CN201560812U - Cogeneration low temperature thermal energy recovery device - Google Patents

Cogeneration low temperature thermal energy recovery device Download PDF

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Publication number
CN201560812U
CN201560812U CN2009202196336U CN200920219633U CN201560812U CN 201560812 U CN201560812 U CN 201560812U CN 2009202196336 U CN2009202196336 U CN 2009202196336U CN 200920219633 U CN200920219633 U CN 200920219633U CN 201560812 U CN201560812 U CN 201560812U
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water
feed water
preheater
pipeline
heat
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刘锋
向文国
高迎旭
田海江
夏彦龙
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BEIJING LIANHE YOUFA ENGINE TECHNOLOGY Co Ltd
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BEIJING LIANHE YOUFA ENGINE TECHNOLOGY Co Ltd
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Abstract

The utility model relates to a cogeneration low temperature thermal energy recovery device which comprises a steam boiler, a steam turbine, a generator, a condenser, a deaerator, a high pressure heater, a cooling tower and a demineralized water pump, wherein the steam turbine is connected with the condenser through a steam exhaust cylinder; and the condenser and the cooling tower are connected through a pipeline so as to form a waterway general circulation. The cogeneration low temperature thermal energy recovery device is characterized in that the device also comprises a water replenishing mixer and a heat pump type feed-water heater, wherein the water replenishing mixer is respectively connected with the condenser and the demineralized water pump through a pipeline; the heat pump type feed-water heater is respectively connected with the water replenishing mixer and the deaerator through a pipeline; and the condenser and the feed-water heater are connected through a pipeline so as to form a waterway tiny circulation. The heat pump type feed-water heater is driven by steam pumped out by the steam turbine. The cogeneration low temperature thermal energy recovery device further comprises an automatic control device. The cogeneration low temperature thermal energy recovery device can reduce the cold source loss and improve the comprehensive heat efficiency.

Description

Cogeneration of heat and power low temperature heat energy recovering device
Technical field
The utility model belongs to energy technology field, relates to cogeneration of heat and power low temperature heat energy recovering device.
Background technique
Cogeneration of heat and power is meant the superheated vapor of being supplied with steam turbine generator by steam boiler, in the expansion acting process, has both born and has generated electricity in steam turbine, is bearing two tasks that steam is provided to different user again.It no longer enters vapour condenser because part or all of (referring to the back pressure type steam turbine generator set) made the steam of merit, is used but supply with other hot user, thereby has improved the efficient of thermal cycle.The purpose of cogeneration of heat and power is to reduce cold source energy.Both made under the operating mode of maximum steam supplying amount, still have and must be discharged to vapour condenser by some steam, the latent heat of vaporization that this part steam is emitted in condensation process is taken away by low-temperature receiver (circulating water), and this part cooling water of taking away heat loses with being discharged in the surrounding environment by its heat after the air cooling of convection current in cooling tower.
Although the cogeneration of heat and power efficiency of cycle is high than pure condensate formula Turbo-generator Set, but still some steam (being commonly called as exhaust steam) is though there is big heat, but grade too low (exhaust steam pressure P=0.004-0.013MPa, exhaust temperature 30-55 ℃) can't be used again.This part steam only under the high vacuum condition of vapour condenser, is condensed into water of condensation, and adds the heat supply boiler again with boiler feedwater.
The latent heat of vaporization that steam (exhaust steam) is emitted when vapour condenser condenses is passed to cooling water (circulating water) by many pipes and is taken away.This part takes away the cooling water of heat, is sent in the vapour condenser by circulating water pump after the air cooling of convection current to recycle in cooling tower again.
The natural suction force that relies on the height of cooling tower body of the tower to form as the air of cooling medium, flowing from bottom to top.Deliver to cooling tower top by the circulating water after the vapour condenser heat absorption through water pump and spray, quilt air stream cooling from bottom to top in dropping process by distribution channel.When carrying out heat exchange, a part of circulating water is evaporated and is discharged in the atmosphere, and the influence that a part of circulating water is subjected to surrounding environment is lost by wind, and some circulating water concentrates blowdown because of repeatedly circulating and loses.In order not reduce the cooling effect of vapour condenser, therefore also need regularly be replenished recirculated cooling water.Its water consumption can reach more than 60% of the full station-service water yield, thereby causes the significant wastage of water resources.
