CN109139151A - A kind of thermoelectricity decoupled system with heat accumulation - Google Patents

A kind of thermoelectricity decoupled system with heat accumulation Download PDF

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Publication number
CN109139151A
CN109139151A CN201811003351.2A CN201811003351A CN109139151A CN 109139151 A CN109139151 A CN 109139151A CN 201811003351 A CN201811003351 A CN 201811003351A CN 109139151 A CN109139151 A CN 109139151A
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CN
China
Prior art keywords
heat
steam
fused salt
supply network
heat supply
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Pending
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CN201811003351.2A
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Chinese (zh)
Inventor
尤景刚
高科
黄宇泓
邢长清
陈新明
史绍平
张波
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Huaneng Clean Energy Research Institute
Dandong Power Plant of Huaneng International Power Co Ltd
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Huaneng Clean Energy Research Institute
Dandong Power Plant of Huaneng International Power Co Ltd
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Application filed by Huaneng Clean Energy Research Institute, Dandong Power Plant of Huaneng International Power Co Ltd filed Critical Huaneng Clean Energy Research Institute
Priority to CN201811003351.2A priority Critical patent/CN109139151A/en
Publication of CN109139151A publication Critical patent/CN109139151A/en
Pending legal-status Critical Current

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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F01MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
    • F01KSTEAM ENGINE PLANTS; STEAM ACCUMULATORS; ENGINE PLANTS NOT OTHERWISE PROVIDED FOR; ENGINES USING SPECIAL WORKING FLUIDS OR CYCLES
    • F01K13/00General layout or general methods of operation of complete plants
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F01MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
    • F01DNON-POSITIVE DISPLACEMENT MACHINES OR ENGINES, e.g. STEAM TURBINES
    • F01D15/00Adaptations of machines or engines for special use; Combinations of engines with devices driven thereby
    • F01D15/10Adaptations for driving, or combinations with, electric generators
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F01MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
    • F01KSTEAM ENGINE PLANTS; STEAM ACCUMULATORS; ENGINE PLANTS NOT OTHERWISE PROVIDED FOR; ENGINES USING SPECIAL WORKING FLUIDS OR CYCLES
    • F01K13/00General layout or general methods of operation of complete plants
    • F01K13/006Auxiliaries or details not otherwise provided for
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F01MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
    • F01KSTEAM ENGINE PLANTS; STEAM ACCUMULATORS; ENGINE PLANTS NOT OTHERWISE PROVIDED FOR; ENGINES USING SPECIAL WORKING FLUIDS OR CYCLES
    • F01K17/00Using steam or condensate extracted or exhausted from steam engine plant
    • F01K17/02Using steam or condensate extracted or exhausted from steam engine plant for heating purposes, e.g. industrial, domestic
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F01MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
    • F01KSTEAM ENGINE PLANTS; STEAM ACCUMULATORS; ENGINE PLANTS NOT OTHERWISE PROVIDED FOR; ENGINES USING SPECIAL WORKING FLUIDS OR CYCLES
    • F01K27/00Plants for converting heat or fluid energy into mechanical energy, not otherwise provided for

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Engine Equipment That Uses Special Cycles (AREA)

Abstract

A kind of thermoelectricity decoupled system with heat accumulation provided by the invention, including the fused salt heat reservoir being arranged on the reheated steam pipeline of Steam Turbine, wherein the heat supply network water out of fused salt heat reservoir is connect by heat-exchange system with heat network system;By the way that branch is arranged on the reheated steam pipeline of Steam Turbine, connect fused salt heat reservoir, the thermal energy that steam turbine is generated when higher generation load is run, heat accumulation is carried out by fused salt, when steam turbine needs to carry out underload peak regulation, and steam turbine power generation power declines, heat supply network heat supply can be supplemented using fused salt heat release, to realize that thermoelectricity decouples, solves the existing fired power generating unit with heat supply, there are problems that the regulatory demand of generated energy and heating load cannot be met simultaneously;And then it is of great significance to the flexibility and energy-saving and emission-reduction that improve thermal power plant unit.

