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CN102519069A - Multi-effect cascade jet type heat exchange based exhaust steam waste heat recovering and heat and power jointly producing system - Google Patents

Multi-effect cascade jet type heat exchange based exhaust steam waste heat recovering and heat and power jointly producing system Download PDF

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Publication number
CN102519069A
CN102519069A CN2011104075677A CN201110407567A CN102519069A CN 102519069 A CN102519069 A CN 102519069A CN 2011104075677 A CN2011104075677 A CN 2011104075677A CN 201110407567 A CN201110407567 A CN 201110407567A CN 102519069 A CN102519069 A CN 102519069A
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heat
final stage
exhaust steam
steam
cascade
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CN102519069B (en
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张茂勇
张军
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Beijing Huayu energy technology Limited by Share Ltd
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Beijing Zhongke Huayu Energy Technology Development Co Ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B30/00Energy efficient heating, ventilation or air conditioning [HVAC]
    • Y02B30/52Heat recovery pumps, i.e. heat pump based systems or units able to transfer the thermal energy from one area of the premises or part of the facilities to a different one, improving the overall efficiency
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E20/00Combustion technologies with mitigation potential
    • Y02E20/14Combined heat and power generation [CHP]
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P80/00Climate change mitigation technologies for sector-wide applications
    • Y02P80/10Efficient use of energy, e.g. using compressed air or pressurized fluid as energy carrier
    • Y02P80/15On-site combined power, heat or cool generation or distribution, e.g. combined heat and power [CHP] supply

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Abstract

The invention relates to a multi-effect cascade jet type heat exchange based exhaust steam waste heat recovering and heat and electrical jointly producing system, belonging to the field of exhaust steam waste heat recovering and heat and power joint producing. The system comprises a steam turbine, a multi-effect cascade jet heat pump, a heating network last-stage heater, a low-pressure steam-water heater, a high-temperature heating network heater, a steam condenser, a power generator and a condensate pump. The multi-effect cascade jet heat pump comprises a cascade first-stage mixing section, a cascade first-stage throat part, a cascade first-stage diffusing section, a cascade last-stage diffusing section, and a cascade last-stage distributor which are connected into a whole body in sequence, wherein the cascade first-stage mixing section is provided with a cascade first-stage jet opening. The system adopts the multi-effect cascade workflow, thereby the irreversible loss of the jet heat pump is greatly reduced, a large proportion of the exhaust steam is mixed with the medium-pressure extraction steam used as the driving steam, and the pressure is increased greatly. The primary heating network returns water, the technical problems of recovering the exhaust steam waste heat efficiently by adopting the jet heat pump and supplying heat by using the recovered exhaust steam waste heat are solved, and the waste heat recovering capacity is improved by several times.

