CN209605253U - 300MW and ratings above wet type cooling unit high back pressure and heat pump united heating system - Google Patents

Abstract

The utility model discloses 300MW and ratings above wet type cooling unit high back pressure and heat pump united heating systems, the heating system includes high back pressure condenser, heat pump unit, peak load calorifier, 1# unit, 2# unit, feed pump turbine and small turbine, heating water return pipeline is connect by pipeline with the water inlet of high back pressure condenser, and heating return water carries out level-one heating in high back pressure condenser；The water outlet of high back pressure condenser is connected by pipeline and the water inlet of heat pump unit, and heating return water carries out second level heating in heat pump unit；The water outlet of heat pump unit is connected by the water inlet of pipeline and peak load calorifier.By the rational design to heat pump process, feed pump turbine exhausted spare heat or subsidiary engine cooling water heat effectively reduce the dosage of high-grade steam, expand external heat capacity as low order heat source for heat pump, and runing adjustment is flexible, and efficiency of energy utilization is high.

Description

300MW and ratings above wet type cooling unit high back pressure and heat pump united heating system

Technical field

The utility model relates to low-grade industrial exhaust heats to utilize technical field, especially 300MW and the clammy machine of ratings above Group high back pressure and heat pump united heating system.

Background technique

High back pressure circulating water heating technology is to improve the pressure of steam exhaust in condenser, the vacuum degree of reduction condenser, mention Condenser is changed to the heat supply network heater of heating system by high coolant water temperature, and the recirculated water of heat supply network is directly used as cooling water, The vaporization potentiality heat cycles water for making full use of condensing-type unit steam discharge, is reduced to zero for cold source energy, to improve unit Thermal efficiency of cycle.Using this method heat supply, under the premise of not increasing unit generation capacity, reduces heat supply steam extraction amount, increases Area of heat-supply service, remarkable in economical benefits.

From the point of view of the current domestic system parameter using low vacuum circulating water heating technology, since steam turbine is transported steadily in the long term Exhaust temperature is not higher than 80 DEG C of limitation when row, considers condenser terminal difference, the recirculated water leaving water temperature of Heat Supplying with Low Vacuum is generally not Higher than 75 DEG C, supply water temperature range be generally 60-75 DEG C, return water temperature range be generally 40-55 DEG C, corresponding operation back pressure is 25-45kPa。

The steam discharge of the feed pump turbine of conventional 300MW and ratings above wet type cooling unit is directly discharged into main condenser, so Cooling cycle is carried out by the recirculated water of water tower afterwards, the driving steam of feed pump turbine is that the 0.5MPa or more of main steam turbine is pressed The steam extraction of power.For high back pressure thermal power plant unit, if using same steam supply and the type of cooling, non-heating period, i.e. pure condensate Operating condition can run as low back pressure routine pure condensate unit, will not be influenced by any factor, but arrived Heating Period, i.e. highback Press operating condition, heat supply will be carried out using high back pressure, due to the raising of main steam turbine back pressure will lead to feed pump turbine into vapour pressure Power and corresponding exhaust steam pressure increase, and the power output of feed pump turbine will reduce, the revolving speed of feed pump turbine itself Deviate design value, cause vibration to aggravate, influence unit safety operation, Tong Liao area must be carried out to feed pump turbine at this time, Whole high-low pressure nozzles, rotor, partition are replaced, this not only adds the workloads of dismounting components, unit safety operation is influenced, Also add a large amount of investment.

At this stage, clammy fired power generating unit high back pressure transformation problems faced has, first, feed pump turbine exhaust steam pressure without The problem of method matches, needs to be transformed small machine ontology and corresponding pipeline, more exchanging rotor or the individual condenser of increase；The Two, feed pump turbine ontology and corresponding pipeline are transformed, Heating Season and non-heating season need replacing rotor, project amount compared with Greatly, investment is larger, and needs small machine vapour source being adjusted to high pressure cylinder steam discharge, reduces unit cycle efficieny；Third, setting are special Feed pump turbine condenser, counter investment is larger, system complex, and small machine steam exhaust can not utilize, and the 4th, it is existing For wet type cooling unit subsidiary engine cooling water heat temperature generally at 30-40 DEG C, grade is lower, it is difficult to directly utilize.