Description

A kind of thermoelectricity decoupled system with heat accumulation
Technical field
The invention belongs to cogeneration of heat and power technical fields, and in particular to a kind of thermoelectricity decoupled system with heat accumulation
Background technique
Carrying out heat supply using residual heat of electric power plant (low-quality heat) is to promote the important means of power plant thermal efficiency and economy, Northern China, specific gravity of the power plant with heat supply in all thermal power plants is very big, is effectively utilized residual heat of electric power plant, for energy conservation Emission reduction is made that significant contribution, but with the development of new situations, cogeneration power plant is facing the challenge.As China is with wind-powered electricity generation Based on the ratio of renewable energy power generation access power grid of less stable gradually increase, power grid needs thermal power plant's cooperation peak regulation Demand is just gradually increased, therefore the upsurge of unit flexibility Promotion Transformation is being risen in thermal power plant.For the thermal motor with heat supply Group is limited by heat demand, and the adjusting of unit generation amount is extremely restricted, and thermal power plant unit will meet generated energy and confession simultaneously The regulatory demand of heat, it is necessary to carry out thermoelectricity decoupling transformation.Transformation is decoupled for the thermoelectricity for steam power plant, there are varied Form, actual effect is also different.It has been proposed, for example, that thermoelectricity decoupling transformation is carried out using electric boiler, in unit When participating in power grid underload peak regulation, using the extra electricity of electric boiler consumption unit simultaneously to heat supply network heat supply, disappeared with taking into account Subtract electricity volume and meet the target of heat supply network demand, the flexibility of this mode peak regulation is very high, but the thermal efficiency is very low, not In the case where considering peak regulation subsidy, economy is very poor, and disagrees somebody with energy-saving and emission-reduction original intention and propose to utilize main steam The method of steam extraction carries out heat supply, however main steam is a kind of energy carrier of high-quality, and energy can be generated by being used directly to progress heat supply The direct degradation of amount causes energy waste, and a kind of not energy-efficient uneconomic thermoelectricity decoupling means.It is supplied for the above steam power plant Hot problems faced and demand, the present invention propose a kind of thermoelectricity decoupling system and method with heat accumulation, are realized by fused salt heat accumulation Thermoelectricity decoupling avoids being conducive to energy-saving and emission-reduction, and can also join using fused salt heat accumulation using high-quality energy in heating system It is adjusted with the quick load up of unit, increases the flexibility of Turbo-generator Set.
Summary of the invention
The purpose of the present invention is to provide a kind of thermoelectricity decoupled system with heat accumulation, solves the existing thermoelectricity with heat supply Unit there are problems that the regulatory demand of generated energy and heating load cannot be met simultaneously.
In order to achieve the above object, the technical solution adopted by the present invention is that:
A kind of thermoelectricity decoupled system with heat accumulation provided by the invention, the reheated steam steam extraction including Steam Turbine is arranged in Fused salt heat reservoir on pipeline, wherein the heat supply network water out of fused salt heat reservoir is connect by heat-exchange system with heat network system;