Description

Exhaust steam residual heat based on the heat exchange of multiple-effect overlapping injecting type reclaims co-generation unit
Technical field
The invention belongs to exhaust steam in steam turbine waste heat recovery cogeneration of heat and power field, particularly a kind of exhaust steam residual heat based on the heat exchange of multiple-effect overlapping injecting type reclaims the co-generation unit design.
Background technology
The main system form of present Chinese northern area heating is: cogeneration of heat and power, district boiler room and dispersion heating respectively account for about 1/3; Wherein the primary energy utilization ratio is the highest, emission reduction effect is best, the most rational the applying of cogeneration of heat and power of economy receives the restriction that is difficult to expand on a large scale factors such as heat supply network scale and heat capacity thereof, needs badly and takes better technology path and policy planning to promote.Carry out exhaust steam residual heat based on absorption heat exchange and reclaim with the related patent U.S. Patent No. of great temperature difference heat supply technological by what Tsing-Hua University building energy conservation research center was creatively developed; Can be implemented in steam power plant adopts absorption heat pump recovery exhaust steam in steam turbine waste heat to be used for central heating; Can make steam power plant's efficiency of energy utilization improve 15~25%, and significantly enlarge its heat capacity.This technology has been applied to engineering practice and has obtained good effects of energy saving and emission reduction and economic benefit.
But because the concrete condition of actual co-generation unit is widely different; Under a lot of situation because the parameter of each related work medium does not match the utilization ratio that causes actual exhaust steam residual heat to reclaim not good, perhaps need pay excessive initial cost and cause also uneconomical.For example adopt the co-generation unit of water-cooled exhaust steam cooling (comprising the direct current type of cooling and clammy mode) in a large number; Owing to often be connected comparatively compactness between its steam turbine (low pressure (LP) cylinder) exhaust steam outlet and the water-cooled condenser; And have more and adopt rectangular duct or other special-shaped pipeline but not circular pipe connects, therefore be difficult to offer the exhaust steam outlet.And often also be difficult to be provided with or set up large-scale valve and be used to cut off or regulate the exhaust steam flow to satisfy the requirement that absorption heat pump reclaims exhaust steam residual heat.Thus, for the co-generation unit, particularly large scale system that adopt the water-cooled condenser, almost can't realize directly drawing of exhaust steam, thereby have to adopt the mode of carrying out indirect waste heat recovery through cooling water.The absorption heat pump waste heat recovery of a plurality of large-size water-cooling formula co-generation units is transformed practice and is shown; Because circulating water temperature is lower and be not suitable for increasing substantially turbine back pressure in order to avoid significantly influence power generation performance and security thereof; Actual waste heat recovery poor-performing; Even adopt the big temperature difference technology of heat supply network can improve the waste heat recovery effect, its economic evaluation effect is compared with the transformation of air-cooled type turbine system and is still had big gap but its initial cost increases.
On the other hand; A large amount of middle-size and small-size turbine generating systems that exist are because it faces national policy about the little policy adjustment of last big pressure; As change co-generation unit into and still the energy conservation and environmental protection benefit that exists can be arranged; But conventional Heat Supplying with Low Vacuum system is a prerequisite significantly to sacrifice generating capacity, has influenced the economy of co-generation unit.
If adopt the injecting type heat pump to address the above problem, and compare no any rotation or moving-member with absorption heat pump, do not have complicated solution and heat circulation and integrity problem thereof, cost reduces significantly.Patent of invention 200810102224.8 discloses a kind of solution thinking that reclaims the injecting type heat pump heat distribution system of steam power plant's condensing waste heat.But present in esse problem is; The prior steam injector is owing to be subject to the pressure ratio restriction that it drives steam and is aspirated steam at present; Often only within the scope of certain compression ratio and expansion ratio, just have bigger injection ratio, and its injection reasonably compresses expansion ratio scope when than usually about 0.2~0.8 if depart from it; Then its injection loses using value than the order of magnitude that greatly is reduced to 1% in cogeneration of heat and power waste heat recovery field fully.As for the bigger liquid-jet vacuum pump structure of pressure ratio scope because its major function is to keep the required necessary vacuum of technical process but not for a large amount of draws low pressure gases, so its less injection than and be not suitable for the cogeneration of heat and power residual neat recovering system.Therefore, the prior steam injector only might have certain practical value below the special cogeneration of heat and power fluid properties combination condition of minority, otherwise compares no using value with the absorption heat exchange residual neat recovering system that has moved to maturity.
Therefore, be necessary to seek the design and the structure thereof of brand-new injecting type heat pump, improving the exhaust steam residual heat recyclability of injecting type heat exchange, and significantly reduce the cost of waste heat recovery heating system, improve energy-saving and emission-reduction and economic effect.
Summary of the invention