Utility model content

The purpose of the utility model is to provide 300MW and ratings above wet type cooling unit high back pressures and heat pump united heat supply system System, to solve 300MW at this stage and ratings above wet type cooling unit tow taste heat can not directly utilize, the transformation of unit high back pressure with The technical problems such as feed pump turbine exhaust steam pressure can not match, energy utilization rate is low.

To achieve the above objectives, the present invention adopts the following technical solutions: the utility model on the one hand provide 300MW and Ratings above wet type cooling unit high back pressure and heat pump united heating system, the heating system include high back pressure condenser, heat pump machine Group, peak load calorifier, 1# unit, 2# unit, feed pump turbine and small turbine, heating water return pipeline pass through pipeline and highback The water inlet connection of condenser is pressed, heating return water carries out level-one heating in high back pressure condenser；

The water outlet of high back pressure condenser is connected by pipeline and the water inlet of heat pump unit, and heating return water is in heat pump unit Interior progress second level heating；

The water outlet of heat pump unit is connected by the water inlet of pipeline and peak load calorifier；Heating return water is in peak load calorifier Interior progress three-level heating；The driving heat source of heat pump unit is the high-grade steam in extraction for heat supply main pipe, and low level heat energy is water supply Pump steam turbine exhaust heat；

The water outlet of peak load calorifier connects heating water supply line, and the driving heat source of peak load calorifier is small steam turbine exhaust steam Or the high-grade steam in extraction for heat supply main pipe.(heating return water is finally heated to after supply water temperature and is supplied water by heating Pipeline sends out steam power plant.

Further, it is arranged between the pipeline of high back pressure condenser water inlet and the pipeline of high back pressure condenser water outlet There is the first bypass pipe；The first by-passing valve is additionally provided on first bypass pipe.

Further, 300MW and ratings above wet type cooling unit, one has carried out high back pressure transformation, and another is normal back pressure.

Further, 300MW and ratings above wet type cooling unit, feed pump are dragged with steam turbine.

Further, the driving heat source of high back pressure condenser is 1# unit 25-45 kPa steam exhaust.

Further, the heating water supply water temperature of peak load calorifier water outlet is less than or equal to 130 DEG C.

Further, small steam turbine exhaust steam pressure is 0.11 MPa-0.25MPa(absolute pressure).

Further, feed pump turbine exhaust steam pressure is 4.9-20kPa(absolute pressure).

Further, heat pump unit is absorption heat pump；The pipeline of absorption heat pump water inlet and the pipeline of water outlet Between be provided with the second bypass pipe；The second by-passing valve is provided on second bypass pipe.

Further, heat pump unit includes compression heat pump and surface exchanger；The driving heat source of compression heat pump is steam extraction High-grade steam in heat supply main pipe, the low level heat energy of compression heat pump are the steam exhaust of feed pump turbine discharge；

The heating return water that primary heating is completed in high back pressure condenser enters the water inlet of compression heat pump by pipeline, Compression heat pump water outlet is connected to by pipeline with the water inlet of surface exchanger, and the water outlet of surface exchanger passes through pipeline It is connected to the water inlet of peak load calorifier.

Further, is provided between the pipeline of compression heat pump water inlet and the pipeline of compression heat pump water outlet Three bypass pipes；Third by-passing valve is additionally provided on third bypass pipe.

Further, normal pressure condenser is provided between feed pump turbine and compression heat pump, in normal pressure condenser and pressure Partial circulating cooling water pump is provided between contracting formula heat pump, feed pump turbine exhausted spare heat is heated by normal pressure condenser through compressing Formula heat pump extracts the cooling circulating water after heat, recycles in cycles.

Further, heat pump unit includes compression heat pump and surface exchanger；The driving heat source of compression heat pump is steam extraction High-grade steam in heat supply main pipe, the low level heat energy of compression heat pump are auxiliary machine circulating cooling waters.