Fused salt heat reservoir includes low-temperature molten salt storage tank, fused salt storage heater and salt storage tank, wherein fused salt stores The reheated steam entrance of hot heater and the reheated steam bleed steam pipework of Steam Turbine connect, the high temperature melting of fused salt storage heater Salt outlet is connect with salt storage tank, and the high-temperature molten salt outlet of salt storage tank is connect with heat-exchange system;Heat-exchange system Low-temperature molten salt outlet is connect with low-temperature molten salt storage tank;
Heat network system includes heat supply network water heater and hot net water heat supplying pipeline, wherein the low-pressure heating of heat supply network water heater The low-pressure pumping steam piping connection of steam inlet and Steam Turbine, the heat supply network water out of heat supply network water heater are divided into two pipelines, and one Pipeline is connect with hot net water heat supplying pipeline, another pipeline is connect preferably by heat-exchange system with hot net water heat supplying pipeline, is changed Hot systems are fused salt heat supply network water heater, and the outlet of the high-temperature molten salt entrance and salt storage tank of fused salt heat supply network water heater connects It connects, the low-temperature molten salt outlet of fused salt heat supply network water heater is connect with low-temperature molten salt storage tank;The hot net water of fused salt heat supply network water heater Entrance is connect with the heat supply network water out of heat supply network water heater;The heat supply network water out and hot net water heating tube of fused salt heat supply network water heater Road connection.
Preferably, the condenser connection in the drain port and Steam Turbine of heat supply network water heater;
Steam drain connection on the steam port and Steam Turbine of condenser, the condensation water out and condensed water water pump of condenser Entrance is connected, and the outlet of condensed water water pump is divided into two, wherein one is connected with low-pressure heater group, Ling Yizhi through the 7th valve Fused salt condensation water heater is connected with through the 6th valve;
The high-temperature molten salt entrance of fused salt condensation water heater is connect with salt storage tank;Fused salt condensation water heater it is low Temperature molten salt outlet is connect with low-temperature molten salt storage tank;
The condensed water in high temperature outlet of fused salt condensation water heater is connected with oxygen-eliminating device.
Preferably, the high-temperature molten salt outlet of salt storage tank is provided with heat release pump, wherein the outlet of heat release pump is divided into two Zhi Zhilu a, wherein branch is connect by the first valve with fused salt heat supply network water heater;Another branch by third valve with The connection of fused salt condensation water heater.
Preferably, the heat supply network water out of heat supply network water heater bifurcates pipeline, wherein a bye-pass is connect with heat-exchange system, The 5th valve is provided on its connecting line;Another bye-pass is connect with hot net water heat supplying pipeline, is provided on connecting line 4th valve.
Preferably, Steam Turbine includes steam turbine high-pressure cylinder, Steam Turbine Through IP Admission and turbine low pressure cylinder, wherein steamer The exhaust vent of machine intermediate pressure cylinder is connected with the steam inlet of turbine low pressure cylinder;The communicating pipe is upper and is placed in the upstream of steam tune valve It is provided with low-pressure pumping steam pipeline, which is connect by low-pressure pumping steam valve with heat network system.
Preferably, the steam inlet of steam turbine high-pressure cylinder is connected with the main-steam outlet of boiler, the steaming of steam turbine high-pressure cylinder Vapor outlet is connected with the cold reheated steam entrance of boiler, and the reheated steam outlet of boiler is connected with the entrance of Steam Turbine Through IP Admission;
The feed-water intake of boiler is connected with high-pressure heater group, and the feed-water intake of high-pressure heater group is connected by feed pump There is the condensation water out of oxygen-eliminating device.
