CN201687674U - Focus-fixed trough-disc combination type solar thermal power generation device - Google Patents

Abstract

The utility model discloses a focus-fixed trough-disc combination type solar thermal power generation device and relates to the solar thermal power generation technology. The utility model comprises a trough-type thermal collection and storage subsystem, a disc-type thermal collection and storage subsystem and a power generation subsystem, wherein the trough-type thermal collection and storage subsystem and the disc-type thermal collection and storage subsystem are connected with the power generation subsystem respectively; a low-temperature heat exchanger of the trough-type thermal collection and storage subsystem and a high-temperature heat exchanger of the disc-type thermal collection and storage subsystem are mutually connected; and a parabolic disc reflector is a monaxial auto-tracking single or dual disc, and the focus of the reflector serves as a receiver and is fixed for heating and thermal insulation of a large-flow high-temperature fluid. The utility model adopts a trough-type solar thermal collection field with lower investment cost to heat the working substances at the low temperature section and a disc-type thermal collection field with higher investment cost to heat working substances at the high temperature section, so that higher power generation efficiency can be guaranteed, and the investment of a power plant can be reduced simultaneously.

Description

The trough-dish combined solar thermal electricity generating device that a kind of focus is fixing

Technical field

The utility model relates to a kind of solar energy thermal-power-generating technology, relates in particular to the fixing trough-dish combined solar thermal electricity generating device of a kind of focus.

Background technique

Different according to the position of focus lamp and focus point and transformation of energy mode, the solar energy thermal-power-generating technology that can realize the scale generating at present can be divided into three kinds of slot type, dish formula and tower systems.

1, trough type solar power generation system

The full name of trough type solar power generation system is a groove type paraboloid reflector solar heat power generation system.The groove type paraboloid reflector carries out one dimension to the sun to be followed the tracks of, and its optically focused is than between 40 to 80, and heat-collecting temperature generally is no more than 400 ℃, and its thermal-arrest focal line is fixed, thereby makes up the power generation system that realizes scale easily.The working principle of this power generation system is: only adopt parabolic flute profile minute surface heat collector to a direction bending with solar light focusing to the center heat collecting pipe that is positioned at focal line, heat transfer medium in the pipe is heated to about 390 ℃, again heated heat transfer medium is produced about 370 ℃ superheated vapor through heat exchanger, superheated vapor enters in the steam turbine and does work, drive generator for electricity generation, this is two circuit groove type solar power generation system.Direct employing water is also arranged in the DSG of the heat-absorbing medium of heat collecting pipe (directly producing steam) system, compare with double-circuit system, the DSG system has saved middle heat exchange link, improved the conversion efficiency of system, and reduced investment, but also there is the heat collecting pipe meeting in the DSG system because stress problems deforms and can cause permanent deformation or can cause the glass tube splintering problem, so use less.

The groove type solar generating is the solar energy thermal-power-generating technology the most ripe at present, that cost is minimum, and the slot type power station of how tame commercialized running is all arranged at US and European.Present subject matter is after system's heat-collecting temperature is higher than 400 ℃, and the peak value thermal efficiency sharply descends.Because its geometric concentrating ratio is low and the not restriction of high condition of heat-collecting temperature, make that the heat commentaries on classics effect rate of parabolic slot type solar heat power generation system medium power subtense angle is on the low side, about 35%, photoelectric transformation efficiency is usually less than 16% usually.Therefore, the simple difficulty of parabolic slot type solar heat power generation system aspect the further raising thermal efficiency, reduction cost of electricity-generating is bigger.

2, disc type solar energy heat generating system

The disc type solar energy heat generating system is the rotational paraboloid mirror that utilizes the double-shaft auto-tracking sunlight, with the incident solar ray collecting on focus, the solar receiver that is placed on the focus place is collected the heat energy of higher temperature, heating working medium, and small generator can be installed in the receiver rear portion.Sunlight is focused on the solar receiver, heats wherein about fluid to 800 ℃, promotes the micro-machine generating.In addition, also a plurality of dish can be formed a big system, heated fluid is concentrated in together by pipe network, promotes conventional Turbo-generator Set generating.

Because type of focusing difference, the focusing ratio of disc type solar energy heat generating can reach 3000, thereby running temperature reaches 900～1200 ℃.In three kinds of solar energy thermal-power-generating modes, the butterfly solar energy thermal-power-generating can reach the highest efficiency of heat engine, and photoelectric transformation efficiency can be up to 29%.

