CN103089350B - Britten-steam Rankine-ammonia vapor Rankine combined cycle power generation device - Google Patents

Abstract

The invention relates to a Britten-steam Rankine-ammonia vapor Rankine combined cycle power generation device. Exhaust of a gas turbine generator unit serves as heat sources of a steam Rankine cycle, a condenser in the steam Rankine cycle serves as an evaporator of a low temperature end Kalina cycle, a positive pressure operating method is adopted by the condenser, latent heat of vaporization of high temperature end steam is effectively recycled for generating electricity, and therefore the Britten, the steam Rankine and the Kalina cycle are compounded together to form an enforceable combined cycle device. A method of indirect heat transfer between ammonia water mixture and exhaust gas is adopted, and therefore the problem of safe operation of a Kalina cycle unit is solved. Compared with traditional combined cycle power generation, the pollution produced in the process of generating of the combined cycle power generation device is reduced by more than 70%. The Britten-steam Rankine-ammonia vapor Rankine combined cycle power generation device not only can be used for energy conservation improvement on an existing machine unit, but also can be used for designing and building a newly built machine unit. The Britten-steam Rankine-ammonia vapor Rankine combined cycle power generation device is especially suitable for new construction, extending construction and reconstruction of a power unit in water-deficient areas, power shortage areas and other areas, and therefore the Britten-steam Rankine-ammonia vapor Rankine combined cycle power generation device has remarkable economic, social and environmental protection benefits.

Description

Boulez pauses-steam Rankine-ammonia steam Rankine combined cycle generating unit

Technical field

The present invention relates to a kind of Boulez pauses-steam Rankine-ammonia steam Rankine combined cycle generating unit, and concrete genus thermal power plant field of power equipment technology.

Background technique

Combustion gas one Steam Combined Cycle is because of series of advantages such as its thermal efficiency are high, toggle speed is fast, environmental protection condition is good, installation period is short, investment cost is low, add the develop rapidly of gas turbine technology in recent years, gas turbine single-machine capacity also continues to increase, and combined cycle research has caused attention and the enforcement of countries in the world.

The research of external combined cycle generation technology starts from eighties of last century end of the sixties, through the development of decades, at present, the combustion gas one steam combined cycle power generating technology comparative maturity of many developed countries such as the U.S., Britain, Japan, its power supply efficiency reaches more than 50%.If U.S. CE company is about 53%; ABB AB is 48% ~ 51.9%; Mitsubishi Heavy Industries Ltd are 5l% ~ 52%.Many companies (as Texco company of the U.S., Belgian CMI company etc.) all have the Combined Cycle Heat Recovery Boiler performance design of comparative maturity, system optimization, structure optimization, manufacturing technology, and have grasped thermodynamic property and the roadability of Combined Cycle Heat Recovery Boiler completely.The extraction cycle of Gas-steam Combined Cycle and the at present Cheng's cycle of two-fluid circulation-steam injected gas turbine just under development and the blower outlet water-spraying evaporation at gas turbine, the representative of this technical development just, the former is full-fledged, achieve huge economic benefit, rear both are stepping up among research, and Cheng's cycle has application example and formal product.

Modern big-and-middle-sized steam power plant all adopts the heated feed water extraction cycle that draws gas without any exception, employing is drawn gas after backheat heated feed water, feed temperature is improved, thus improve heating mean temperature, except considerably improving thermal efficiency of cycle, though specific steam consumption increases to some extent, owing to drawing gas step by step, steam discharge rate is reduced, this is conducive to the ratio i.e. internal efficiency ratio η of this circulation of actual acting amount and theoretical acting amount _oiraising, solve simultaneously large steam turbine exhaust stage blade negotiability restriction difficulty, vapour condenser volume also can correspondingly reduce.But still discharge a large amount of latent heats of vaporization when steam condenses in vapour condenser, need a large amount of water or air to cool, namely waste heat, cause thermo-pollution, waste again electric energy, water resources.Therefore how effectively to utilize a large amount of latent heat of vaporization discharged during steam condensation in vapour condenser, be worth further investigation.