Preferably, it is provided with reheated steam bleed steam pipework on boiler and the reheated steam pipeline of Steam Turbine Through IP Admission, this is again The reheated extraction valve of hot steam pipeline is connect with fused salt hold over system.
Compared with prior art, the beneficial effects of the present invention are:
A kind of thermoelectricity decoupled system with heat accumulation provided by the invention, by being set on the reheated steam pipeline of Steam Turbine It is equipped with branch connection fused salt heat reservoir, the thermal energy that steam turbine is generated when higher generation load is run is carried out by fused salt Heat accumulation can supplement heat using fused salt heat release when steam turbine needs to carry out underload peak regulation, and steam turbine power generation power declines Net heat supply solves the fired power generating unit with heat supply, generated energy and heating load cannot be met simultaneously by existing to realize that thermoelectricity decouples Regulatory demand the problem of;And then it is of great significance to the flexibility and energy-saving and emission-reduction that improve thermal power plant unit.
Further, during steam turbine fast lifting load, high-temperature molten salt heat-setting water can also be utilized, with The steam extraction amount for reducing low-pressure heater group, so that steam turbine power generation load be made to be promoted rapidly.
Detailed description of the invention
Fig. 1 is thermoelectricity decoupling system structure diagram of the present invention;
Wherein, 1, salt storage tank 2, heat release pump the 3, first valve 4, fused salt heat supply network water heater 5, low-temperature molten salt Storage tank 6, storage heat pump 7, fused salt storage heater 9, third valve 10, fused salt condensation water heater 11, heat supply network water heater 12, the 4th valve 13, the 5th valve 15, condenser 16, condensed water water pump 17, the 6th valve 18, oxygen-eliminating device the 19, the 7th Valve 20, low-pressure heater group 21, low pressure regenerative steam pipe 22, feed pump 23, high-pressure heater group 24, high-pressure extraction Extraction steam pipe 25, boiler 26, steam turbine high-pressure cylinder 27, reheating extraction valve 28, Steam Turbine Through IP Admission 29, low pressure (LP) cylinder steam enter Mouth valve 30, low-pressure pumping steam valve 31, turbine low pressure cylinder.
Specific embodiment
With reference to the accompanying drawing, the present invention is described in more detail.
As shown in Figure 1, a kind of thermoelectricity decoupled system with heat accumulation provided by the invention, including salt storage tank 1, heat release Pump the 2, first valve 3, fused salt heat supply network water heater 4, low-temperature molten salt storage tank 5, storage heat pump 6, fused salt storage heater 7, third valve Door 9, fused salt condensation water heater 10, heat supply network water heater 11, the 4th valve 12, the 5th valve 13, condenser 15, condensed water water Pump the 16, the 6th valve 17, oxygen-eliminating device 18, the 7th valve 19, low-pressure heater group 20, low pressure regenerative steam pipe 21, feed pump 22, High-pressure heater group 23, boiler 25, steam turbine high-pressure cylinder 26, reheating extraction valve 27, is pressed in steam turbine at high-pressure extraction extraction steam pipe 24 Cylinder 28, low pressure (LP) cylinder steam inlet valve 29, low-pressure pumping steam valve 30 and turbine low pressure cylinder 31;
Wherein, low-temperature molten salt storage tank 5 is connect by fused salt storage heater 7 with salt storage tank 1, forms the storage of fused salt Thermal process;Wherein, the reheated steam entrance in fused salt storage heater 7 and steam turbine reheated steam piping connection, fused salt accumulation of heat The low-temperature molten salt in reheated steam and low-temperature molten salt storage tank 5 in heater 7 carries out heat exchange, and obtained high-temperature molten salt enters In salt storage tank 1, and reheated steam condenses into hydrophobic enter in oxygen-eliminating device 18 due to release heat.