Existing at present many disc type solar energies demonstration power station and experimental power station put into operation, and its type mainly is the small generator system.Though dish formula system has higher generating efficiency, because cost of investment is higher, it is applied and is subjected to great restriction.The rotational paraboloid mirror of the double-shaft auto-tracking sunlight that particularly existing dish formula power generation system one general configuration focus moves, thereby be difficult to develop to scale generating direction.

2008, a demonstration project of India renewable energy sources portion successfully made up the fixing disc type solar energy of a kind of focus and has utilized system, was used to produce 650 ℃ steam and supplied with the kitchen and use, and the steam deliverability of every day reaches 3500kg～4000kg.Compare with the parabolic dish of routine, this dish formula collecting system adopts the fixing two dish system of focus, thereby no-rotary part, and reflector adopts different support systems with receiver, thereby the energy utilization of realization maximization easily; Reflector only need carry out the single shaft rotation.This dish formula kitchen system is that the maximization of disc type solar energy generating is had laid a good foundation.

3, tower-type solar thermal power generating system

Tower system is called centralized systems again, and its optical block is made up of many large-scale reflectors that are installed on the place, and these reflectors are commonly referred to heliostat.Every heliostat all is furnished with solar tracking mechanism, and the sun is carried out double-axis tracking, exactly the sunlight reflection is focused on the heat absorber of a high top of tower.The working principle of tower-type solar thermal power generating system is: through the solar energy collecting of heliostat reflection to the heat absorber of cat head, heat-transfer working medium absorbs heat in heat absorber behind the solar energy, be admitted to steam generation device, the superheated vapor that is produced is realized the hot merit conversion after entering power sub-system, finishes electric energy output.Usually between 200～1000, system's maximum operating temperature can reach 1500 ℃ to the optically focused ratio of tower system.

At present, the major obstacle of tower-type solar thermal power generating system is when the collector power of heliostat field increases, and after promptly the solar heat power generation system of single tower maximized, the thermal efficiency of heliostat field decreased.

Summary of the invention

The purpose of this utility model is to provide a kind of focus fixing trough-dish combined solar thermal electricity generating device, independent slot type power generation system heat-collecting temperature is not high to overcome, generating efficiency low and high, the difficult defective that maximizes of independent dish formula power generation system investment, give full play to the low high advantage of generating efficiency that reaches dish formula system of slot type power generation system cost of investment, realize the step heating of heat transfer medium, reduce the investment and the floor space of power generation system.Dish formula system adopts the fixing single or dual-platter system of focus (receiver), is convenient to realize the heating and the insulation of big flow high temperature fluid, for the scale generating creates conditions.

The purpose of this utility model is achieved in that

The disc type solar energy field that groove type solar field that cost of investment is minimum and generating efficiency are the highest is connected in series, and realizes the step heating to heat transfer medium, and slot type generating and the generating of dish formula are had complementary advantages.

The utility model is made of three subtense angles, i.e. slot type thermal-arrest and accumulation of heat subtense angle, dish formula thermal-arrest and accumulation of heat subtense angle and power generation sub-system.

Slot type thermal-arrest and accumulation of heat subtense angle comprise modular slot type heat collecting field, cryogenic heat exchanger and low-temperature heat accumulating device at least; The effect of slot type thermal-arrest and accumulation of heat subtense angle is to realize the low-temperature zone heating, the low-temperature zone heat transfer medium absorbs solar radiation energy in the slot type heat collecting field, enter heating working medium in the cryogenic heat exchanger after improving temperature, produce saturated vapour or, also can enter the low-temperature heat accumulating device and carry out the low temperature accumulation of energy with the steam of certain degree of superheat.

Dish formula thermal-arrest and accumulation of heat subtense angle comprise modular dish formula heat collecting field, high-temperature heat-exchanging and high-temperature heat accumulation field at least; The effect of dish formula thermal-arrest and accumulation of heat subtense angle is to realize the high temperature section heating, the high temperature section heat transfer medium absorbs solar radiation energy in dish formula heat collecting field, enter heating working medium in the high-temperature heat-exchanging after improving temperature, produce superheated vapor, also can enter the high-temperature heat accumulation device and carry out the high temperature accumulation of energy.