Give off a large amount of flue gases in station boiler production process, wherein the heat of recoverable is a lot.Also need in station boiler running to ensure that the water quality of boiler meets demand for security by continuous blowdown and periodical blowdown, the oxygen in boiler feed water must be removed, to avoid the corrosion to steam generator system simultaneously.Current thermal deaerator is the one preferred technique of station boiler, and oxygen-eliminating device, while work, is carried a large amount of working steams secretly and entered air.Owing to containing a large amount of heats and excellent water quality in boiler platoon water and deaerator exhaust, if directly discharge will cause the great energy and the wasting of resources, and to environment.Although the waste of these two-part residual heat resources is huge, recycle and have larger difficulty, its main cause is: the quality of (1) waste heat is lower, does not find effective Application way; (2) waste heat of reclaimer three part, often makes larger change to the original thermodynamic system of boiler, has certain risk; (3) thermal balance question is difficult to tissue, is difficult to all directly utilize in inside plants, often needs outwards to find suitable heat user, and heat user often have fluctuation by heat load, thus limit the versatility of recovery method.

Gu Wei etc. (present Research of low temperature heat energy generating and development trend [J]. Thermal power engneering .2007.03.Vol.22, No.2.) describe present Research and the development trend of domestic and international low temperature heat energy generation technology.From the development of the research of low temperature heat energy generation technology in recent years, research work mainly concentrates on aspects such as the improvement of power cycle work Quality Research and cyclic process and optimal controls.Kalina circulation, ammonia absorption type power refrigeration combined cycle etc. can reach the capacity usage ratio higher than simple cycle in theory.Low temperature heat energy generating based on Finite-Time Thermodynamics becomes factor to significant during the affecting of system when considering, may realize the maximization of the Energy harvesting of system.Raising generating efficiency and environmental protection are the core contents of Low Temperature Thermal power technology.The Kalina circulation mentioned in literary composition, ammonia absorption type power refrigeration combined cycle scheduling theory merit attention.

Above-mentionedly mention the shortcoming that card Linne power generation technology also has it intrinsic: as ammonia has inflammable, the explosive feature such as poisonous, when boiler or industrial furnace back-end ductwork utilize fume afterheat to organize card Linne circulating generation, the leakage that in flue gas, dust etc. causes the wearing and tearing, corrosion etc. of the heat exchanger be arranged in flue must be considered, the protection etc. of explosion protection and environment and the job site of drawing thus must be considered; Take ammonia water mixture as the card Linne circulation of working medium, the ammonia in ammoniacal liquor is inflammable, explosive, poisonous medium.This is the difficult problem that card Linne power generation technology reclaims dust-laden, must solve when having the fume afterheat of corrosive deposit in electric power station system.

Therefore the thermomechanics basic law in steam Rankine cycle thermal power plant how is utilized, use for reference the innovative approach that the combined cycle scheduling theory such as thinking and Rankine-Kalina is organized in compound Rankine cycle, retain the advantage based on the power plant technology of Rankine cycle principle, inquire into new combined cycle theoretical, really find the new way increasing substantially thermodynamic cycle power plant thermal efficiency, become the difficult point of this area research.

Summary of the invention

Object of the present invention is the shortcoming solving the existence of the technology such as above-mentioned steam Rankine cycle and the circulation of card Linne, proposing a kind of new Boulez pauses-steam Rankine-ammonia steam Rankine combined cycle generating unit, traditional steam Rankine cycle can be substituted, Gas-steam Combined Cycle and Cheng's cycle unit, the difficult problem that a large amount of latent heat of vaporization discharged when simultaneously solving steam condensation in the key issue of card Linne cycle machine set safe operation and vapour condenser reclaims, adopt vapour condenser operation under positive pressure mode, the latent heat of vaporization in recovered steam Rankine cycle during steam condensation is used for low-temperature end ammonia steam Rankine cycle generating, thus realize the thermal efficiency effectively improving whole Combined Cycle Unit, finally reach energy-saving and cost-reducing, improve the object of system thermal efficiency.

The object of the invention is to be realized by following measures:

A kind of Boulez pauses-steam Rankine-ammonia steam Rankine combined cycle generating unit, and this device comprises Boulez and to pause circulation, steam Rankine cycle and ammonia steam Rankine cycle system, it is characterized in that:

Air 35 sends into fuel-burning equipment 37 through gas compressor 36, and with fuel 38 Thorough combustion entered, the high-temperature flue gas of generation enters gas turbine 39, drags gas turbine powered generator 41 and generates electricity, complete gas turbine unit Boulez and to pause circulation.