A branch pipe, the outlet of the branch pipe are provided on communicating pipe between Steam Turbine Through IP Admission 28 and turbine low pressure cylinder 31 It is connect by low-pressure pumping steam valve 30 with the steam inlet of heat supply network water heater 11, the heat supply network water out and heat of heat supply network water heater 11 Net connection, meanwhile, the hydrophobic outlet of heat supply network water heater 11 is connect with the hydrophobic entrance of condenser 15, forms the heating tube of heat supply network Road.
Meanwhile the heat supply network water out of heat supply network water heater 11 is divided into two branches, wherein a branch by the 4th valve 12 with Heat supply network connection;Another branch is connect by the 5th valve 13 with the heat supply network water inlet on fused salt heat supply network water heater 4, fused salt heat supply network Heat supply network water out on water heater 4 is connect with heat supply network;
Meanwhile the high-temperature molten salt in salt storage tank 1 passes sequentially through heat release pump 2 and the first valve 3 enters fused salt heat In net water heater 4, heat exchange is carried out with the hot net water not up to standard of the temperature in fused salt heat supply network water heater 4, it is molten after heat release Salt enters in low-temperature molten salt storage tank 5 by the fused salt outlet on fused salt heat supply network water heater 4;The pipeline is when steam turbine needs Underload peak regulation, generated output decline are carried out, low-pressure pumping steam amount is insufficient for the heating load demand of heat supply network water heater 11 When complementary heating pipeline.
The steam drain of turbine low pressure cylinder 31 is connected with the steam port on condenser 15, the condensation water out on condenser 15 It is connected with 16 entrance of condensed water water pump, the outlet of condensed water water pump 16 is divided into two, wherein one through the 7th valve 19 and low pressure The condensation water inlet of heater group 20 is connected, the condensation water inlet of another Zhi Jing six valve 17 and fused salt condensation water heater 10 It is connected;
The condensation water out of low-pressure heater group 20 is connected with the condensation water inlet of oxygen-eliminating device 18, meanwhile, low-pressure heater The low pressure regenerative steam of group 20 is extracted from turbine low pressure cylinder;
The condensation water out of fused salt condensation water heater 10 is connected with the condensation water inlet of oxygen-eliminating device 18;
Meanwhile 2 outlet of heat release pump is provided with a branch, which passes through third valve 9 and fused salt condensation water heater 10 On the connection of fused salt entrance, the fused salt outlet on fused salt condensation water heater 10 is connect with low-temperature molten salt storage tank 5;The pipeline passes through Fused salt heat release makes steam turbine fast lifting load.
The condensation water out of oxygen-eliminating device 18 is connected with the entrance of feed pump 22, the outlet and high-pressure heater group of feed pump 22 23 feed-water intakes are connected, and the feedwater outlet of high-pressure heater group 23 is connected with the feed-water intake of boiler 25, the main steam of boiler 25 Outlet is connected with the steam inlet of steam turbine high-pressure cylinder 26, and the steam (vapor) outlet of steam turbine high-pressure cylinder 26 and the cold reheating of boiler 25 are steamed Vapour entrance is connected, and the reheated steam outlet of boiler 25 is connected with the entrance of Steam Turbine Through IP Admission 28, the row of Steam Turbine Through IP Admission 28 Vapor outlet is connected with the steam inlet of turbine low pressure cylinder 31;Meanwhile Steam Turbine Through IP Admission 28 and turbine low pressure cylinder 31 it Between communicating pipe on have steam tune valve 29.
The course of work of the invention are as follows:
