CN202581529U - Heat energy exchange equipment for wind and electricity - Google Patents

Heat energy exchange equipment for wind and electricity Download PDF

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Publication number
CN202581529U
CN202581529U CN 201220197028 CN201220197028U CN202581529U CN 202581529 U CN202581529 U CN 202581529U CN 201220197028 CN201220197028 CN 201220197028 CN 201220197028 U CN201220197028 U CN 201220197028U CN 202581529 U CN202581529 U CN 202581529U
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China
Prior art keywords
wind
pipeline
equipment
heating system
heat
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Expired - Fee Related
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CN 201220197028
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Chinese (zh)
Inventor
王永智
曲洋
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王永智
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Priority to CN 201220197028 priority Critical patent/CN202581529U/en
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Publication of CN202581529U publication Critical patent/CN202581529U/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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Abstract

The utility model discloses heat energy exchange equipment for wind and electricity. The heat energy exchange equipment is provided with a heat preservation container, wherein the heat preservation container is provided with an electrical heater and a vapor exhaust port; and the heat preservation container is further provided with an atomizer capable of fully forming dispersive water mists. In this way, electrical energy generated by wind power generating equipment can be supplied for a heater for heating through a conducting wire; water mists sprayed by the atomizer absorb heat in a stable high temperature area of a heat energy exchanger, and are instantly vaporized to form vapor; high-energy heat energy is formed, so the utilization ratio of wind energy is improved; especially, when the vapor exhaust port is communicated with a negative pressure vapor-water mixer on a return water pipeline of a heating system through a pipeline, and the atomizer is communicated with a water supply pipeline of the heating system through a pipeline, heating system equipment by heat energy exchange of wind and electricity is formed; and the heating system equipment has high heat transfer efficiency and high energy utilization ratio, can be started up and shut down at any time, and can supply heat within five minutes after being started up.