Heat in this part circulating water is taken away and is discharged in the atmosphere by air, is referred to as low temperature heat energy.Enterprises such as cogeneration of heat and power power generation and heat supply are discharged into this part available discarded waste heat in the surrounding environment (atmosphere) in vain by existing technology.By measuring and calculating, a 12MW sucking condensing type Turbo-generator Set per hour will be discharged and can be utilized waste heat to reach 17,802 ten thousand KJ.
How according to steam boiler moisturizing needs, reclaim these discarded heat energy and improve the boiler water-filling temperature, reaching energy-conservation effect is the purpose of this utility model.
The model utility content
Technology of the present utility model is dealt with problems and is: overcome the deficiencies in the prior art, a kind of cogeneration of heat and power low temperature heat energy recovering device that can reduce cold source energy, improve integrated heat efficiency is provided.
Technical solution of the present utility model is:
A kind of cogeneration of heat and power low temperature heat energy recovering device that the utility model provides, comprise steam boiler, steam turbine, generator, vapour condenser, condensate pump, oxygen-eliminating device, high-pressure heater, cooling tower and desalination water pump, described steam turbine is connected with described vapour condenser by exhaust casing, and described vapour condenser and described cooling tower are connected to form the water route major cycle by pipeline; This device also comprises
The moisturizing mixer, the water intake of described moisturizing mixer is connected with described vapour condenser through described condensate pump, the water intake of described moisturizing mixer also is connected by the water outlet of pipeline with described desalination water pump, and the water outlet of described moisturizing mixer is connected with the water intake of described feed water preheater by pipeline;
Feed water preheater, the water intake of described feed water preheater is connected by the water outlet of pipeline with described moisturizing mixer, the water outlet of described feed water preheater is connected with the water intake of described oxygen-eliminating device by pipeline, and the steam inlet of described feed water preheater is connected with the exhaust pipe of described steam turbine; Described vapour condenser, described feed water preheater and described cooling tower are connected to form the water route short circle by pipeline.
Described feed water preheater is the heat pump type feed water preheater.
Further, this device also comprises
Vacuum pump is connected with the bleeding point of described feed water preheater;
The vacuum pump controller is used to keep described feed water preheater to be in vacuum state.
Further, this device also comprises
Temperature controller is installed in the water intake of described oxygen-eliminating device;
The first flow controller is installed in the steam inlet of described feed water preheater;
Second flow dontroller is installed in the water intake of feed water preheater described in the short circle of water route.
Further, this device also comprises the monitoring unit that is used for showing temperature value, flow value and vacuum pressure value, and described monitoring unit is connected with described temperature controller, described first flow controller, described second flow dontroller and described vacuum pump controller.
The another kind of cogeneration of heat and power low temperature heat energy recovering device that the utility model provides, comprise steam boiler, steam turbine, generator, vapour condenser, condensate pump, low-pressure heater, oxygen-eliminating device, high-pressure heater, cooling tower and desalination water pump, described steam turbine is connected with described vapour condenser by exhaust casing, and described vapour condenser and described cooling tower are connected to form the water route major cycle by pipeline; The water intake of described low-pressure heater is connected with described vapour condenser through described condensate pump, the water outlet of described low-pressure heater is connected with the water intake of described oxygen-eliminating device by pipeline, the steam inlet of described low-pressure heater is connected with the exhaust pipe of described steam turbine, and the drain port of described low-pressure heater is connected with described vapour condenser by pipeline; This device also comprises feed water preheater, the water intake of described feed water preheater is connected by the water outlet of pipeline with described desalination water pump, the water outlet of described feed water preheater is connected with the water intake of described oxygen-eliminating device by pipeline, and the steam inlet of described feed water preheater is connected with the exhaust pipe of described steam turbine; Described vapour condenser, described feed water preheater and described cooling tower are connected to form the water route short circle by pipeline.
The utility model compared with prior art has following advantage:
(1) a kind of scheme of the present utility model replaces low-pressure heater of the prior art by the heat pump type feed water preheater, increase the water route short circle between vapour condenser, feed water preheater and the cooling tower, also by increasing the moisturizing mixer, demineralized water and water of condensation are sent into the heat pump type feed water preheater after mixing in the moisturizing mixer, the heat pump type feed water preheater utilizes heat in the low-temperature heat source water that vapour condenser sends here to this mixing water heating, and the water after will heating is again sent into oxygen-eliminating device.Not only effectively utilize the heat in the low-temperature heat source water, and reduced the heat transfer irreversible loss that the temperature difference of heating steam and supplementing water (the heat pump type feed water preheater is delivered to the water of oxygen-eliminating device) causes in the oxygen-eliminating device.