Described gas turbine 39 high-temperature flue gas 40 of discharging is as the thermal source of steam Rankine cycle system, and high-temperature flue gas 40 is discharged after reducing temperature through exhaust heat boiler body 1, superheater 2, feed water preheater 8, vaporizer 13-1.

Described steam Rankine cycle, refers to by exhaust heat boiler body 1 saturated vapour 2 out, forms superheated vapor 3-1 through superheater 3, sends into steam turbine 4 and drives steam-driven generator 21 to generate electricity; Steam turbine 4 exhaust steam 5 out forms water of condensation 6 through superheater 9, condenser/evaporator 10, and water of condensation 6 through feed water pump 7, feed water preheater 8, exhaust heat boiler body 1, then produces saturated vapour, thus forms steam Rankine cycle circuit.

Described ammonia steam Rankine cycle, refer to that ammoniacal liquor 11 sends into condenser/evaporator 10, cooling evaporator 12, ammonia evaporator 14 respectively or successively through ammonia circulating pump 12, the ammonia steam produced forms ammonia superheated vapor 16 through superheater 9, enter ammonia steam turbine 17 again, drag ammonia generator 20 to generate electricity, the exhaust steam of discharging from ammonia steam turbine 17 cools formation ammoniacal liquor 11 through ammonia condenser 18, then enters ammonia circulating pump 12, thus forms ammonia steam Rankine cycle circuit.

Described ammoniacal liquor 11 is the ammonia of one-component, or be low boiling component with ammonia, the high boiling component mixed solution that is absorbing agent is as ammonia-aqueous solution, ammonia-sodium thiocyanate solution or ammonia-calcium chloride solution etc.

When described ammoniacal liquor adopts Multi component, ammoniacal liquor 11 through ammonia circulating pump 12 or and regenerator 15 successively or respectively send into condenser/evaporator 10, cooling evaporator 12, ammonia evaporator 14, the lean solution formed returns ammonia condenser 18 through regenerator 15, the pipeline 19 that backflows, the ammonia steam produced forms ammoniacal liquor 11 through superheater 9, ammonia steam turbine 17, ammonia evaporator 14, ammonia condenser 18, return ammonia circulating pump 12, thus form ammonia steam Rankine cycle circuit.

The pressure of the exhaust steam 5 that described steam turbine 4 is discharged is higher than atmospheric pressure.

Described steam Rankine cycle circuit and ammonia steam Rankine cycle circuit by superheater 9, condenser/evaporator 10 or and cooling evaporator 13 or and ammonia evaporator 14, by the Rankine cycle of temperature end steam together with low-temperature end ammonia steam Rankine cycle organic composite, the latent heat of vaporization discharged during the steam-condensation of high efficiente callback temperature end steam Rankine cycle generates electricity for the Rankine cycle of low-temperature end ammonia steam.

Heat transferring medium ammoniacal liquor and the flue gas of described cooling evaporator 13 adopt separated type heat exchange mode, cooling evaporator 13 comprises vaporizer 13-1, condenser 13-2, wherein vaporizer 13-1 is arranged in flue 23, condenser 13-2 is arranged in outside flue 23, and phase-change working substance wherein adopts water or other suitable materials; The heat that phase-change working substance absorbs flue gas in vaporizer 13-1 produces saturated vapour, saturated vapour is as the thermal source of ammoniacal liquor, by condenser 13-2 and ammoniacal liquor 11 wall-type heat exchange, form condensation water after cooling and produce steam again by the heat of vaporizer 13-1 absorption flue gas again, thus form the Inner eycle loop of phase-change working substance; Phase-change working substance adopts natural circulation or pump circulation mode.

Be provided with exhaust steam regenerator 22: the ammonia steam that ammonia evaporator 14 produces gets back to ammonia evaporator 14 through exhaust steam regenerator 22, superheater 9, ammonia steam turbine 17, exhaust steam regenerator 22, ammonia evaporator 14, ammonia condenser 18, ammonia circulating pump 12, thus form ammonia steam Rankine cycle circuit; Or the ammonia steam that ammoniacal liquor 11 produces through ammonia circulating pump 12, condenser/evaporator 10 forms ammoniacal liquor 11 through exhaust steam regenerator 22, superheater 9, ammonia steam turbine 17, exhaust steam regenerator 22, condenser/evaporator 10, ammonia condenser 18, enter ammonia circulating pump 12 again, thus form ammonia steam Rankine cycle circuit.