Power generation sub-system comprises steam turbine, generator, vapour condenser, oxygen-eliminating device and feed water pump at least.The effect of power generation sub-system is to utilize the superheated vapor work done in steam turbine that produces in the high-temperature heat-exchanging, and drives generator for electricity generation, the output electric energy.

Of the present utility model being characterised in that:

1, the slot type heat collecting field adopts the whole heat-collecting devcie of modular slot type to be assemblied to form; Dish formula heat collecting field adopts the whole heat-collecting devcie of modular dish formula to be assemblied to form.

2, the slot type heat collecting field adopts the secondary circuit scheme, utilizes heat-conducting medium to absorb the radiation energy of solar energy, utilizes heat-conducting medium heating working medium in cryogenic heat exchanger again; Heat-conducting medium can adopt conduction oil or fused salt.

Store unnecessary energy when 3, the low-temperature heat accumulating device of groove type solar field is used in solar radiation energy abundance, when the solar radiation energy shortage, thermal accumulator is emitted heat, remedies the deficiency of solar radiation energy; Heat storage medium in the low-temperature heat accumulating device can be selected porous medium filler+fused salts such as quartzite and siliceous sand for use.

4, dish formula heat collecting field adopts the secondary circuit scheme, utilizes heat-conducting medium to absorb the radiation energy of solar energy, utilizes heat-conducting medium heating working medium in high-temperature heat-exchanging again; Heat-conducting medium can adopt conduction oil or fused salt.

Store unnecessary energy when 5, the high-temperature heat accumulation device of disc type solar energy field is used in solar radiation energy abundance, when the solar radiation energy shortage, thermal accumulator is emitted heat, remedies the deficiency of solar radiation energy; Heat storage medium in the high-temperature heat accumulation device can be selected fused salt, phase change heat storage material or metal heat-accumulating material etc. for use.

6, the disc type solar energy field is for reflecting the dish single shaft from the fixing single or dual-platter system of motion tracking receiver.

7, the low-temperature heat accumulating device adopts single jar of regenerative system, and the high-temperature heat accumulation device adopts two jars of regenerative systems.

8, the vapor recycle of power generation sub-system adopts Rankine cycle.

Specifically, the utility model comprises slot type thermal-arrest and accumulation of heat subtense angle, dish formula thermal-arrest and accumulation of heat subtense angle and power generation sub-system;

Slot type thermal-arrest and accumulation of heat subtense angle are connected with power generation sub-system respectively with dish formula thermal-arrest and accumulation of heat subtense angle;

The high-temperature heat-exchanging of the cryogenic heat exchanger of slot type thermal-arrest and accumulation of heat subtense angle and dish formula thermal-arrest and accumulation of heat subtense angle interconnects.

The utlity model has following advantage and good effect:

1, the utility model is suitable for building large-scale solar heat power generation system, made full use of the advantage of slot type power generation system and dish formula power generation system, overcome shortcoming separately simultaneously, utilize the slot type heat collecting field to carry out the low-temperature zone heating of working medium, utilize the higher dish formula heat collecting field of heat-collecting temperature to carry out the high temperature section heating of working medium, realized the step heating of solar energy, can obtain the higher work done working medium of temperature, improved the generating efficiency of power generation system working medium.

2, the utility model has adopted the lower groove type solar heat collecting field of cost of investment to carry out the low-temperature zone heating of working medium, the higher dish formula heat collecting field of cost of investment then heats as the working medium of high temperature section, thereby can when guaranteeing higher generating efficiency, reduce the investment and the floor space of power plant.

3, the dish formula reflector in its dish formula thermal-arrest of the utility model and the accumulation of heat subtense angle adopts the fixing single or dual-platter of focus, the characteristics of its uniaxiality tracking have increased the reliability of system, the fixing characteristics of receiver (being focus) then make the maximization of system become possibility, for the maximization of Solar Energy Heat Utilization System is laid a good foundation.

4, its slot type heat collecting field of the utility model and dish formula heat collecting field all adopt modular scheme to carry out assembly unit to set up and to form, and the initial stage that this processing scheme both had been convenient to heat collecting field installs, and is convenient to the enlarging of heat collecting field and the enforcement of maintenance replacement work again.