(2) the part steam extracted out by steam turbine of heat pump type feed water preheater of the present utility model is as driving heat source, thereby all the other steam continue that acting has increased generated energy in steam turbine, and then improves unit efficiency.
(3) heat pump type feed water preheater of the present utility model is worked under vacuum condition, has reduced the thermal loss of heat exchange in the heat pump type feed water preheater.
(4) the utility model has increased temperature controller and flow dontroller, if the mixed water temperature of the outlet of described heat pump type feed water preheater is less than setting temperature, then increase the admission flow of described heat pump type feed water preheater, strengthen the water intake flow of heat pump type feed water preheater described in the short circle of water route simultaneously; If the mixed water temperature of described heat pump type feed water preheater outlet then reduces the admission flow of described heat pump type feed water preheater greater than setting temperature, reduce the water intake flow of heat pump type feed water preheater described in the short circle of water route simultaneously.Make that the automatization level of cogeneration of heat and power industry is higher.
(5) the utility model is by monitoring unit, can the showing temperature value, flow value and vacuum pressure value, and make device more convenient to operate.
(6) another kind of scheme of the present utility model is by increasing the heat pump type feed water preheater, the desalination water pump is directly delivered to feed water preheater with demineralized water, feed water preheater utilizes the heat in the low-temperature heat source water that vapour condenser sends here that demineralized water is heated, and the water after will heating is again sent into oxygen-eliminating device.Not only effectively utilize the heat in the low-temperature heat source water, and reduced the heat transfer irreversible loss that the temperature difference of heating steam and supplementing water (the heat pump type feed water preheater is delivered to the water of oxygen-eliminating device) causes in the oxygen-eliminating device.
Description of drawings
Fig. 1 is that the cogeneration of heat and power low temperature heat energy of prior art reclaims schematic representation.
Fig. 2 is that the utility model embodiment one cogeneration of heat and power low temperature heat energy reclaims schematic representation.
Fig. 3 is that the utility model embodiment two cogeneration of heat and power low temperature heat energy reclaims schematic representation.
Among the figure, 1-steam turbine, 2-vapour condenser, 3-condensate pump, 4-oxygen-eliminating device, 5-high-pressure heater, 6-cooling tower, 7-circulating water pump, 8-moisturizing mixer, 9-feed water preheater, 10-low-pressure heater, 11-desalination water pump.
Embodiment
Below with reference to accompanying drawing embodiment of the present utility model is described.
As shown in Figure 1, the typical feature of prior art is:
(1) desalination water pump 11 is directly delivered to oxygen-eliminating device 4 with demineralized water;
(2) low-pressure heater 10 utilizes the steam of steam turbine 2 extractions that water of condensation is heated, and water of condensation is delivered to oxygen-eliminating device 4 again.
Embodiment one:
As shown in Figure 2, cogeneration of heat and power low temperature heat energy recovering device comprises steam boiler, steam turbine 1, generator, vapour condenser 2, condensate pump 3, oxygen-eliminating device 4, high-pressure heater 5, cooling tower 6 and desalination water pump 11, described steam turbine 1 is connected with described vapour condenser 2 by exhaust casing, and described vapour condenser 2 is connected to form the water route major cycle with described cooling tower 6 by pipeline; This device also comprises:
Moisturizing mixer 8, the water intake of described moisturizing mixer is connected with described vapour condenser through described condensate pump, the water intake of described moisturizing mixer also is connected by the water outlet of pipeline with described desalination water pump, and the water outlet of described moisturizing mixer is connected with the water intake of described feed water preheater by pipeline;
Feed water preheater 9, the water intake of described feed water preheater is connected by the water outlet of pipeline with described moisturizing mixer, the water outlet of described feed water preheater is connected with the water intake of described oxygen-eliminating device by pipeline, the steam inlet of described feed water preheater is connected with the exhaust pipe of described steam turbine, by the described heat pump type feed water preheater of steam driven of described steam turbine extraction; Described vapour condenser, described feed water preheater and described cooling tower are connected to form the water route short circle by pipeline.