On the other hand the utility model provides 300MW and ratings above wet type cooling unit high back pressure and heat pump united heat supply system System, including high back pressure condenser, heat pump unit, peak load calorifier, 1# unit, 2# unit feed pump turbine and small turbine； Heating water return pipeline is connect by pipeline with the water inlet of high back pressure condenser, and heating return water carries out one in high back pressure condenser Grade heating；High back pressure condenser water outlet is connected by pipeline and the water inlet of heat pump unit, and heating return water is in heat pump unit Carry out second level heating；The water outlet of heat pump unit is connected by the water inlet of pipeline and peak load calorifier, and heating return water is in spike Three-level heating is carried out in heater, the water outlet of peak load calorifier accesses heating water supply line；

Small steam turbine exhaust steam main line is provided with the first branch pipe and the second branch pipe, and steam discharge is sent into absorption type heat by the first branch pipe Pump, the driving heat source as absorption heat pump；

The driving heat source of peak load calorifier is the second branch pipe of the high-grade steam or small turbine in extraction for heat supply main pipe The steam discharge of submitting.

Further, bypath valve is provided on the first branch pipe and the second branch pipe.

The beneficial effects of the utility model are embodied in:

1, existing 300MW and ratings above wet type cooling unit, it is general that high back pressure transformation only is carried out to a wherein unit, separately One transformation that do not adjust, facing can not matching problem with feed pump turbine exhaust steam pressure.The utility model provide 300MW and Ratings above wet type cooling unit high back pressure and heat pump united heating system, pass through the rational design to heat pump process, feed pump Steam turbine exhaust heat or subsidiary engine cooling water heat effectively reduce the dosage of high-grade steam as low order heat source for heat pump, expand External heat capacity, runing adjustment is flexible, and efficiency of energy utilization is high.

2, by the way that using the steam discharge of small turbine as the driving steam of absorption heat pump, absorption heat pump runing time can To greatly prolong.

3, low level heat energy of the subsidiary engine cooling water heat as steam drive compression heat pump increases external heat capacity.

4, wet type cooling unit high back pressure and heat pump united heat supply are realized and are made full use of to low-grade heat source, are returned to heating Water has carried out step heating, reduces heat transfer process irreversible loss, and operating cost is low.

System provided by the utility model can sufficiently recycle feed pump turbine exhausted spare heat and subsidiary engine cooling water heat, Step heating, runing adjustment is flexible, and efficiency of energy utilization is high.

Other features and advantages of the utility model will illustrate in the following description, and partly from specification It becomes apparent, or is understood and implementing the utility model.The main purpose and further advantage of the utility model can lead to Scheme specifically noted in the description is crossed to be achieved and obtained.

Detailed description of the invention

The utility model is described in more detail with reference to the accompanying drawing.

Fig. 1 is the flow diagram of the utility model embodiment one.

Fig. 2 is the flow diagram of the utility model embodiment two.

Fig. 3 is the flow diagram of the utility model embodiment three.

Fig. 4 is the flow diagram of the utility model embodiment four.

Appended drawing reference: 1-1# unit, 2-2# unit, 3- small turbine, the first by-passing valve of 4-, the second by-passing valve of 5-, 6- Three by-passing valves, the 4th by-passing valve of 7-, the 5th by-passing valve of 8-, 9- high back pressure condenser, 10- absorption heat pump, the heating of 11- spike Device, 12- feed pump turbine, 13- compression heat pump, 14- surface exchanger, 15- partial circulating cooling water pump, 16- extraction for heat supply Main pipe.

Specific embodiment

The technical solution of the utility model is described in detail by the following examples, embodiment below is only exemplary , it is only capable of for explanation and illustration the technical solution of the utility model, and cannot be construed to technical solutions of the utility model Limitation.

300MW and ratings above wet type cooling unit, one has carried out high back pressure transformation, and another is normal back pressure.300MW and Ratings above wet type cooling unit, feed pump are dragged with steam turbine.

Embodiment 1

As shown in Figure 1,300MW and ratings above wet type cooling unit high back pressure and heat pump united heating system, including high back pressure Condenser 9, absorption heat pump 10, peak load calorifier 11,1# unit 1,2# unit 2, feed pump turbine 12 and small turbine 3.