5, the high-temperature heat accumulation device of the low-temperature heat accumulating device of its slot type thermal-arrest of the utility model and accumulation of heat subtense angle and dish formula thermal-arrest and accumulation of heat subtense angle is realized the storage to low temperature heat energy and high temperature heat respectively, the high-temperature heat accumulation device is used for working medium is carried out the heating of high temperature section, the low-temperature heat accumulating device is used for working medium is carried out the heating of low-temperature zone, classification storage and cascade utilization had both been realized to solar energy, again can be respectively the heat-accumulating material of low-temperature heat accumulating device and high-temperature heat accumulation device be optimized and chooses, reach the purpose of the investment that reduces regenerative system.

6, the utility model is according to the difference of thermal accumulator temperature levels, and the low-temperature heat accumulating device adopts the single pot-type regenerative system, can reduce the accumulation of heat investment greatly; The high-temperature heat accumulation device adopts the double-pot type regenerative system, to satisfy the purpose of high-temperature heat accumulation.

7, the utility model has successfully been realized the mutual supplement with each other's advantages of slot type system and dish formula system, both overcome the low shortcoming of independent slot type power generation system generating efficiency, overcome the shortcoming that independent dish formula power generation system is not easy to maximize again, made full use of the advantage that low advantage of slot type system cost of investment and the fixing dish formula system of focus are easy to maximize, heat-collecting temperature is high, realized higher generating efficiency, having reduced simultaneously the cost of investment of unit generated energy effectively, is a kind of very promising solar energy maximization thermal electric generator.

Description of drawings

Fig. 1 is a structural representation of the present utility model.

Wherein:

10-slot type thermal-arrest and accumulation of heat subtense angle,

11-parabola groove reflector, the 12-heat absorption tube, the 13-storage heater,

14-low-temperature heat accumulating device, the 15-cryogenic heat exchanger, 16-the 1st oil pump,

17-the 1st valve;

20-dish formula thermal-arrest and accumulation of heat subtense angle

21-parabolic dish reflector, the 22-receiver, the heat jar of 23-high-temperature heat accumulation device,

24-the 2nd oil pump, the 25-high-temperature heat-exchanging, the cold jar of 26-high-temperature heat accumulation device,

27-the 3rd oil pump, 28-the 2nd valve;

The 30-power generation sub-system,

The 31-temperature-decreased pressure reducer, the 32-steam turbine, the 33-generator,

The 34-vapour condenser, the 35-condensate pump, the 36-low-pressure heater,

The 37-oxygen-eliminating device, 38-feed water pump, 39-high-pressure heater.

Embodiment

Describe in detail below in conjunction with drawings and Examples.

One, system

As Fig. 1, the utility model comprises slot type thermal-arrest and accumulation of heat subtense angle 10, dish formula thermal-arrest and accumulation of heat subtense angle 20 and power generation sub-system 30;

Slot type thermal-arrest and accumulation of heat subtense angle 10 are connected with power generation sub-system 30 respectively with dish formula thermal-arrest and accumulation of heat subtense angle 20;

The high-temperature heat-exchanging 25 of the cryogenic heat exchanger 15 of slot type thermal-arrest and accumulation of heat subtense angle 10 and dish formula thermal-arrest and accumulation of heat subtense angle 20 interconnects.

Two, subtense angle

1, slot type thermal-arrest and accumulation of heat subtense angle 10

Slot type thermal-arrest and accumulation of heat subtense angle 10 comprise front and back parabola groove reflector 11, heat absorption tube 12, storage heater 13, low-temperature heat accumulating device 14, cryogenic heat exchanger 15, low-temperature heat accumulating device 14, storage heater the 13, the 1st oil pump the 16, the 1st valve 17 and the heat absorption tube 12 of closed loop connection successively.

2, dish formula thermal-arrest and accumulation of heat subtense angle 20

Cold jar of the 26, the 2nd oil pump the 27, the 2nd valve 28 of the heat of the parabolic dish reflector 21 that connects of closed loop, receiver 22, high-temperature heat accumulation device jars 23, oil pump 24, high-temperature heat-exchanging 25, high-temperature heat accumulation device and receiver 22 successively before and after dish formula thermal-arrest and accumulation of heat subtense angle 20 comprise.