Described feed water preheater is the heat pump type feed water preheater.
All by valve control, the utility model adopts automatic regulating valve door (also can adopt manually-operated gate) in above-mentioned pipeline joint (water intake, water outlet, steam inlet, steam ouput).
Feed water preheater 9 effect of working under vacuum condition is best, and therefore, this device also comprises:
Vacuum pump is connected with the bleeding point of described feed water preheater;
The vacuum pump controller links to each other with vacuum pump, is used to keep described feed water preheater to be in vacuum state.
Robot device in this device comprises:
Temperature controller is installed in the water intake of described oxygen-eliminating device;
The first flow controller is installed in the steam inlet of described feed water preheater;
Second flow dontroller is installed in the water intake of feed water preheater described in the short circle of water route.
Monitoring unit is connected with described temperature controller, described first flow controller, described second flow dontroller and described vacuum pump controller, is used for showing temperature value, flow value and vacuum pressure value.
Further, this device also can locate to install flow dontroller at the water outlet of described moisturizing mixer 8, the water outlet of described desalination water pump 11 etc.
The cogeneration of heat and power low temperature heat energy recovering device that present embodiment provides, its working principle is:
(1) steam turbine enters vapour condenser by exhaust casing with exhaust steam, and vapour condenser and cooling tower form the water route major cycle, and the cooling water that the latent heat of vaporization in the described exhaust steam is sent here by cooling tower in vapour condenser forms water of condensation to its condensation;
(2) described vapour condenser is sent described water of condensation into the moisturizing mixer, and the desalination water pump is sent into described moisturizing mixer with demineralized water by pipeline, and described demineralized water and described water of condensation are mixed the formation mixing water in described moisturizing mixer;
(3) described moisturizing mixer is sent described mixing water into feed water preheater, the steam driven that described feed water preheater is extracted out by described steam turbine;
(4) described vapour condenser, described feed water preheater and described cooling tower form the water route short circle, and described feed water preheater utilizes the heat in the low-temperature heat source water that described vapour condenser sends here that described mixing water is heated, and the water after will heating is sent into oxygen-eliminating device.Owing to regained the heat in the low-temperature heat source water, low-temperature heat source water water temperature reduces, and can also reduce quantity of circulating water, changes circulating water pump into speed-adjustable motor (frequency conversion) and reduces circulating water pump power consumption, using electricity wisely.
In the working procedure,
(1) if the mixed water temperature of described heat pump type feed water preheater less than setting value, then has two kinds of situations, may be that the import rate of air sucked in required is few, also may be that low-temperature heat source water is few, at this moment will increase extraction flow, strengthens described low-temperature heat source water water inlet flow simultaneously;
(2) if the mixed water temperature in the described feed water preheater greater than setting value, then has two kinds of situations, may be that the import rate of air sucked in required is many, also may be low-temperature heat source water is many, at this moment to reduce extraction flow, reduce described low-temperature heat source water water inlet flow simultaneously.
The utility model mainly is to adopt extracted steam from turbine to drive the heat pump type feed water preheater to reclaim the waste heat that each system of Turbo-generator Set is discharged in the thermal energy exchange process, the heating boiler feedwater improves its temperature, what change was continued to use always is the heat exchange pattern of thermal source with the initial steam, reach the reduction circulating water temperature, reduce the circulating cooling make-up water amount, improve heat exchange efficiency and then reduce circulating water pump power, reduce station service.And when equal steam turbine inlet steam amount, increase generated energy or under steam turbine generator rated power, reduce the saving of boiler air demand and burn the coal amount, improve full factory integrated heat efficiency, the purpose that reaches energy-saving and emission-reduction and increase economic efficiency.
With a 12MW sub-high pressure, inferior high temperature sucking condensing type Turbo-generator Set is example, and annual utilization hours calculated by 7200 hours.
(1) utilizing circulating water low grade heat energy heating boiler supplementing water to reduce cold source energy year after next can multiple electricity 7,100,000 kWh, can also save a part of circulating water pump power consumption simultaneously.
(2) be 2835 tons by design vapour condenser quantity of circulating water, circulating water is evaporation loss, windage loss and blowdown loss in the cooling tower cooling procedure, and its amount of makeup water is generally considered by 4%~6%.The heat pump type feed water preheater reclaims tow taste heat in the circulating water and only uses the nearly 30% of quantity of circulating water, and circulating water temperature has dropped to about about 25 ℃, if amount of makeup water considers by 4%, can reduce nearly 250,000 tons of amount of makeup water every year.