The objective of the invention is for overcoming the weak point of prior art; Propose a kind of exhaust steam residual heat and reclaim co-generation unit based on the heat exchange of multiple-effect overlapping injecting type; This system adopts multiple-effect superposition type workflow significantly to reduce the irreversible loss of injecting type heat pump; Realize directly the exhaust steam vast scale is mixed also supercharging significantly with drawing gas as the middle pressure that drives steam; Because the heating heat supply network is once netted backwater, creatively solved the technical barrier that adopts injecting type heat pump high efficiente callback exhaust steam residual heat to be used for heat supply.
Specific descriptions of the present invention are:
A kind of exhaust steam residual heat based on the heat exchange of multiple-effect overlapping injecting type reclaims co-generation unit; It is characterized in that this system comprises: steam turbine, multiple-effect overlapping injecting type heat pump, heat supply network top heater, low pressure vapor heater, high temperature heat exchangers for district heating, condenser, generator, condensate pump; Described multiple-effect overlapping injecting type heat pump comprises and is in turn connected into holistic chopped-off head injector, final stage injector and final stage distributor; This chopped-off head injector is formed by the entrance that is provided with nozzle, mixer, throat and the diffuser that are connected successively with the final stage injector; Import links to each other the extraction steam pipe of the steam turbine that links to each other with generator with heat supply network top heater high temperature side with the nozzle inlet of the chopped-off head injector of multiple-effect superposition type injecting type heat pump respectively, and chopped-off head injector ejecting port is continuous through overlapping injection communicating pipe with the mixing outlet of the final stage distributor that the diffuser outlet of final stage injector links to each other; Wherein, Drive steam with jetting steam caused after chopped-off head injector mixer mixes the nozzle through entering final stage injector behind chopped-off head injector throat, the chopped-off head injector diffuser; And mix with the exhaust steam of final stage injector ejecting port after get into the final stage distributor behind final stage injector throat and the diffuser; Final stage injector ejecting port links to each other with the exhaust steam outlet of steam turbine and the exhaust steam inlet of condenser respectively; The final stage distributor links to each other with the high temperature side of the low pressure vapor heater of once netting backwater; Condensate after the heat exchange is mixed after condensate pump returns boiler with the condensate water outlet of condenser, and the once net backwater outlet of low pressure vapor heater links to each other with the high temperature heat exchangers for district heating.
The progression of above-mentioned described multiple-effect superposition type injecting type heat pump is 2 grades of superposition type emitter constructions, perhaps for increasing by 3 grades of superposition type emitter constructions of an intergrade.
The final stage distributor of above-mentioned multiple-effect superposition type injecting type heat pump can directly link to each other as a whole, perhaps disconnected from each other and continuous through communicating pipe with the low pressure vapor heater.
The condensate of above-mentioned low pressure vapor heater and the condensate of condenser can adopt injection type syndeton or the low formula mixing tank syndeton that adds.
Characteristics of the present invention and beneficial effect:
The present invention is intended to solve the how difficult problem of efficient absorption exhaust steam residual heat of the employing injecting type heat pump that exists in the present actual engineering; Complete technical scheme and engineering construction device have been proposed; Adopt the multiple-effect overlapping injecting type heat pump absorption exhaust steam in steam turbine of brand-new design to be used for heat supply; Wherein exhaust steam is the superposition type final stage ejecting port suction by the injecting type heat pump; Final stage diffuser exit portion mixed vapour is sent to the previous stage ejecting port and is pressurizeed by injection; So analogize, the original pressure of vapour pressure ratio exhaust steam in steam turbine that sucks of superposition type chopped-off head ejecting port is much bigger thus, thereby but the extracted steam from turbine of the elevated pressures that gets into by the chopped-off head nozzle just injection obtain the more mixed vapour of high pressure; And pass out to next stage by the chopped-off head diffuser and continue the injection acting; The superposition type final stage connects once nets heater and is used for heat supply, has avoided adopting conventional injecting type heat pump owing to be difficult to adapt to each fluid properties that certainly exists in the actual engineering and do not match and cause injection to compare low, energy saving and economy crossing difference and be difficult to practical application, and this novel multiple-effect superposition type injecting type heat pump is than the waste heat recovery ability raising of conventional spray formula heat pump more than 2~5 times.
Compare with existing absorption residual neat recovering system; Can realize basically that under ubiquitous engineering specifications the exhaust steam absorption efficiency is suitable, and the effect that initial cost significantly reduces, and owing to belong to pure mechanical part; There are not any rotation or moving-member; Its operational reliability is higher, farthest improves the comprehensive utilization of energy benefit of the heat consumption rate and the whole cogeneration of heat and power central heating system of steam power plant thus, and has the engineering practical value.
Description of drawings
Fig. 1 is the injecting type heat exchange cogeneration of heat and power waste heat recovery heating system sketch map that embodiments of the invention 1 adopt low pressure vapor heater and the injecting type heat pump integral structure and the high temperature heat exchangers for district heating of connecting,