Heat supply network supplies water after exchanging heat with the terminal temperature difference of thermal substation, by flowing back to steam power plant for hot water return line.Then Heating water return pipeline is connect by pipeline with the water inlet of high back pressure condenser 9, and heating return water carries out in high back pressure condenser 9 Level-one heating heats up；

The water outlet of high back pressure condenser 9 is connect by pipeline with the water inlet of absorption heat pump 10, absorption heat pump 10 The second bypass pipe is provided between the pipeline of water inlet and the pipeline of water outlet；The second bypass is provided on second bypass pipe Valve 5.Heating return water carries out the heating and continuous heating of second level in absorption heat pump 10；Absorption heat pump 10 is ultralow pressure steam Driving is greater than 0.11MPa(absolute pressure) more than.Different operating conditions of the high back pressure condenser 9 according to heat supply network return water temperature, reality When adjust its load.

Wherein, the low level heat energy of absorption heat pump 10 is 12 exhausted spare heat of feed pump turbine, exhaust steam pressure 4.9- 20kPa absolute pressure.Source is the high-grade steam in extraction for heat supply main pipe 16.The water outlet of absorption heat pump 10 by pipeline with The water inlet of peak load calorifier 11 connects, and heating return water carries out being less than after three-level heating in peak load calorifier 11 being equal to 130 DEG C of discharge temperature is sent out.

The water outlet access heating water supply line of peak load calorifier 11 simultaneously sends out steam power plant, recycles in cycles.Spike adds The driving heat source of hot device 11 is 3 steam discharge of 0.5Mpa or more high-grade steam or small turbine in extraction for heat supply main pipe 16.Small vapour 3 exhaust steam pressure of turbine is 0.11 MPa-0.25MPa(absolute pressure).

Specifically, the heat source of high back pressure condenser 9 is the 1 25kPa-45kPa steam exhaust of 1# unit.High back pressure condenser 9 is intake The first bypass pipe is provided between the pipeline of 9 water outlet of pipeline and high back pressure condenser at mouthful；It is also set on first bypass pipe It is equipped with normally closed first by-passing valve 4, when 9 failure of high back pressure condenser is exited and put into operation, the first by-passing valve 4 is opened.

It is provided with the 4th bypass pipe between extraction for heat supply main pipe 16 and peak load calorifier 11, is additionally provided on the 4th bypass pipe 4th by-passing valve 7.The 5th by-passing valve 8 is provided between extraction for heat supply main pipe 16 and small turbine 3.

Embodiment 2,300MW and ratings above wet type cooling unit high back pressure and heat pump united heating system, with embodiment 1, no It is with place, it is shown in Figure 2.Heat pump unit can be the absorption heat pump 10 of ultralow pressure driving, and driving heat source is small 3 steam discharge of steam turbine, exhaust steam pressure are 0.11 MPa-0.25MPa(absolute pressure)；Low level heat energy is 12 row of feed pump turbine Vapour, exhaust steam pressure are 4.9-20kPa(absolute pressure).

Heating water return pipeline is connect by pipeline with the water inlet of high back pressure condenser 9, and heating return water is in high back pressure condensing Level-one heating is carried out in device 9；9 water outlet of high back pressure condenser is connect by pipeline with the water inlet of absorption heat pump 10, heating Return water carries out second level heating in absorption heat pump 10；The water outlet of absorption heat pump 10 passes through pipeline and peak load calorifier 11 Water inlet connection, heating return water carry out three-level heating in peak load calorifier 11, and peak load calorifier 11 is finally by heating return pipe After road is heated to supply water temperature, steam power plant is sent out by heating water supply line, is recycled in cycles.

3 steam discharge main line of small turbine is provided with the first branch pipe and the second branch pipe, wherein steam discharge is sent by the first branch pipe to be inhaled Receipts formula heat pump 10, the driving heat source as absorption heat pump 10；The low level heat energy of absorption heat pump 10 is feed pump turbine 12 Steam discharge.The driving heat source of peak load calorifier 11 be extraction for heat supply main pipe 16 on high-grade steam or small turbine 3 through second The steam discharge that pipe is sent out.

Embodiment 3,300MW and ratings above wet type cooling unit high back pressure and heat pump united heating system, with embodiment 1, no It is with place, it is shown in Figure 3.Heat pump unit includes compression heat pump 13 and surface exchanger 14.Heating water return pipeline is logical It crosses pipeline to connect with the water inlet of high back pressure condenser 9, heating return water carries out level-one heating in high back pressure condenser 9；

9 water outlet of high back pressure condenser is connect by pipeline with the water inlet of heat pump unit internally compressed heat pump 13, is compressed The water outlet of formula heat pump 13 extracts steam drive pressure by the water inlet connection surface heat exchanger 14 of pipeline and surface exchanger 14 13 small turbine of contracting formula heat pump, 3 exhaust steam heat；

The water outlet of surface exchanger 14 is connect by pipeline with the water inlet of peak load calorifier 11；Heating return water is in spike Level Four heating is carried out in heater 11.The water outlet connection heating water supply line of peak load calorifier 11 simultaneously sends out steam power plant, week and Renew circulation.