When steam turbine is when higher generation load is run, fused salt carries out heat accumulation process, utilizes steam turbine reheated steam It heats low-temperature molten salt and carries out accumulation of heat, storage heat pump extracts low-temperature molten salt out from low-temperature molten salt storage tank 5, adds through fused salt storage heater 7 It is sent after heat to salt storage tank 1, reheated steam becomes hydrophobic after heat release condensation in fused salt storage heater and sends to oxygen-eliminating device 18。
When steam turbine power generation duty ratio is higher, extracted steam from turbine heat capacity is stronger, from steam turbine, low pressure The low-pressure steam that conduit pipe extracts sends to heat supply network water heater 11, after heat supply network return water is heated to rated temperature in heater 11 Heat supply network heat supply is sent back to through valve 12.
When steam turbine needs to carry out underload peak regulation, and steam turbine power generation power declines, heat supply network is supplemented using fused salt heat release Thermoelectricity decoupling is realized in heat supply.At this time, the steam extraction amount of the low-pressure pumping steam pipeline through valve 30 is reduced, and is insufficient for hot net water and is added The heating load demand of hot device 11, heat supply network requirement is not achieved in the heat supply network coolant-temperature gage come out from heat supply network water heater 11, at this point, opening Valve 13, close valve 12, make from heat supply network water heater 11 come out hot net water using fused salt heat supply network water heater 4 carry out into The heating of one step, temperature are increased to send after the temperature of heat supply network requirement to heat supply network heat supply, and at the same time, heat release pumps 2 from high-temperature molten salt Extracting high-temperature fused salt send to fused salt heat supply network water heater 4 and carries out heat release in storage tank 1, and the fused salt after heat release is sent to low-temperature molten salt storage tank 5。
When power grid needs steam turbine fast lifting load, make steam turbine fast lifting load using fused salt heat release. Due to the hysteresis quality of station boiler Load Regulation, can not quickly provide bigger steam flow makes steam turbine power generation power ascension, At this point, opening valve 17, valve 19 is turned down, reduces the condensing water flow for flowing through low-pressure heater group 20, to quickly reduce low Press the flow of regenerative steam 21, it is meant that the regenerative steam amount extracted from turbine low pressure cylinder is reduced rapidly, to flow through vapour The acting steam flow of turbine low pressure (LP) cylinder increases rapidly, and steam turbine power generation load is promoted rapidly.And it is solidifying to be sent to fused salt through valve 17 The condensed water for bearing water heater 10 is sent after being heated by fused salt to oxygen-eliminating device, to ensure that the condensing water temperature for being sent into oxygen-eliminating device Stablize.In the process, the extracting high-temperature fused salt from salt storage tank 1 of heat release pump 2, send to fused salt condensed water through valve 9 and adds Hot device 10 carries out heat release, and low-temperature molten salt returns to low-temperature molten salt storage tank after heat release.
Subordinate list is the major parameter of the heating system used in this example, and the present invention does not make restriction to this parameter, this The concrete application of patent can be adjusted because of the parameter of practical power plant difference.
Subordinate list heating system major parameter table
Power plant's capacity 600000 kW
Area of heat-supply service 5600000 m2
Salt storage tank volume 18000m3
Low-temperature molten salt tank volume 16000m3
High-temperature molten salt heat accumulation temperature 430℃
Low-temperature molten salt temperature 180℃
Heat supply network return water temperature 38~44 DEG C
Heat supply network water flow 6000t/h
Reheat steam temperature 540℃
Heat supply extraction pressure 0.5~0.8MPa