Fig. 2 is that embodiments of the invention 2 adopt low pressure vapor heaters and injecting type heat pump split-type structural and do not have the injecting type heat exchange cogeneration of heat and power waste heat recovery heating system sketch map of high temperature heat exchangers for district heating.
Each unit number and title are following among Fig. 1,2.
Steam turbine 1, extraction steam pipe 2, superposition type chopped-off head nozzle 3, multiple-effect overlapping injecting type heat pump 4, superposition type chopped-off head ejecting port 5, superposition type chopped-off head mixer 6, superposition type chopped-off head throat 7, superposition type chopped-off head diffuser 8, superposition type final stage 9, overlapping injection communicating pipe 10, superposition type final stage ejecting port 11, mixing outlet 12, superposition type final stage distributor 13, low pressure vapor heater 14, high temperature heat exchangers for district heating 15, condenser 16, generator 17, condensate pump 18.
The specific embodiment
The exhaust steam residual heat based on the heat exchange of multiple-effect overlapping injecting type that the present invention proposes reclaims co-generation unit, specifies as follows in conjunction with accompanying drawing and embodiment:
Embodiment 1 structure that exhaust steam residual heat based on the heat exchange of multiple-effect overlapping injecting type of the present invention reclaims co-generation unit is as shown in Figure 1; Among Fig. 1; Adopt low pressure vapor heater and the injecting type heat pump integral structure and the high temperature heat exchangers for district heating of connecting, this embodiment comprises: steam turbine 1, multiple-effect overlapping injecting type heat pump 4, heat supply network top heater 15, low pressure vapor heater 14, high temperature heat exchangers for district heating 15, condenser 16, generator 17, condensate pump 18; Described multiple-effect overlapping injecting type heat pump 4 comprises and is in turn connected into holistic chopped-off head injector 5, final stage injector 9 and final stage distributor 13; This chopped-off head injector is formed by the entrance that is provided with nozzle, mixer, throat and the diffuser that are connected successively with the final stage injector; Wherein, 15 high temperature side imports link to each other the extraction steam pipe 2 of the steam turbine 1 that links to each other with generator 17 with the heat supply network top heater with superposition type chopped-off head injector nozzle 3 imports of multiple-effect superposition type injecting type heat pump 4 respectively; The mixing outlet 12 of the superposition type final stage distributor 13 that superposition type chopped-off head injector ejecting port 5 links to each other with the diffuser outlet of superposition type final stage injector 9 linked to each other through overlapping injection communicating pipe 10; Drive steam with jetting steam caused after superposition type chopped-off head injector mixer 6 mixes through the back nozzles of entering superposition type final stage injectors 9 of superposition type chopped-off head injector throat 7, superposition type chopped-off head injector diffuser 8; And mix with the exhaust steam of superposition type final stage injector ejecting port 11 after get into superposition type final stage distributor 13 behind superposition type final stage injector throat and the diffuser; Superposition type final stage injector ejecting port 11 links to each other with the exhaust steam outlet of steam turbine 1 and the exhaust steam inlet of condenser 16 respectively; Superposition type final stage distributor 13 links to each other with the high temperature side of the low pressure vapor heater 14 of once netting backwater; Condensate after the heat exchange is mixed after condensate pump 18 returns boiler with the condensate water outlet of condenser 16, and the once net backwater outlet of low pressure vapor heater 14 links to each other with high temperature heat exchangers for district heating 15.
The progression of above-mentioned multiple-effect overlapping injecting type heat pump 4 is 2 grades of superposition type structures, perhaps for increasing by 3 grades of superposition type structures of an intergrade.It directly links to each other as a whole with low pressure vapor heater 14.The condensate of the condensate of low pressure vapor heater 14 and condenser 16 adopts injection type syndeton or the low formula mixing tank syndeton that adds.
The multiple-effect overlapping injecting type heat pump of present embodiment adopts the manufacturing of routine techniques means to form, and other each equipment all can adopt conventional products.
Embodiment 2 structures that exhaust steam residual heat based on the heat exchange of multiple-effect overlapping injecting type of the present invention reclaims co-generation unit are as shown in Figure 2; Basic identical with example structure; The difference part is to adopt low pressure vapor heater and injecting type heat pump split-type structural; And saved the high temperature heat exchangers for district heating, see off after backwater directly is heated to required supply water temperature and will once net by multiple-effect overlapping injecting type heat pump.This system be particularly suitable for turbine back pressure higher, can obtain the elevated pressures mixed vapour and be used for a large amount of middle-size and small-size steam turbine project of heat supply through multiple-effect overlapping injecting type heat pump.
Need to prove; The present invention proposes the method that how to solve the problem that adopts injecting type heat pump high efficiente callback exhaust steam in steam turbine waste heat; And the different practical implementation measures and the practical implementation device of different structure can be arranged according to this overall solution; The above-mentioned specific embodiment only is wherein two kinds, and the embodiment of other similar simple deformation all falls into protection scope of the present invention.