3, power generation sub-system 30

Power generation sub-system 30 comprises temperature-decreased pressure reducer 31, steam turbine 32, generator 33, vapour condenser 34, condensate pump 35, low-pressure heater 36, oxygen-eliminating device 37, feed water pump 38 and high-pressure heater 39;

High-temperature heat-exchanging 25, temperature-decreased pressure reducer 31, steam turbine 32, vapour condenser 34, condensate pump 35, low-pressure heater 36, oxygen-eliminating device 37, feed water pump 38, high-pressure heater 39, cryogenic heat exchanger 15 and high-temperature heat-exchanging 25 front and back closed loop successively are connected;

Steam turbine 32 is connected with generator 33.

4, functional part explanation

(1) each functional part in above-mentioned three subtense angles is common components, and the listing product is all arranged, and can select for use as required.

(2) specific requirement

* the low-temperature heat accumulating device 14

Low-temperature heat accumulating device 14 adopts single jar of regenerative system of mesolimnion.

Low-temperature heat accumulating device 14 stores unnecessary energy when the solar radiation energy is sufficient; When the solar radiation energy shortage, emit heat, remedy the deficiency of solar radiation energy.

Low-temperature heat accumulating medium in the low-temperature heat accumulating device 14 is selected porous medium filler+fused salts such as quartzite and siliceous sand for use.

* heat absorption tube 12, receiver 22

The heat-conducting work medium of heat absorption tube 11 and receiver 22 adopts conduction oil or fused salt.

* cold jar 26 of the heat jars 23 of high-temperature heat accumulation device and high-temperature heat accumulation device

The heat jar 23 of high-temperature heat accumulation device and cold jar 26 of high-temperature heat accumulation device are formed the double-pot type regenerative systems, and its heat storage medium is selected conduction oil, fused salt, phase change heat storage material or metal heat-accumulating material etc. for use.

* parabolic dish reflector 21 and receiver 22

Parabolic dish reflector 21 adopts different support systems respectively with receiver 22;

Parabolic dish reflector 21 is a kind of single shaft single or dual-platters from motion tracking, and the fixing nothing of its focus is rotated, and with double-axis tracking scheme ratio, driving mechanism is simpler;

Receiver 22 is the focus of parabolic dish reflector 21, and the focus fixed character is convenient to the heating and the insulation of big flow high temperature fluid.

Three, working principle

Three system combined operations of son realize the conversion of solar energy and electric energy, the output electric energy.

Wherein, slot type thermal-arrest and accumulation of heat subtense angle 10 are relatively independent with dish formula thermal-arrest and accumulation of heat subtense angle 20.

Heat-absorbing medium in slot type thermal-arrest and the accumulation of heat subtense angle 10 passes to working medium with the solar heat that is absorbed in cryogenic heat exchanger 15, be stored in the low-temperature heat accumulating device 14 when solar radiation intensity is sufficient;

Heat-absorbing medium in dish formula thermal-arrest and the accumulation of heat subtense angle 20 passes to working medium with the solar heat that is absorbed in high-temperature heat-exchanging 25, be stored in the heat jar 23 of high-temperature heat accumulation device when solar radiation intensity is sufficient.

Working medium enters in cryogenic heat exchanger 15 and the high-temperature heat-exchanging 25 heat absorption successively with serial fashion, enters steam turbine 32 works done after becoming superheated vapor, drives generator 33 generatings.

Slot type thermal-arrest and accumulation of heat subtense angle 10 are used for work done working medium is carried out the low-temperature zone heating, produce saturated vapour or superheated vapor, also can enter low-temperature heat accumulating device 14 and carry out the low temperature accumulation of energy.Utilize the low-temperature heat accumulating device to store unnecessary energy when the solar radiation energy is sufficient, when the solar radiation energy shortage, the low-temperature heat accumulating device is emitted heat, remedies the deficiency of solar radiation energy.

Dish formula thermal-arrest and accumulation of heat subtense angle 20 are used for work done working medium is carried out the high temperature section heating, produce superheated vapor and output to power generation sub-system, also can enter the high-temperature heat accumulation device and carry out the high temperature accumulation of energy.When the solar radiation energy is sufficient, utilize the heat jar unnecessary energy of 23 storages of high-temperature heat accumulation device, when the solar radiation energy shortage, emit heat, remedy the deficiency of solar radiation energy for hot jar 23 of the high-temperature heat accumulation device.