Description

Wind-powered electricity generation thermal energy exchange equipment
Technical field
The present invention relates to a kind of electric energy of wind-power electricity generation that utilizes and convert the equipment that heat energy heats to; Concrete is a kind of high efficiency wind power generation thermal energy exchange equipment of water formation high-energy water vapour of wind-powered electricity generation heating atomization, and mixes the circulation heating system equipment that the load heat is provided with the recirculated water of heating as required.
Background technology
Heating equipment in the existing heating system all is to produce the heat heating with boiler.Heat with coal burning boiler, account for the city and consume 70% or more of coal total amount (maybe can only utilize coal heat 30% ~ 70%), and contaminated environment.As take central heating, can concentrate and carry out blowdown and handle, though reduced environmental pollution, can not conserve energy, a large amount of pipe networks is not only invested greatly, and the pipe network heat loss of outside line also reaches 30% of total amount of heat very greatly.Wind power generation mainly is to incorporate the electricity that sends into power supply network through ovennodulation now, and reasons such as the equipment more complicated that the energy fluctuation that sends owing to wind energy is bigger, modulation is incorporated into the power networks, interconnection technology parameter request height cause wind-electricity integration difficult; In addition owing to wind-powered peak regulation and the difficulty of dissolving, wind-powered electricity generation such as underuse at reason, cause wind-powered electricity generation to ration the power supply and abandon the generation of wind phenomenon.
Summary of the invention
The object of the invention, providing a kind of is the wind-powered electricity generation thermal energy exchange equipment of the energy with the wind-power electricity generation, and further provides and wind-powered electricity generation thermal energy exchange heating system equipment.
Technical scheme of the present invention is: wind-powered electricity generation thermal energy exchange equipment has cool-bag, and cool-bag has electric heater, and cool-bag has the outlet of steam, and cool-bag also has the atomizer that can fully form disperse water smoke.The electric energy that sends of wind power plant like this; Just can supply with the heater heating through lead; Make generation stable high-temperature region in space in the thermal energy exchange equipment; From the heat absorption instant vaporization in the stable high-temperature region of thermal energy converter of the water smoke of atomizer ejection is steam (completion phase transition process), forms high-octane heat energy form and utilizes, and improves utilization ratio of wind energy.Particularly when the negative pressure steam heater UNICOM of steam outlet through pipeline and water return pipeline; Atomizer is through the UNICOM of pipeline and heating system supply channel; With the thermal source of wind-powered electricity generation thermal energy exchange equipment as heating system; Constitute wind-powered electricity generation thermal energy exchange heating equipment, efficient load for heating provides heat, is called for short wind-powered electricity generation thermal energy exchange equipment.The negative pressure steam heater of water return pipeline can form negative pressure, not only helps the mixed heat transfer of steam, can also improve the calorific value of steam, improves the thermal efficiency.The supply channel of heating system can provide the water of malleation continuously to atomizer, guarantee the effective atomizing of atomizer to water.The circulation line of the hot heating system of wind-powered electricity generation has the circulating pump that provides circularly-supercharged; The circulating pump input is a water return pipeline to the pipeline of load; The circulating pump output is a supply channel to the pipeline of load; Supply channel has by-pass valve control, and to the supply channel UNICOM between the control valve, pressure duct also has control valve through pressure duct and circulating pump for atomizer inlet; Steam outlet is through the negative pressure carbonated drink mixed heat exchanger UNICOM of pipeline and heating system equipment water return pipeline.The wind-powered electricity generation heating system equipment that forms like this, thermal conversion efficiency is high, and capacity usage ratio is high, and at any time can start and close, and starting shooting just to begin to reach heat supply in back five minutes; Flexible operation, heat supply are fast, utilize control module just can effectively control heat supply temperature, the wide ranges that system regulates, regulate flexibly and fast, just can form automatic control at heating system with simple control system, more effectively reach energy-conservation.
Description of drawings
Fig. 1 has represented the structure cutaway view of a kind of wind-powered electricity generation thermal energy exchange of the present invention equipment; Fig. 2 has represented the system schematic of a kind of wind-powered electricity generation thermal energy exchange of the present invention heating equipment, and Fig. 3 has represented the system schematic of a kind of wind-powered electricity generation thermal energy exchange heating equipment with accumulation of energy of the present invention.
The specific embodiment
Embodiment 1, shown in accompanying drawing 1 a kind of wind-powered electricity generation thermal energy exchange equipment of the present invention; A cool-bag is arranged, and cool-bag is by upper sealing plate 16, seamless steel pipe 17, heat-insulation layer 18, heat-insulation layer guard shield 19, seamless steel pipe lower flange 20, constitute with the bolted bottom plate 21 of lower flange.Be provided with electric heater 2 in the cool-bag, the lead 1 of electric heater stretches out outside the cool-bag, is used for being connected with the wind-powered electricity generation network.The bottom plate of cool-bag has steam outlet 22, and has the hickey that is used to be linked with the vapour-discharge tube road.The cool-bag upper end also has the atomizer 4 that stretches in the cool-bag.The electric energy that sends of wind-power electricity generation just can be supplied with the electric heater heating through lead like this, make that the space forms stable high-temperature region in the cool-bag.From the heat absorption instant vaporization in the stable high-temperature region of cool-bag of the water smoke of atomizer ejection is steam (completion phase transition process); Forming high-octane heat energy form utilizes; The electric energy that wind-force sends will be utilized efficiently, and can discharge phase transition energy by high efficient heat exchanging, and it is efficient rapidly to transmit energy.
Embodiment 2, shown in accompanying drawing 2 the hot thermal energy exchange heating equipment of a kind of wind-powered electricity generation of the present invention (with reference to figure 1); The wind-powered electricity generation thermal energy exchange equipment that produces steam is arranged; Wind-powered electricity generation thermal energy exchange equipment has cool-bag 3; Have electric heater 2 and steam outlet in the cool-bag, the cool-bag upper end also has the atomizer 4 that stretches in the cool-bag.The input of heater is connected with the output of wind power plant through lead 1.The electric energy that wind power plant sends; Just can supply with the heater heating through lead; From the heat absorption instant vaporization in the stable high-temperature region of cool-bag of the water smoke of atomizer ejection is steam (completion phase transition process), forms high-octane heat energy form and utilizes, and improves utilization ratio of wind energy.The circulation line of heating system has the circulating pump 10 that provides circularly-supercharged; Pipeline between circulating pump output and the heating load 8 is a supply channel; And having control valve 6, the pipeline between circulating pump input and the heating load 8 is water return pipeline and has negative pressure steam heater 11.Steam outlet is through negative pressure carbonated drink mixed heat exchanger 11 UNICOMs of pipeline (low pressure line) with heating system equipment water return pipeline, and the atomizer inlet is through the supply channel UNICOM of pipeline (pressure duct) with heating system equipment circulation line.The wind-powered electricity generation heating system equipment that constitutes like this, not only efficient load for heating provides heat; Low pressure line is a negative pressure, and the negative pressure that the carbonated drink mixed heat exchanger forms can suck steam as required automatically, also helps steam heat exchange as required, has improved the calorific value of steam heating heat exchange greatly, has improved the thermal efficiency.Pressure duct can provide the water of malleation continuously to atomizer, guarantee the effective atomizing of atomizer to water, can adjust output with the adjustment heat supply at the valve of pipeline setting.The wind-powered electricity generation heating system equipment that forms so at any time can start and close, and the load in back five minutes of starting shooting just can begin to reach heating effect; Operation is as long as by-pass valve control just can be controlled the heat supply balance, and operation is very flexible, heat supply is convenient and swift.Utilize just effective control load heat supply temperature of valve, the wide ranges that system regulates, regulate flexibly and fast, just can form automatic control, more effectively reach energy-conservation at heating system with simple control system.
Embodiment 3, shown in accompanying drawing 3 a kind of wind-powered electricity generation thermal energy exchange heating equipment of the present invention with accumulation of energy; The wind-powered electricity generation thermal energy exchange equipment that produces steam is arranged; The electrical heat energy switching equipment has cool-bag 3; Cool-bag has electric heater 2 and steam outlet 22, and the cool-bag upper end also has the atomizer 4 that stretches in the cool-bag.The input of electric heater is connected with the output of wind power plant through lead 1.The electric energy that wind power plant sends; Just can supply with the heater heating through lead; From the heat absorption instant vaporization in the stable high-temperature region of cool-bag of the water smoke of atomizer ejection is steam (completion phase transition process), forms high-octane heat energy form and utilizes, and improves utilization ratio of wind energy.The circulation line of the hot heating system of wind-powered electricity generation has the circulating pump 10 that provides circularly-supercharged.The circulating pump input is a water return pipeline to the pipeline of heating load 8, and water return pipeline has control valve 14; The circulating pump output is a supply channel to the pipeline of heating load, and has control valve 6 and control valve 7.Steam outlet is through negative pressure carbonated drink mixed heat exchanger 11 UNICOMs of pipeline (low pressure line) with heating system equipment water return pipeline, and the atomizer inlet is through the supply channel UNICOM of pipeline (pressure duct) and control valve 5 and heating system equipment circulation line.Also parallelly connected hot water storage tank 12 is used in heating low peak period store heat between water return pipeline and the supply channel, the heating peak period by hot water storage tank to the load heat supply.Hot water storage tank 12 inlet pipelines are respectively through pipeline and control valve 9,13 and heating load two ends UNICOM.The wind-powered electricity generation heating system equipment that constitutes like this, not only efficient load for heating provides heat; Low pressure line is a negative pressure, and the negative pressure that the carbonated drink mixed heat exchanger forms can suck steam as required automatically, also helps steam mixed heat transfer as required, has improved the calorific value of steam heating heat exchange greatly, has improved the thermal efficiency.Pressure duct can provide the water of malleation continuously to atomizer, guarantee the effective atomizing of atomizer to water, can adjust output with the adjustment heat supply at the valve of pipeline setting.The wind-powered electricity generation heating system equipment that forms so at any time can start and close, and the load in back five minutes of starting shooting just can begin to reach heating effect; Operation is as long as by-pass valve control just can be controlled the heat supply balance, and operation is very flexible, heat supply is convenient and swift.