Claims (4)

1. the exhaust steam residual heat based on the heat exchange of multiple-effect overlapping injecting type reclaims co-generation unit; It is characterized in that this system comprises: steam turbine, multiple-effect overlapping injecting type heat pump, heat supply network top heater, low pressure vapor heater, high temperature heat exchangers for district heating, condenser, generator, condensate pump; Described multiple-effect overlapping injecting type heat pump comprises and is in turn connected into holistic chopped-off head injector, final stage injector and final stage distributor; This chopped-off head injector is formed by the entrance that is provided with nozzle, mixer, throat and the diffuser that are connected successively with the final stage injector; Import links to each other the extraction steam pipe of the steam turbine that links to each other with generator with heat supply network top heater high temperature side with the nozzle inlet of the chopped-off head injector of multistage superposition type injecting type heat pump respectively, and chopped-off head injector ejecting port is continuous through overlapping injection communicating pipe with the mixing outlet of the final stage distributor that the diffuser outlet of final stage injector links to each other; Wherein, Drive steam with jetting steam caused after chopped-off head injector mixer mixes the nozzle through entering final stage injector behind chopped-off head injector throat, the chopped-off head injector diffuser; And mix with the exhaust steam of final stage injector ejecting port after get into the final stage distributor behind final stage injector throat and the diffuser; Final stage injector ejecting port links to each other with the exhaust steam outlet of steam turbine and the exhaust steam inlet of condenser respectively; The final stage distributor links to each other with the high temperature side of the low pressure vapor heater of once netting backwater; Condensate after the heat exchange is mixed after condensate pump returns boiler with the condensate water outlet of condenser, and the once net backwater outlet of low pressure vapor heater links to each other with the high temperature heat exchangers for district heating.
2. the exhaust steam residual heat based on the heat exchange of multiple-effect overlapping injecting type as claimed in claim 1 reclaims co-generation unit; It is characterized in that; The progression of described multistage superposition type injecting type heat pump is 2 grades of superposition type emitter constructions, perhaps for increasing by 3 grades of superposition type emitter constructions of an intergrade.
3. the exhaust steam residual heat based on the heat exchange of multiple-effect overlapping injecting type as claimed in claim 1 reclaims co-generation unit; It is characterized in that; The final stage distributor of described multistage superposition type injecting type heat pump directly links to each other as a whole, perhaps disconnected from each other and continuous through communicating pipe with the low pressure vapor heater.
4. the exhaust steam residual heat based on the heat exchange of multiple-effect overlapping injecting type as claimed in claim 1 reclaims co-generation unit; It is characterized in that the condensate of described low pressure vapor heater and the condensate of condenser adopt injection type syndeton or the low formula mixing tank syndeton that adds.
CN2011104075677A 2011-12-08 2011-12-08 Multi-effect cascade jet type heat exchange based exhaust steam waste heat recovering and heat and power jointly producing system Expired - Fee Related CN102519069B (en)