Be provided with the makeup Water System supporting with steam Rankine cycle system: the distilled water 24 in distilled water tank 25, after small pump 26, normal temp. deaerator 27 deoxygenation, mixed bed 28 desalination, fill into steam Rankine cycle system.

Described feed water preheater 8, ammonia superheater 9, condenser/evaporator 10, cooling evaporator 13, ammonia evaporator 14, exhaust steam regenerator 22 can arrange one or more respectively, adopt series, parallel or series-parallel connection mode to connect.

Described ammonia condenser 18 conveniently technology is arranged, and adopts water or air etc. as cooling medium.

The heat-exchanging element of aforementioned device mentioned in the present invention can adopt tubulation, fin tube, coiler or spiral groove pipe, or adopts the pipe of other augmentation of heat transfer measures or the hollow cavity heat-exchanging element of other patterns.

While controlling a little higher than flue gas acid dew point temperature of wall surface temperature of vaporizer 13-1 heat exchanger surface, or adopt corrosion-resistant material effectively to alleviate the cold end corrosion of flue gas, can effectively reduce temperature of exhaust fume, avoiding flue gas low-temperature to corrode, high efficiente callback fume afterheat.

Unaccounted equipment and standby system, pipeline, instrument, valve in the present invention, be incubated, there is regulatory function bypass facility etc. adopt known mature technology to carry out supporting.

When gas turbine in the present invention becomes other pneumatic motors such as internal-combustion engine, Stirling-electric hybrid, the electricity generating device such as Otto-steam Rankine-ammonia steam Rankine combined cycle, Stirling cycle-steam Rankine-ammonia steam Rankine combined cycle can be formed equally.

Be provided with the regulating controller supporting with present system, the known Mature Regulation technology of existing steam Rankine cycle power station, Cheng's cycle power station or gas-steam combined cycle power plant is adopted to carry out supporting, make Boulez pause-steam Rankine-ammonia steam Rankine combined cycle generating unit energy economy, safety, high thermal efficiency run, reach energy-saving and cost-reducing object.

the present invention compared to existing technology tool has the following advantages:

1, energy-saving effect is remarkable: the Boulez of the present invention's design pauses-steam Rankine-ammonia steam Rankine combined cycle generating unit, be different from traditional steam Rankine cycle based on Rankine cycle principle and utilize vapor plume directly as the card Linne combined cycle system of thermal source, adopt vapour condenser operation under positive pressure mode, using ammonia water mixture as cycle fluid, using the thermal source that turbine discharge circulates as card Linne, the utilization of card Linne circulatory system centering low-temperature heat source is utilized to have more high efficiency feature, by the vaporizer in vapour condenser and the circulation of card Linne or superheater is ingenious is combined with each other, the latent heat of vaporization of steam is utilized effectively, except steam sensible heat utilization etc. has higher efficiency than steam Rankine cycle, the latent heat of vaporization of steam is only utilized to generate electricity this block just nearly more than 50 KWhs/ton of steam, therefore the absolute thermal efficiency of whole system improves more than 2%, because back pressure adopts malleation mode to run, steam turbine outlet exhaust steam can ensure certain degree of superheat, and the steam first pressing of new-built unit can adopt overcritical or ultra-supereritical pressure, improves the power generation cycle thermal efficiency further.