Power generation sub-system 30 is used to realize the hot merit conversion, produces electric energy.Working medium tentatively heats in cryogenic heat exchanger, become saturated vapour or superheated vapor after, continue to enter and absorb heat in the high-temperature heat-exchanging, become the superheated vapor that conforms with quality after, can introduce work done in the steam turbine 32, drive motor 33 generatings.The steam discharge of steam turbine 32 condenses through vapour condenser 18, and after low-pressure heater 36, oxygen-eliminating device 37, high-pressure heater 39 heat step by step, enters cryogenic heat exchanger 15 again, finishes a working medium circulation of power generation sub-system 30.

Four, test and result of calculation

In order to set forth above embodiment's implementation process in more detail, when with the electromotive power output being 12MW, steam turbine employing water-cooled, the relevant parameter of present embodiment to be simulated, result of calculation sees Table 1.

Table 1

For further understanding the described embodiment's of the utility model Fig. 1 returns of investment situation, the contrast of relevant parameter has been carried out in itself and independent groove type solar generating and independent dish formula electricity generating plan.Comparable conditions is: generated output is identical; Solar radiation power is identical; The feed temperature of power system output is identical; The groove dish is identical with the superheated vapor parameter of independent dish formula power generation system in conjunction with the superheated vapor parameter of power generation system; The superheated vapor parameter of slot type power generation system is subjected to the restriction of slot type heat-collecting temperature separately, be lower than the superheated vapor parameter of groove dish in conjunction with power generation system, thereby the initial steam flow increases to some extent.Analog computation the results are shown in Table 2.

Table 2

By table 2 as seen, under the identical comparable conditions of generated output, adopt the utility model cost of investment in three kinds of electricity generating plans minimum.When not considering the investment of occupation of land expense, the cost of investment maximum of independent dish formula electricity generating plan, if consider the investment of occupation of land expense, then the cost of investment of independent slot type electricity generating plan is a little more than independent dish formula electricity generating plan.As seen, the utility model has merged the advantage of slot type power generation system and dish formula power generation system, can reduce the specific investment cost cost effectively, and has higher generating efficiency.

Claims (4)

1. the fixing trough-dish combined solar thermal electricity generating device of a focus is characterized in that:

Comprise slot type thermal-arrest and accumulation of heat subtense angle (10), dish formula thermal-arrest and accumulation of heat subtense angle (20) and power generation sub-system (30);

Slot type thermal-arrest and accumulation of heat subtense angle (10) are connected with power generation sub-system (30) respectively with dish formula thermal-arrest and accumulation of heat subtense angle (20);

The high-temperature heat-exchanging (25) of the cryogenic heat exchanger (15) of slot type thermal-arrest and accumulation of heat subtense angle (10) and dish formula thermal-arrest and accumulation of heat subtense angle (20) interconnects.

2. by the described trough-dish combined solar thermal electricity generating device of claim 1, it is characterized in that:

Described slot type thermal-arrest and accumulation of heat subtense angle (10) comprise front and back parabola groove reflector (11), heat absorption tube (12), storage heater (13), low-temperature heat accumulating device (14), cryogenic heat exchanger (15), low-temperature heat accumulating device (14), storage heater (13), the 1st oil pump (16), the 1st valve (17) and the heat absorption tube (12) of closed loop connection successively.

3. by the described trough-dish combined solar thermal electricity generating device of claim 1, it is characterized in that:

Cold jar of (26), the 2nd oil pump (27), the 2nd valve (28) and receiver (22) of heat jar (23), the oil pump (24) of the parabolic dish reflector (21) that connects of closed loop, receiver (22), high-temperature heat accumulation device, high-temperature heat-exchanging (25), high-temperature heat accumulation device successively before and after described dish formula thermal-arrest and accumulation of heat subtense angle (20) comprise.

4. by the described trough-dish combined solar thermal electricity generating device of claim 1, it is characterized in that:

Described power generation sub-system (30) comprises temperature-decreased pressure reducer (31), steam turbine (32), generator (33), vapour condenser (34), condensate pump (35), low-pressure heater (36), oxygen-eliminating device (37), feed water pump (38) and high-pressure heater (39);

High-temperature heat-exchanging (25), temperature-decreased pressure reducer (31), steam turbine (32), vapour condenser (34), condensate pump (35), low-pressure heater (36), oxygen-eliminating device (37), feed water pump (38), high-pressure heater (39), cryogenic heat exchanger (15) and high-temperature heat-exchanging (25) front and back closed loop successively are connected;

Steam turbine (32) is connected with generator (33).

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