(3) will improve full factory integrated heat efficiency nearly about 5% after the utility model heat recovery.
Embodiment two:
Different with embodiment one is, demineralized water is delivered to the feed water preheater heating, and water of condensation is delivered to the low-pressure heater heating.
As shown in Figure 3, cogeneration of heat and power low temperature heat energy recovering device comprises steam boiler, steam turbine 1, generator, vapour condenser 2, condensate pump 3, low-pressure heater 10, oxygen-eliminating device 4, high-pressure heater 5, cooling tower 6 and desalination water pump 11, described steam turbine 1 is connected with described vapour condenser 2 by exhaust casing, and described vapour condenser 2 is connected to form the water route major cycle with described cooling tower 6 by pipeline; The water intake of described low-pressure heater 10 is connected with described vapour condenser 2 through described condensate pump 3, the water outlet of described low-pressure heater 10 is connected by the water intake of pipeline with described oxygen-eliminating device 4, the steam inlet of described low-pressure heater 10 is connected with the exhaust pipe of described steam turbine 1, and the drain port of described low-pressure heater 10 is connected (dotted portion among the figure) by pipeline with described vapour condenser 2; This device also comprises feed water preheater 9, the water intake of described feed water preheater 9 is connected by the water outlet of pipeline with described desalination water pump 11, the water outlet of described feed water preheater 9 is connected by the water intake of pipeline with described oxygen-eliminating device 4, the steam inlet of described feed water preheater 9 links to each other with extraction control valve by pipeline, described extraction control valve is connected with the bleed steam pipework of described steam turbine 1, by the described feed water preheater 9 of steam driven of described steam turbine 1 extraction; Described vapour condenser 2, described feed water preheater 9 are connected to form the water route short circle with described cooling tower 6 by pipeline.
All by valve control, the utility model adopts automatic regulating valve door (also can adopt manually-operated gate) in above-mentioned pipeline joint (water intake, water outlet, steam inlet, steam ouput).
Robot device in this device comprises:
Temperature controller is installed in the water intake of described oxygen-eliminating device;
The first flow controller is installed in the water outlet on described demineralized water pump line road;
Second flow dontroller is installed in the water intake of heat pump type feed water preheater described in the short circle of water route;
Monitoring unit is connected with described temperature controller, described first flow controller and described second flow dontroller, is used for showing temperature value and flow value.
The cogeneration of heat and power low temperature heat energy recovering device that present embodiment provides, its working principle is:
(1) steam turbine enters vapour condenser by exhaust casing with exhaust steam, and vapour condenser and cooling tower form the water route major cycle, and the cooling water that the latent heat of vaporization in the described exhaust steam is sent here by cooling tower in vapour condenser forms water of condensation to its condensation;
(2) described vapour condenser is sent described water of condensation into low-pressure heater, the steam driven that described low-pressure heater is extracted out by described steam turbine, and described low-pressure heater is sent into oxygen-eliminating device after described water of condensation is heated;
(3) the desalination water pump is sent into feed water preheater with demineralized water by pipeline, the steam driven that described feed water preheater is extracted out by described steam turbine;
(4) described vapour condenser, described feed water preheater and described cooling tower form the water route short circle, and described feed water preheater utilizes the heat in the low-temperature heat source water that described vapour condenser sends here that described demineralized water is heated, and the water after will heating is sent into oxygen-eliminating device.
Owing to effectively utilized the heat in the low-temperature heat source water, reduced the steam consumption that steam turbine extracts, make the steam flow that continues in steam turbine, to do work increase, thereby increased generated energy, and then the raising unit efficiency, under the situation of same heating load, electric heating proportion is improved; In addition, owing to the heat of having regained in the low-temperature heat source water, low-temperature heat source water water temperature reduces, and can also reduce quantity of circulating water, changes circulating water pump into speed-adjustable motor (frequency conversion) and reduces circulating water pump power consumption, using electricity wisely.