Claims (8)

1. a kind of thermoelectricity decoupled system with heat accumulation, which is characterized in that the reheated steam extraction steam pipe including Steam Turbine is arranged in The fused salt heat reservoir of road, wherein fused salt heat reservoir is connect by heat-exchange system with heat network system;
Fused salt heat reservoir includes low-temperature molten salt storage tank (5), fused salt storage heater (7) and salt storage tank (1), wherein The reheated steam entrance of fused salt storage heater (7) and the reheated steam bleed steam pipework of Steam Turbine connect, fused salt accumulation of heat heating The high-temperature molten salt outlet of device (7) is connect with salt storage tank (1), the high-temperature molten salt outlet and heat exchange of salt storage tank (1) System connection;The low-temperature molten salt outlet of heat-exchange system is connect with low-temperature molten salt storage tank (5);
Heat network system includes heat supply network water heater (11) and hot net water heat supplying pipeline, wherein the low pressure of heat supply network water heater (11) The heat supply network water out of the low-pressure pumping steam piping connection of heating steam inlet and Steam Turbine, heat supply network water heater (11) is divided into two pipes Road, a pipeline are connect with hot net water heat supplying pipeline, another pipeline is connect by heat-exchange system with hot net water heat supplying pipeline.
2. a kind of thermoelectricity decoupled system with heat accumulation according to claim 1, which is characterized in that heat-exchange system is fused salt heat The high-temperature molten salt entrance of net water heater (4), fused salt heat supply network water heater (4) is connect with the outlet of salt storage tank (1), is melted The low-temperature molten salt outlet of salt heat supply network water heater (4) is connect with low-temperature molten salt storage tank (5);The heat of fused salt heat supply network water heater (4) Net water inlet is connect with the heat supply network water out of heat supply network water heater (11);Its heat supply network water out is connect with hot net water heat supplying pipeline.
3. a kind of thermoelectricity decoupled system with heat accumulation according to claim 1, which is characterized in that heat supply network water heater (11) Drain port and Steam Turbine in condenser (15) connection;
Steam drain connection on the steam port and Steam Turbine of condenser (15), the condensation water out and condensed water of condenser (15) Water pump (16) entrance be connected, the outlet of condensed water water pump (16) is divided into two, wherein one be connected with through the 7th valve (19) it is low It presses heater group (20), another six valve of Zhi Jing (17) is connected with fused salt condensation water heater (10);
The high-temperature molten salt entrance of fused salt condensation water heater (10) is connect with salt storage tank (1);Fused salt condensation water heater (10) low-temperature molten salt outlet is connect with low-temperature molten salt storage tank (5);
The condensed water in high temperature outlet of fused salt condensation water heater (10) is connected with oxygen-eliminating device (18).
4. a kind of thermoelectricity decoupled system with heat accumulation according to claim 3, which is characterized in that salt storage tank (1) High-temperature molten salt outlet be provided with heat release pump (2), wherein the outlet of heat release pump (2) is divided into two branches, wherein branch is logical The first valve (3) is crossed to connect with fused salt heat supply network water heater (4);Another branch is added by third valve (9) with fused salt condensed water Hot device (10) connection.
5. a kind of thermoelectricity decoupled system with heat accumulation according to claim 1, which is characterized in that heat supply network water heater (11) Heat supply network water out and heat-exchange system between connecting line on be provided with the 5th valve (13);The heat of heat supply network water heater (11) The 4th valve (12) is provided on connecting line between net water out and hot net water heat supplying pipeline.
6. a kind of thermoelectricity decoupled system with heat accumulation according to claim 1, which is characterized in that Steam Turbine includes steamer Machine high pressure cylinder (26), Steam Turbine Through IP Admission (28) and turbine low pressure cylinder (31), wherein the steam discharge of Steam Turbine Through IP Admission (28) goes out Mouth is connected with the steam inlet of turbine low pressure cylinder (31);Between Steam Turbine Through IP Admission (28) and turbine low pressure cylinder (31) There is steam tune valve (29) on communicating pipe, go up the communicating pipe and the upstream for being placed in steam tune valve (29) is provided with low-pressure pumping steam pipeline, The low-pressure pumping steam pipeline is connect by low-pressure pumping steam valve (30) with heat network system.
7. a kind of thermoelectricity decoupled system with heat accumulation according to claim 6, which is characterized in that steam turbine high-pressure cylinder (26) Steam inlet be connected with the main-steam outlets of boiler (25), the steam (vapor) outlet of steam turbine high-pressure cylinder (26) is cold with boiler (25) Reheated steam entrance is connected, and the reheated steam outlet of boiler (25) is connected with the entrance of Steam Turbine Through IP Admission (28);
The feed-water intake of boiler (25) is connected with high-pressure heater group (23), and the feed-water intake of high-pressure heater group (23) is by giving Water pump (22) is connected with the condensation water out of oxygen-eliminating device (18).
8. a kind of thermoelectricity decoupled system with heat accumulation according to claim 7, which is characterized in that boiler (25) and steam turbine It is provided with reheated steam bleed steam pipework on the reheated steam pipeline of intermediate pressure cylinder (28), the reheated extraction valve of reheated steam pipeline (27) it is connect with fused salt hold over system.
CN201811003351.2A 2018-08-30 2018-08-30 A kind of thermoelectricity decoupled system with heat accumulation Pending CN109139151A (en)