The low level heat energy of compression heat pump 13 is the 4.9Kpa steam exhaust that feed pump turbine 12 is discharged, and driving heat source is steam extraction High-grade steam (steam of 0.5MPa or more) in heat supply main pipe 16.82 DEG C of 13 maximum water temperature of compression heat pump and with On, the steam discharge of steam drive compression heat pump 13 carries out surface exchanger 14 to be heated to 110 DEG C or more.

Specifically, being arranged between the pipeline of 13 water outlet of pipeline and compression heat pump of 13 water inlet of compression heat pump There is third bypass pipe；Third by-passing valve 6 is additionally provided on third bypass pipe.Between feed pump turbine 12 and compression heat pump 13 It is provided with normal pressure condenser, partial circulating cooling water pump 15, feed pump are provided between normal pressure condenser and compression heat pump 13 12 exhausted spare heat of steam turbine heats the cooling circulating water after compression heat pump 13 extracts heat, Zhou Erfu by normal pressure condenser Begin circulation.Partial circulating cooling water pump 15 is additionally provided between feed pump turbine 12 and compression heat pump 13.

Embodiment 4,300MW and ratings above wet type cooling unit high back pressure and heat pump united heating system, with embodiment 3, no It is with place, it is shown in Figure 4.The low level heat energy of compression heat pump 13 is 12 recirculated cooling water of feed pump turbine, driving Heat source is the high-grade steam (steam of 0.5MPa or more) in extraction for heat supply main pipe 16.13 maximum water temperature of compression heat pump 82 DEG C or more, the steam discharge of steam drive compression heat pump 13 carries out surface exchanger 14 to be heated to 110 DEG C or more.

In above-described embodiment 1-4, the heat pump unit may include: 82 DEG C of highest outlet temperature or more steam drive from The steam drive absorption heat pump 10 of heart compression heat pump 13 or 95 DEG C of highest outlet temperature or more.And wherein, time of heat supply network Water cascade and high back pressure condenser 9,82 DEG C of highest outlet temperature or more of steam drive centrifugal compression-type heat pump 13 or outlet temperature The steam drive absorption heat pump 10 and peak load calorifier 11 of 95 DEG C of degree or more exchange heat, and pass through after being heated to heat supply temperature Heat supply water supply line sends out steam power plant.Shut-off valve is provided in extraction for heat supply main pipe 16.

To sum up, the utility model is combined in steam power plant using high back pressure condenser 9, heat pump unit and peak load calorifier 11 Mode recycles the mode of the return water of steam power plant's waste heat and heat supply network of stepped heating, one side effective recycling steam power plant Cold end loss, efficiency of energy utilization is high, and various ways are heated in another aspect high back pressure, heat pump and steam extraction, and runing adjustment is flexible, from And system comprehensive energy utilization efficiency is improved, reduce heat cost.

The foregoing is merely the preferable specific embodiment of the utility model, but the protection scope of the utility model not office Be limited to this, variation that anyone skilled in the art is expected within the technical scope disclosed by the utility model or Replacement, should be covered within the scope of the utility model.

Claims (10)

1.300MW and ratings above wet type cooling unit high back pressure and heat pump united heating system, it is characterised in that: the heating system Including high back pressure condenser (9), heat pump unit, peak load calorifier (11), 1# unit (1), 2# unit (2), feed pump turbine (12) it is connect by pipeline with the water inlet of high back pressure condenser (9) with small turbine (3), heating water return pipeline, heating return water Level-one heating is carried out in high back pressure condenser (9)；

The water outlet of high back pressure condenser (9) is connected by pipeline and the water inlet of heat pump unit, and heating return water is in heat pump unit Interior progress second level heating；

The water outlet of heat pump unit is connect by pipeline with the water inlet of peak load calorifier (11)；Heating return water is in peak load calorifier (11) three-level heating is carried out in；The driving heat source of heat pump unit is the high-grade steam on extraction for heat supply main pipe (16), low level heat Source is feed pump turbine (12) exhausted spare heat；

The water outlet of peak load calorifier (11) connects heating water supply line, and the driving heat source of peak load calorifier (11) is small turbine (3) high-grade steam in steam discharge or extraction for heat supply main pipe (16).