2, low equipment investment, operating cost significantly decline:

(1) eliminate that traditional vapour condenser negative pressure operation technique inevitably leaks gas, water leakage phenomenon, without the need to arranging oxygen-eliminating device, air ejector in Rankine cycle circuit, avoiding traditional oxygen-eliminating device, air ejector etc. and running the loss of steam and water caused; Avoid pollution and loss of steam and water that conventional art reclaims water of condensation, only need the water loss that the turbine shaft leak sealing vapour of supplementary minute quantity causes, fill into system by outsourcing or self-control distilled water;

(2) because of malleation, closed operation, avoid the oxygen corrosion of traditional Rankine cycle steam generator system, scaling phenomenon, system loss of steam and water significantly declines, without the need to being equipped with huge, complicated chemical water treatment system, the operating cost of water treatment system significantly declines, and absolute value can reduce by 90%;

(3) much smaller than traditional vapour condenser of the steam specific volume entering vapour condenser because discharging, vapour condenser volume ratio conventional art much smaller and without the need to using the brass tube a large amount of in traditional vapour condenser, price is high, equipment price is thus much lower; Card Linne circulation in ammonia condenser because of pressure high, specific volume is little, and the line size in ammonia steam turbine (particularly the height of its exhaust stage blade), exhaust duct and condenser is less, reduces investment further.

3, the three wastes of power plant realize integrated utilization: during the heat exchanger employing phase-change heat-exchanger that back-end ductwork is arranged, can the waste heat of high efficiente callback flue gas, temperature of exhaust fume can be reduced to about 120 DEG C, during phase-change heat-exchanger vaporizer employing resistant material, temperature of exhaust fume can reduce more, reaches about 85 DEG C, very favourable to the operation of system for desulfuration and denitration, while effectively avoiding flue gas low-temperature to corrode, the heat of recovery is used for card Linne circulatory system efficiency power generation, more meets cascaded utilization of energy principle.The waste heat such as waste water, waste vapour that steam Rankine cycle system produces all can be included the card Linne circulatory system in and recycle.Fundamentally eliminate other waste gas, waste water, waste vapour waste heat recovering device to the impact of whole unit circulation system, realize the integrated utilization of the real meaning of whole power plant system waste heat, water saving, successful such as joint vapour, economize on electricity etc.

4, safety in operation significantly improves:

(1) because the back pressure of steam turbine in steam Rankine cycle adopts malleation mode to run, steam turbine outlet exhaust steam can ensure certain degree of superheat, overcome the design that traditional Rankine cycle power generator turbine exhaust stage blade brings because of wet vapor, run and safety problem, steam turbine back pressure operation under positive pressure, outlet vapor is superheated vapor, fundamentally eliminate the problem design that in conventional vapor Rankine cycle, last stage vane of steam turbine brings because of wet vapor, manufacture and operation problem, the operating conditions of steam turbine is optimized, obviously improve before the vibration comparatively of steam turbine generator set,

(2) the oxygen corrosion Safety performance of steam boiler system is obviously improved, and avoids conventional vapor Rankine cycle generator set because of the operation of vapour condenser negative pressure, the oxygen corrosion harm that air unavoidably bleeds and causes service system;

(3) scale hazard of steam Rankine cycle system is eliminated, and effectively alleviate the generation of the accidents such as the overheated booster of heating surface, the operating conditions of superheater obviously improves, and Security significantly improves;

(4) compared to traditional card Linne circulating technology, when adopting preferred version, without the need to arranging the heat exchanger of dividing wall type in flue, the heat adopting the better split type phase-change heat-exchanger condenser separated type recovered flue gas of Security in generation, numerous safety problems that the wearing and tearing caused because of the dust in flue gas, aggressive medium etc., corrosion cause ammonia water mixture to follow smoke contacts and cause are solved at all; Ammonia water mixture carries out wall-type heat exchange in phase-change heat-exchanger condenser, because nontoxic, the non-combustion-supporting material of water vapour, the non-excellent feature such as flammable, fire-retardant, even if leak, accident also easily obtains process, controls;

(5) because steam Rankine cycle steam discharge adopts malleation, therefore can guide to by pipeline the safe place adopting reliable protection measure, the card Linne circulatory system (comprising phase-change heat-exchanger condenser) independently can be arranged in safe and reliable protective zone and to be equipped with reliable safety installations, avoid directly being staggered in together and the problems that cause with steam Rankine cycle system, the Security of the card Linne circulatory system obtains Reliable guarantee, for its industrial applications eliminates safe hidden trouble further.