In the working procedure,
(1) if the outlet moisturizing temperature of described feed water preheater less than setting value, then has two kinds of situations, may be that the steam inlet amount of drawing gas is few, also may be that low-temperature heat source water is few, at this moment will increase extraction flow, strengthens described low-temperature heat source water water inlet flow simultaneously;
(2) if the outlet moisturizing temperature of described feed water preheater greater than setting value, then has two kinds of situations, may be that the steam inlet amount of drawing gas is many, also may be low-temperature heat source water is many, at this moment to reduce extraction flow, reduce described low-temperature heat source water water inlet flow simultaneously.
The content that is not described in detail in the utility model specification belongs to related domain professional and technical personnel's known technology.
The utility model is not limited to the content that claim and the foregoing description are addressed, so long as any model utility of creating out according to design of the present utility model all should belong within the protection domain of the present utility model.

Claims (10)

1. cogeneration of heat and power low temperature heat energy recovering device, comprise steam boiler, steam turbine, generator, vapour condenser, condensate pump, oxygen-eliminating device, high-pressure heater, cooling tower and desalination water pump, described steam turbine is connected with described vapour condenser by exhaust casing, and described vapour condenser and described cooling tower are connected to form the water route major cycle by pipeline; It is characterized in that this device also comprises
The moisturizing mixer, the water intake of described moisturizing mixer is connected with described vapour condenser through described condensate pump, the water intake of described moisturizing mixer also is connected by the water outlet of pipeline with described desalination water pump, and the water outlet of described moisturizing mixer is connected with the water intake of described feed water preheater by pipeline;
Feed water preheater, the water intake of described feed water preheater is connected by the water outlet of pipeline with described moisturizing mixer, the water outlet of described feed water preheater is connected with the water intake of described oxygen-eliminating device by pipeline, and the steam inlet of described feed water preheater is connected with the exhaust pipe of described steam turbine; Described vapour condenser, described feed water preheater and described cooling tower are connected to form the water route short circle by pipeline.
2. cogeneration of heat and power low temperature heat energy recovering device according to claim 1 is characterized in that described feed water preheater is the heat pump type feed water preheater.
3. cogeneration of heat and power low temperature heat energy recovering device according to claim 2 is characterized in that this device also comprises
Vacuum pump is connected with the bleeding point of described feed water preheater;
The vacuum pump controller is used to keep described feed water preheater to be in vacuum state.
4. cogeneration of heat and power low temperature heat energy recovering device according to claim 3 is characterized in that this device also comprises
Temperature controller is installed in the water intake of described oxygen-eliminating device;
The first flow controller is installed in the steam inlet of described feed water preheater;
Second flow dontroller is installed in the water intake of feed water preheater described in the short circle of water route.
5. cogeneration of heat and power low temperature heat energy recovering device according to claim 4, it is characterized in that, this device also comprises the monitoring unit that is used for showing temperature value, flow value and vacuum pressure value, and described monitoring unit is connected with described temperature controller, described first flow controller, described second flow dontroller and described vacuum pump controller.
6. cogeneration of heat and power low temperature heat energy recovering device, comprise steam boiler, steam turbine, generator, vapour condenser, condensate pump, low-pressure heater, oxygen-eliminating device, high-pressure heater, cooling tower and desalination water pump, described steam turbine is connected with described vapour condenser by exhaust casing, and described vapour condenser and described cooling tower are connected to form the water route major cycle by pipeline; The water intake of described low-pressure heater is connected with described vapour condenser through described condensate pump, the water outlet of described low-pressure heater is connected with the water intake of described oxygen-eliminating device by pipeline, the steam inlet of described low-pressure heater is connected with the exhaust pipe of described steam turbine, and the drain port of described low-pressure heater is connected with described vapour condenser by pipeline; It is characterized in that, this device also comprises feed water preheater, the water intake of described feed water preheater is connected by the water outlet of pipeline with described desalination water pump, the water outlet of described feed water preheater is connected with the water intake of described oxygen-eliminating device by pipeline, and the steam inlet of described feed water preheater is connected with the exhaust pipe of described steam turbine; Described vapour condenser, described feed water preheater and described cooling tower are connected to form the water route short circle by pipeline.
7. cogeneration of heat and power low temperature heat energy recovering device according to claim 6 is characterized in that described feed water preheater is the heat pump type feed water preheater.
8. cogeneration of heat and power low temperature heat energy recovering device according to claim 7 is characterized in that this device also comprises
Vacuum pump is connected with the bleeding point of described feed water preheater;
The vacuum pump controller is used to keep described feed water preheater to be in vacuum state.