2. 300MW as described in claim 1 and ratings above wet type cooling unit high back pressure and heat pump united heating system, feature It is, is provided between the pipeline of high back pressure condenser (9) water inlet and the pipeline of high back pressure condenser (9) water outlet Bypass line；The first by-passing valve (4) are additionally provided on first bypass pipe.

3. 300MW as claimed in claim 2 and ratings above wet type cooling unit high back pressure and heat pump united heating system, feature It is, the driving heat source of high back pressure condenser (9) is 1# unit (1) 25kPa-45kPa steam exhaust.

4. 300MW as described in claim 1 and ratings above wet type cooling unit high back pressure and heat pump united heating system, feature It is, the heating water supply water temperature of peak load calorifier (11) water outlet is less than or equal to 130 DEG C.

5. 300MW as described in claim 1 and ratings above wet type cooling unit high back pressure and heat pump united heating system, feature It is, small turbine (3) exhaust steam pressure is 0.11 MPa-0.25MPa.

6. 300MW as described in claim 1 and ratings above wet type cooling unit high back pressure and heat pump united heating system, feature It is, feed pump turbine (12) exhaust steam pressure is 4.9-20kPa.

7. 300MW as described in claim 1 and ratings above wet type cooling unit high back pressure and heat pump united heating system, feature It is, heat pump unit is absorption heat pump (10)；The pipeline of the pipeline of absorption heat pump (10) water inlet and water outlet it Between be provided with the second bypass pipe；The second by-passing valve (5) are provided on second bypass pipe.

8. 300MW as described in claim 1 and ratings above wet type cooling unit high back pressure and heat pump united heating system, feature It is, heat pump unit includes compression heat pump (13) and surface exchanger (14)；The driving heat source of compression heat pump (13) is to take out High-grade steam in vapour heat supply main pipe (16), the low level heat energy of compression heat pump (13) are feed pump turbine (12) discharges Steam exhaust；

The heating return water that primary heating is completed in high back pressure condenser (9) enters the water inlet of compression heat pump (13) by pipeline Mouthful, compression heat pump (13) water outlet is connected to by pipeline with the water inlet of surface exchanger (14), surface exchanger (14) Water outlet be connected to the water inlet of peak load calorifier (11) by pipeline.

9. 300MW as described in claim 1 and ratings above wet type cooling unit high back pressure and heat pump united heating system, feature It is, heat pump unit includes compression heat pump (13) and surface exchanger (14)；The driving heat source of compression heat pump (13) is to take out The low level heat energy of high-grade steam in vapour heat supply main pipe (16), compression heat pump (13) is auxiliary machine circulating cooling water.

10.300MW and ratings above wet type cooling unit high back pressure and heat pump united heating system, which is characterized in that including high back pressure Condenser (9), heat pump unit, peak load calorifier (11), 1# unit (1), 2# unit (2) feed pump turbine (12) and small steamer Machine (3)；Heating water return pipeline is connect by pipeline with the water inlet of high back pressure condenser (9), and heating return water is in high back pressure condensing Level-one heating is carried out in device (9)；High back pressure condenser (9) water outlet is connected by pipeline and the water inlet of heat pump unit, heating Return water carries out second level heating in heat pump unit；The water outlet of heat pump unit passes through the water inlet of pipeline and peak load calorifier (11) Connection, heating return water carry out three-level heating in peak load calorifier (11), and the water outlet access heating of peak load calorifier (11) supplies Waterpipe；

Small turbine (3) steam discharge main line is provided with the first branch pipe and the second branch pipe, and steam discharge is sent into absorption type heat by the first branch pipe It pumps (10), the driving heat source as absorption heat pump (10)；

The driving heat source of peak load calorifier (11) is the of the high-grade steam or small turbine (3) on extraction for heat supply main pipe (16) The steam discharge that two branch pipes are sent out.