5, the formula circulatory system is compared with system of the present invention, also has following shortcoming:

(1) because of steam injection, vapour system is open cycle, and corresponding water treatment system treating capacity increases considerably, and water usage increases a lot than the gas-steam combined cycle set of corresponding power, and operating cost significantly rises;

(2) wasting of resources is large, and the steam of exhaust heat boiler recovery waste heat all enters air, wastes the water resources of a large amount of preciousnesses;

(3) enter in the steam of air containing a large amount of utilized heat energy, service system of the present invention is equivalent to all reclaim this part heat for generating, the latent heat of vaporization that in formula circulation, water vapour contains and sensible heat, steam per ton is applied to card Linne circulating generation, at least reclaims 50 KWhs/ton of steam.The circulatory system of the present invention has formula in this respect and to circulate incomparable advantage.

6, the solution of the present invention both can be used for design, the construction of newly-built combined power plants system, also can be used for existing pure condensate formula, take out solidifying, take out the back of the body unit carry out reducing energy consumption, the potentiality of the abundant excavating device of energy, vitalize existing assets, meet the industrial policy of country simultaneously, economical, the Security of unit operation obtain Reliable guarantee, effectively can improve the thermal efficiency of system.

Accompanying drawing explanation

Fig. 1 is that a kind of Boulez of the present invention pauses-steam Rankine-ammonia steam Rankine combined cycle generating unit schematic flow sheet.

In Fig. 1: 1-exhaust heat boiler body, 2-saturated vapour, 3-superheater, 3-1-superheated vapor, 4-steam turbine, 5-exhaust steam, 6-water of condensation, 7-feed water pump, 8-feed water preheater, 9-superheater, 10-condenser/evaporator, 11-ammoniacal liquor, 12-ammonia circulating pump, 13-cooling evaporator, 13-1-vaporizer, 13-2-condenser, 14-ammonia evaporator, 15-regenerator, 16-ammonia superheated vapor, 17-ammonia steam turbine, 18-ammonia condenser, 19-backflows liquid, 20-ammonia generator, 21-steam-driven generator, 22-exhaust steam regenerator, 23-flue, 24-distilled water, 25-distilled water tank, 26-small pump, 27-oxygen-eliminating device, 28-mixed bed, 29-backflows water pipeline, 35-air, 36-gas compressor, 37-fuel-burning equipment, 38-fuel, 39-gas turbine, 40-high-temperature flue gas, 41-gas turbine powered generator.

Embodiment

Below in conjunction with the drawings and specific embodiments, the present invention is described in further detail.

embodiment 1.

As shown in Figure 1, a kind of Boulez pauses-steam Rankine-ammonia steam Rankine combined cycle generating unit, and this device comprises Boulez and to pause circulation, steam Rankine cycle, ammonia steam Rankine cycle system, and specific embodiment is as follows:

Air 35 sends into fuel-burning equipment 37 through gas compressor 36, and with fuel 38 Thorough combustion entered, the high-temperature flue gas of generation enters gas turbine 39, drags gas turbine powered generator 41 and generates electricity, complete gas turbine unit Boulez and to pause circulation.

Described gas turbine 39 high-temperature flue gas 40 of discharging is as the thermal source of steam Rankine cycle system, and high-temperature flue gas 40 is discharged after reducing temperature through exhaust heat boiler body 1, superheater 2, feed water preheater 8, vaporizer 13-1.

The Rankine cycle of ammonia steam adopts ammonia water mixture.

Described steam Rankine cycle, refers to by exhaust heat boiler body 1 saturated vapour 2 out, forms superheated vapor 3-1 through superheater 3, sends into steam turbine 4 and drives steam-driven generator 21 to generate electricity; Steam turbine 4 exhaust steam 5 out forms water of condensation 6 through superheater 9, condenser/evaporator 10, and water of condensation 6 through feed water pump 7, feed water preheater 8, exhaust heat boiler body 1, then produces saturated vapour, thus forms steam Rankine cycle circuit.

In described ammonia steam Rankine cycle circuit, condenser/evaporator 10, cooling evaporator 12, ammonia evaporator 14 adopt parallel running mode, ammoniacal liquor 11 is through ammonia circulating pump 12, regenerator 15, condenser/evaporator 10, ammonia circulating pump 12, ammonia evaporator 14, exhaust steam regenerator 22, and ammonia circulating pump 12, condenser/evaporator 10, the ammonia steam produced forms ammoniacal liquor 11 through superheater 9, ammonia steam turbine 17, exhaust steam regenerator 22, ammonia evaporator 14, ammonia condenser 18, enter ammonia circulating pump 12 again, thus form ammonia steam Rankine cycle circuit.

