat load and is used for heating the water to a specified heating temperature.

Claims

1. The combined cooling heating and power system of gas-steam combined cycle, its characterized in that: the system comprises a gas power generation system and a steam power generation system;

the gas power generation system comprises a gas turbine (8), a first generator (11), a lithium bromide refrigeration system (13) and a first inverter (1), the gas turbine (8) drives the first generator (11) to generate power, electric energy generated by the first generator (11) is supplied to a power grid through the first inverter (1), an exhaust pipe of the gas turbine (8) is communicated with a cooling branch and a heating branch through a first flow control device (14), and the lithium bromide refrigeration system (13) is installed on the cooling branch;

steam power generation system includes exhaust-heat boiler (9), steam turbine (10), second generator (12), second inverter (2), flue gas processing apparatus (3) and condenser (15), exhaust-heat boiler (9) and flue gas processing apparatus (3) are installed in proper order on the heat supply road, exhaust-heat boiler (9) drive steam turbine (10), steam turbine (10) drive second generator (12) electricity generation, and the electric energy that the generator produced supplies with the electric wire netting through second inverter (2), exhaust steam of steam turbine discharges into condenser (15), condenser (15) condensate water is returned through first water pump (16) to exhaust-heat boiler (9), the gas is through gas pipe intercommunication gas turbine (8) and exhaust-heat boiler (9).

2. The gas-steam combined cycle combined cooling heating and power system according to claim 1, wherein: still include solar energy air preheating system, solar energy air preheating system includes solar heat absorber (4), second flow control device (5), compressor (6) and fuel room (7), and the air is sent into fuel room (7) through compressor (6), and solar heat absorber (4) one end switch-on fuel room (7), and second flow control device and compressor (6) blast pipe switch-on are passed through to other one end, and the gas passes through gas pipe intercommunication fuel room (7).

3. The gas-steam combined cycle combined cooling heating and power system according to claim 1, wherein: still include heating circulation system, heating circulation system includes heating return water house steward and moisturizing pipe, and moisturizing pipe one end intercommunication heating return water house steward installs on the heating return water house steward at storage water tank (17), heat exchanger (18), second water pump (23) and peak boiler (22), installs chemical water purification unit (21), third water pump (20) and moisturizing oxygen-eliminating device (19) on the moisturizing pipe, and gas turbine (8) blast pipe switch-on heat exchanger (18), cooling water runoff condenser (15) in the moisturizing house steward.