9. cogeneration of heat and power low temperature heat energy recovering device according to claim 8 is characterized in that this device also comprises
Temperature controller is installed in the water intake of described oxygen-eliminating device;
The first flow controller is installed in the steam inlet of described feed water preheater;
Second flow dontroller is installed in the water intake of feed water preheater described in the short circle of water route.
10. cogeneration of heat and power low temperature heat energy recovering device according to claim 9, it is characterized in that, this device also comprises the monitoring unit that is used for showing temperature value, flow value and vacuum pressure value, and described monitoring unit is connected with described temperature controller, described first flow controller, described second flow dontroller and described vacuum pump controller.
CN2009202196336U 2009-10-30 2009-10-30 Cogeneration low temperature thermal energy recovery device Expired - Lifetime CN201560812U (en)

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CN102032612A (en) * 2010-10-26 2011-04-27 北京国电电科院节能技术有限公司 Cogeneration energy-saving device and method using residual heat of direct air-cooling unit to supply heat
CN102200117A (en) * 2011-03-28 2011-09-28 北京中科华誉能源投资管理有限公司 System and method for recycling waste heat of cooling circulated water of air compression station
CN102607088A (en) * 2012-03-29 2012-07-25 兖州煤业股份有限公司 High-efficiency and energy-saving heating method and heating system
CN101696643B (en) * 2009-10-30 2012-09-19 北京联合优发能源技术有限公司 Low-temperature heat energy recovering apparatus of heat and electricity co-generation and recovering method thereof
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CN104603554A (en) * 2012-06-25 2015-05-06 梵酷瓦特股份公司 Heat exchanger facility
CN104990065A (en) * 2015-06-11 2015-10-21 江苏永钢集团有限公司 Boiler feed water circulating deoxidation system in turbine generator set
CN105298822A (en) * 2015-11-12 2016-02-03 华电电力科学研究院 Method for evaluating heat loss rate of operating economic performance of circulating water pump of straight condensing unit
CN107143842A (en) * 2017-06-29 2017-09-08 大唐贵州兴仁发电有限公司 A kind of high-pressure heater quick start system
CN107869713A (en) * 2017-11-24 2018-04-03 浙江巨化热电有限公司 A kind of steam power plant's low grade residual heat reuse means and method

Cited By (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101696643B (en) * 2009-10-30 2012-09-19 北京联合优发能源技术有限公司 Low-temperature heat energy recovering apparatus of heat and electricity co-generation and recovering method thereof
CN101968236A (en) * 2010-09-03 2011-02-09 北京中科华誉能源技术发展有限责任公司 System for realizing combined heating based on extraction steam for heating and lithium bromide unit
CN102032612A (en) * 2010-10-26 2011-04-27 北京国电电科院节能技术有限公司 Cogeneration energy-saving device and method using residual heat of direct air-cooling unit to supply heat
CN102200117A (en) * 2011-03-28 2011-09-28 北京中科华誉能源投资管理有限公司 System and method for recycling waste heat of cooling circulated water of air compression station
CN102840573A (en) * 2011-06-24 2012-12-26 同方节能工程技术有限公司 Water replenishing preheating system of thermal power plant
CN102607088A (en) * 2012-03-29 2012-07-25 兖州煤业股份有限公司 High-efficiency and energy-saving heating method and heating system
CN104603554A (en) * 2012-06-25 2015-05-06 梵酷瓦特股份公司 Heat exchanger facility
CN104990065A (en) * 2015-06-11 2015-10-21 江苏永钢集团有限公司 Boiler feed water circulating deoxidation system in turbine generator set
CN105298822A (en) * 2015-11-12 2016-02-03 华电电力科学研究院 Method for evaluating heat loss rate of operating economic performance of circulating water pump of straight condensing unit
CN105298822B (en) * 2015-11-12 2017-07-11 华电电力科学研究院 Evaluate the heat waste rate method of pure condensate unit water circulating pump performance driving economy
CN107143842A (en) * 2017-06-29 2017-09-08 大唐贵州兴仁发电有限公司 A kind of high-pressure heater quick start system
CN107869713A (en) * 2017-11-24 2018-04-03 浙江巨化热电有限公司 A kind of steam power plant's low grade residual heat reuse means and method

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