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CN112983565A (en) * 2021-02-19 2021-06-18 西安热工研究院有限公司 Thermal power generating unit steam extraction auxiliary frequency modulation peak regulation system based on heat storage
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CN115013100A (en) * 2022-06-10 2022-09-06 西安交通大学 Coupling steam jet condensation heat storage cogeneration unit flexible regulation and control system and method
CN115417467A (en) * 2022-08-31 2022-12-02 华能国际电力股份有限公司 Hydrothermal electricity cogeneration system based on heat storage device and operation method

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20110198285A1 (en) * 2010-02-17 2011-08-18 Katana Energy Llc Zero Discharge Water Desalination Plant With Minerals Extraction Integrated With Natural Gas Combined Cycle Power Generation
CN205779054U (en) * 2016-05-19 2016-12-07 华电电力科学研究院 A kind of hold over system for the double peak regulation of thermal power plant electric power heating power
CN107542507A (en) * 2017-07-14 2018-01-05 同济大学 Fired power generating unit load instruction quick response device based on low-quality heat recovery

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20110198285A1 (en) * 2010-02-17 2011-08-18 Katana Energy Llc Zero Discharge Water Desalination Plant With Minerals Extraction Integrated With Natural Gas Combined Cycle Power Generation
CN205779054U (en) * 2016-05-19 2016-12-07 华电电力科学研究院 A kind of hold over system for the double peak regulation of thermal power plant electric power heating power
CN107542507A (en) * 2017-07-14 2018-01-05 同济大学 Fired power generating unit load instruction quick response device based on low-quality heat recovery

Cited By (21)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109854313A (en) * 2019-03-11 2019-06-07 西安交通大学 A kind of flexible coal generating system and operation method
CN109854313B (en) * 2019-03-11 2020-03-24 西安交通大学 Flexible coal-fired power generation system and operation method
US10968784B2 (en) 2019-03-11 2021-04-06 Xi'an Jiaotong University Flexible coal-fired power generation system and operation method thereof
CN110761859A (en) * 2019-11-08 2020-02-07 河南九域恩湃电力技术有限公司 Inclined temperature layer heat storage peak regulation system and peak regulation method based on low-pressure heating loop
CN110761859B (en) * 2019-11-08 2022-04-22 河南九域恩湃电力技术有限公司 Inclined temperature layer heat storage peak regulation system and peak regulation method based on low-pressure heating loop
CN111271750A (en) * 2020-03-18 2020-06-12 青岛达能环保设备股份有限公司 Coal fired power plant frequency modulation peak shaving system based on heat accumulator
CN111271750B (en) * 2020-03-18 2024-02-20 青岛达能环保设备股份有限公司 Coal-fired power plant frequency modulation peak shaving system based on heat accumulator
CN111255534A (en) * 2020-03-31 2020-06-09 西安西热节能技术有限公司 Steam storage peak regulation system and method applied to industrial steam supply system of coal-fired unit
CN111255534B (en) * 2020-03-31 2024-06-11 西安西热节能技术有限公司 Steam storage peak regulation system and method applied to industrial steam supply system of coal-fired unit
CN112983565A (en) * 2021-02-19 2021-06-18 西安热工研究院有限公司 Thermal power generating unit steam extraction auxiliary frequency modulation peak regulation system based on heat storage
CN113153465A (en) * 2021-04-30 2021-07-23 中国电力工程顾问集团西北电力设计院有限公司 Heat supply and power generation decoupling method and system for improving peak regulation capacity of heat supply unit
CN113153465B (en) * 2021-04-30 2023-08-22 中国电力工程顾问集团西北电力设计院有限公司 Heat supply and power generation decoupling method and system for improving peak regulation capacity of heat supply unit
CN113187570A (en) * 2021-05-26 2021-07-30 华能(广东)能源开发有限公司海门电厂 Double-extraction industrial steam supply system and method based on heat storage tank
CN113408904A (en) * 2021-06-21 2021-09-17 西安热工研究院有限公司 Fused salt reserve calculation method for deep peak shaving of fused salt heat storage auxiliary thermal power generating unit
CN113586185A (en) * 2021-09-13 2021-11-02 西安交通大学 Coal-fired boiler flue gas and steam combined heat storage deep peak regulation system and operation method
CN113623032A (en) * 2021-09-13 2021-11-09 西安交通大学 Coal-fired boiler flue gas heat storage and power generation integrated system and operation method
CN114060110A (en) * 2021-11-16 2022-02-18 西安热工研究院有限公司 Bypass heating heat cascade utilization system and method capable of supplying black start power supply
CN114483216A (en) * 2022-03-18 2022-05-13 吉林省众鑫能源服务有限公司 Inverse heat transfer device for 'water-molten salt-steam' and application method thereof
CN115013100A (en) * 2022-06-10 2022-09-06 西安交通大学 Coupling steam jet condensation heat storage cogeneration unit flexible regulation and control system and method
CN115417467A (en) * 2022-08-31 2022-12-02 华能国际电力股份有限公司 Hydrothermal electricity cogeneration system based on heat storage device and operation method
CN115417467B (en) * 2022-08-31 2024-03-19 华能国际电力股份有限公司 Water-heat cogeneration system based on heat storage device and operation method

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Application publication date: 20190104