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Cited By (11)

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Publication number Priority date Publication date Assignee Title
CN102758657A (en) * 2012-07-12 2012-10-31 西安交通大学 Brown coal pre-drying power generating system integrated with jet heat pump
CN103471416A (en) * 2013-09-03 2013-12-25 嘉兴科隆化工有限公司 Exhaust steam recovery system
CN104632310A (en) * 2015-02-09 2015-05-20 北京北方三合能源技术有限公司 Embedded composite heat supply system and device capable of increasing waste heat of vacuum and condensed water
CN104632312A (en) * 2015-02-05 2015-05-20 梁双印 Parallel composite system and device improving waste heat supplying of vacuum and condensation water
CN104807344A (en) * 2015-04-13 2015-07-29 北京北方三合能源技术有限公司 Dry indirect-cooling-storage type peak cooling system of thermal power generating unit
CN106761981A (en) * 2016-11-28 2017-05-31 中能服能源科技股份有限公司 A kind of thermoelectricity decoupled system for improving hotspot stress
CN107461958A (en) * 2017-08-13 2017-12-12 中清源环保节能有限公司 One kind utilizes jet type heat pump recovery chemical fertilizer factory gas making water residual heat system
CN113375209A (en) * 2021-06-28 2021-09-10 大唐环境产业集团股份有限公司 Large temperature difference heat supply method and system for coal-fired unit coupling compression heat pump
CN113375210A (en) * 2021-06-28 2021-09-10 大唐环境产业集团股份有限公司 Cold end waste heat supply method and system of coupling absorption heat pump
CN114322039A (en) * 2021-12-29 2022-04-12 北京华源泰盟节能设备有限公司 Heat exchange unit for steam heat supply
WO2022100604A1 (en) * 2020-11-10 2022-05-19 张玉良 Thermodynamic boosting-based thermodynamic system and boosting ejector

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CN102758657A (en) * 2012-07-12 2012-10-31 西安交通大学 Brown coal pre-drying power generating system integrated with jet heat pump
CN103471416A (en) * 2013-09-03 2013-12-25 嘉兴科隆化工有限公司 Exhaust steam recovery system
CN103471416B (en) * 2013-09-03 2015-08-19 嘉兴科隆化工有限公司 A kind of dead steam recovery system
CN104632312A (en) * 2015-02-05 2015-05-20 梁双印 Parallel composite system and device improving waste heat supplying of vacuum and condensation water
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CN104807344A (en) * 2015-04-13 2015-07-29 北京北方三合能源技术有限公司 Dry indirect-cooling-storage type peak cooling system of thermal power generating unit
CN104807344B (en) * 2015-04-13 2017-04-19 北京北方三合能源技术有限公司 Dry indirect-cooling-storage type peak cooling system of thermal power generating unit
CN106761981A (en) * 2016-11-28 2017-05-31 中能服能源科技股份有限公司 A kind of thermoelectricity decoupled system for improving hotspot stress
CN107461958A (en) * 2017-08-13 2017-12-12 中清源环保节能有限公司 One kind utilizes jet type heat pump recovery chemical fertilizer factory gas making water residual heat system
WO2022100604A1 (en) * 2020-11-10 2022-05-19 张玉良 Thermodynamic boosting-based thermodynamic system and boosting ejector
CN113375209A (en) * 2021-06-28 2021-09-10 大唐环境产业集团股份有限公司 Large temperature difference heat supply method and system for coal-fired unit coupling compression heat pump
CN113375210A (en) * 2021-06-28 2021-09-10 大唐环境产业集团股份有限公司 Cold end waste heat supply method and system of coupling absorption heat pump
CN114322039A (en) * 2021-12-29 2022-04-12 北京华源泰盟节能设备有限公司 Heat exchange unit for steam heat supply
CN114322039B (en) * 2021-12-29 2023-10-13 北京华源泰盟节能设备有限公司 Heat exchange unit for steam heat supply

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