The pressure of the exhaust steam 5 that described steam turbine 4 is discharged is higher than atmospheric pressure.

Heat transferring medium ammoniacal liquor and the flue gas of described cooling evaporator 13 adopt separated type heat exchange mode, cooling evaporator 13 comprises vaporizer 13-1, condenser 13-2, wherein vaporizer 13-1 is arranged in flue 23, and condenser 13-2 is arranged in outside flue 23, and phase-change working substance wherein adopts water; The heat that phase-change working substance absorbs flue gas in vaporizer 13-1 produces saturated vapour, saturated vapour in condenser 13-2 as the thermal source of ammoniacal liquor, by condenser 13-2 and ammoniacal liquor 11 wall-type heat exchange, condensation water is formed again by vaporizer 13-1 after cooling, the heat absorbing flue gas produces steam again, thus forms the Inner eycle loop of phase-change working substance; Phase-change working substance adopts natural circulation.

Be provided with the makeup Water System supporting with steam Rankine cycle system: the distilled water 24 in distilled water tank 25, after small pump 26, normal temp. deaerator 27 deoxygenation, mixed bed 28 desalination, fill into steam Rankine cycle system.

Described feed water preheater 8, superheater 9, condenser/evaporator 10, cooling evaporator 13, ammonia evaporator 14, exhaust steam regenerator 22 can arrange one or more respectively, adopt series, parallel or series-parallel connection mode to connect.

Described ammonia condenser 18 conveniently technology is arranged, and adopts water or air etc. as cooling medium.

The heat-exchanging element of aforementioned device mentioned in the present invention can adopt tubulation, fin tube, coiler or spiral groove pipe, or adopts the pipe of other augmentation of heat transfer measures or the hollow cavity heat-exchanging element of other patterns.

While controlling a little higher than flue gas acid dew point temperature of wall surface temperature of vaporizer 13-1 heat exchanger surface, or adopt corrosion-resistant material effectively to alleviate the cold end corrosion of flue gas, can effectively reduce temperature of exhaust fume, avoiding flue gas low-temperature to corrode, high efficiente callback fume afterheat.

Unaccounted equipment and standby system, pipeline, instrument, valve in the present invention, be incubated, there is regulatory function bypass facility etc. adopt known mature technology to carry out supporting.

Be provided with the regulating controller supporting with present system, the known Mature Regulation technology of existing steam Rankine cycle power station, Cheng's cycle power station or gas-steam combined cycle power plant is adopted to carry out supporting, make Boulez pause-steam Rankine-ammonia steam Rankine combined cycle generating unit energy economy, safety, high thermal efficiency run, reach energy-saving and cost-reducing object.

Although the present invention with preferred embodiment openly as above, they are not for limiting the present invention, being anyly familiar with this those skilled in the art, without departing from the spirit and scope of the invention, from ought making various changes or retouch, belong to the protection domain of the present invention equally.What therefore protection scope of the present invention should define with the claim of the application is as the criterion.

Claims (5)

1. Boulez pauses-steam Rankine-ammonia steam Rankine combined cycle generating unit, and this device comprises Boulez and to pause circulation, steam Rankine cycle and ammonia steam Rankine cycle system, it is characterized in that:

Air (35) sends into fuel-burning equipment (37) through gas compressor (36), with the fuel entered (38) Thorough combustion, the high-temperature flue gas generated enters gas turbine (39), drag gas turbine powered generator (41) generating, gas turbine (39) high-temperature flue gas (40) of discharging is discharged as after the thermal source cooling of steam Rankine cycle system, thus completes gas turbine unit Boulez and to pause circulation;

Described steam Rankine cycle, refers to by exhaust heat boiler body (1) saturated vapour out (2), forms superheated vapor (3-1) through the first superheater (3), sends into steam turbine (4) and drives steam-driven generator (21) generating; Steam turbine (4) exhaust steam out (5) is through the second superheater (9), condenser/evaporator (10), cooled by the ammonia of ammonia steam Rankine cycle and form water of condensation (6), water of condensation (6) is through feed water pump (7), feed water preheater (8), exhaust heat boiler body (1), produce saturated vapour again, thus form steam Rankine cycle circuit;