Claims (6)

1. a wind-powered electricity generation thermal energy exchange equipment has cool-bag, and it is characterized in that: cool-bag has electric heater and steam outlet, cool-bag also have can fully form disperse water smoke atomizer.
2. like the said wind-powered electricity generation thermal energy exchange of claim 1 equipment, it is characterized in that: steam outlet is through pipeline and heating system water return pipeline UNICOM, and atomizer is through pipeline and heating system supply channel UNICOM.
3. like the said wind-powered electricity generation thermal energy exchange of claim 2 equipment; It is characterized in that: steam outlet is through the negative pressure carbonated drink mixed heat exchanger UNICOM of pipeline and heating system water return pipeline, and the atomizer inlet is through pipeline and by-pass valve control and heating system supply channel UNICOM.
4. like claim 1 or 2 said wind-powered electricity generation thermal energy exchange equipment; It is characterized in that: the circulation line of the hot heating system of wind-powered electricity generation has the circulating pump that provides circularly-supercharged; The circulating pump input is a water return pipeline to the pipeline of load, and the circulating pump output is a supply channel to the pipeline of load, and supply channel has by-pass valve control; To the supply channel UNICOM between the control valve, pressure duct also has control valve through pressure duct and circulating pump for atomizer inlet; Steam outlet is through the negative pressure carbonated drink mixed heat exchanger UNICOM of pipeline and heating system equipment water return pipeline.
5. like claim 1 or 2 or 3 said wind-powered electricity generation thermal energy exchange equipment, it is characterized in that: also parallelly connected hot water storage tank between water return pipeline and the supply channel.
6. like the said wind-powered electricity generation thermal energy exchange of claim 4 equipment, it is characterized in that: also parallelly connected hot water storage tank between water return pipeline and the supply channel.
CN 201220197028 2012-05-04 2012-05-04 Heat energy exchange equipment for wind and electricity Expired - Fee Related CN202581529U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 201220197028 CN202581529U (en) 2012-05-04 2012-05-04 Heat energy exchange equipment for wind and electricity

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 201220197028 CN202581529U (en) 2012-05-04 2012-05-04 Heat energy exchange equipment for wind and electricity

Publications (1)

Publication Number Publication Date
CN202581529U true CN202581529U (en) 2012-12-05

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Application Number Title Priority Date Filing Date
CN 201220197028 Expired - Fee Related CN202581529U (en) 2012-05-04 2012-05-04 Heat energy exchange equipment for wind and electricity

Country Status (1)

Country Link
CN (1) CN202581529U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102644961A (en) * 2012-05-04 2012-08-22 王永智 Wind power heat energy exchange equipment

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102644961A (en) * 2012-05-04 2012-08-22 王永智 Wind power heat energy exchange equipment

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C14 Grant of patent or utility model
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20121205

Termination date: 20150504

EXPY Termination of patent right or utility model