In described steam Rankine cycle, the pressure of the exhaust steam (5) that steam turbine (4) is discharged is higher than atmospheric pressure;

Described ammonia steam Rankine cycle circuit is provided with the second superheater (9): ammoniacal liquor (11) is through recycle pump (12), condenser/evaporator (10), the ammonia steam produced forms ammonia superheated vapor (16) through the second superheater (9), enter ammonia steam turbine (17) again, drag ammonia generator (20) generating, the exhaust steam of discharging from ammonia steam turbine (17) forms ammoniacal liquor (11) through ammonia condenser (18) cooling, enter recycle pump (12) again, thus form ammonia steam Rankine cycle circuit; Or ammoniacal liquor (11) is through recycle pump (12), ammonia evaporator (14), the ammonia steam produced forms ammonia superheated vapor (16) through the second superheater (9), enter ammonia steam turbine (17) again, drag ammonia generator (20) generating, the exhaust steam of discharging from ammonia steam turbine (17) forms ammoniacal liquor (11) through ammonia condenser (18) cooling, enter recycle pump (12) again, thus form ammonia steam Rankine cycle circuit; Or ammoniacal liquor (11) is through recycle pump (12), cooling evaporator (13), the ammonia steam produced forms ammonia superheated vapor (16) through the second superheater (9), enter ammonia steam turbine (17) again, drag ammonia generator (20) generating, the exhaust steam of discharging from ammonia steam turbine (17) forms ammoniacal liquor (11) through ammonia condenser (18) cooling, enter recycle pump (12) again, thus form ammonia steam Rankine cycle circuit;

Be provided with normal temp. deaerator (27): the distilled water (24) in distilled water tank (25), fill into steam Rankine cycle system through small pump (26), normal temp. deaerator (27), mixed bed (28).

2. device according to claim 1, is characterized in that:

Be provided with regenerator (15): the lean solution of the part or all of vaporizer generation of condenser/evaporator (10), ammonia evaporator (14), cooling evaporator (13), through regenerator (15), the pipeline that backflows (19), gets back to ammonia condenser (18); Ammoniacal liquor (11) is through the part or all of generation ammonia steam of recycle pump (12), regenerator (15), condenser/evaporator (10), ammonia evaporator (14), cooling evaporator (13).

3. device according to claim 1, is characterized in that:

Be provided with exhaust steam regenerator (22): the ammonia steam that ammoniacal liquor (11) produces through recycle pump (12), ammonia evaporator (14) forms ammoniacal liquor (11) through exhaust steam regenerator (22), the second superheater (9), ammonia steam turbine (17), exhaust steam regenerator (22), ammonia evaporator (14), ammonia condenser (18), enter recycle pump (12) again, thus form ammonia steam Rankine cycle circuit; Or the ammonia steam that ammoniacal liquor (11) produces through recycle pump (12), condenser/evaporator (10) forms ammoniacal liquor (11) through exhaust steam regenerator (22), the second superheater (9), ammonia steam turbine (17), exhaust steam regenerator (22), condenser/evaporator (10), ammonia condenser (18), enter recycle pump (12) again, thus form ammonia steam Rankine cycle circuit.

4. device according to claim 3, is characterized in that:

Flue gas in described cooling evaporator (13) adopts separated type heat exchange mode with ammoniacal liquor (11): cooling evaporator (13) comprises vaporizer (13-1), condenser (13-2), wherein vaporizer (13-1) is arranged in flue (23), and condenser (13-2) is arranged in flue (23) outward; The heat that phase-change working substance absorbs flue gas in vaporizer (13-1) produces saturated vapour, saturated vapour in condenser (13-2) as the thermal source of ammoniacal liquor, by condenser (13-2) and ammoniacal liquor (11) wall-type heat exchange, condensation water is formed again by vaporizer (13-1) after cooling, the heat absorbing flue gas produces steam again, thus forms the Inner eycle loop of phase-change working substance.

5., according to the device one of Claims 1-4 Suo Shu, it is characterized in that:

This device is equally applicable to Otto-steam Rankine-ammonia steam Rankine combined cycle generating unit, Stirling cycle-steam Rankine-ammonia steam Rankine combined cycle generating unit.