CN204717646U - A kind of solar steam energy distribution pipe-line system - Google Patents

A kind of solar steam energy distribution pipe-line system Download PDF

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Publication number
CN204717646U
CN204717646U CN201520447046.8U CN201520447046U CN204717646U CN 204717646 U CN204717646 U CN 204717646U CN 201520447046 U CN201520447046 U CN 201520447046U CN 204717646 U CN204717646 U CN 204717646U
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steam
heater
pipeline
solar
control valve
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CN201520447046.8U
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李泽明
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Chifang guangre (Yunnan) Environmental Protection Technology Co.,Ltd.
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李泽明
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Abstract

The utility model relates to a kind of solar steam energy distribution pipe-line system, belong to solar energy resources and utilize technical field, described solar steam energy distribution pipe-line system mainly comprises electromagnetic heater I, electromagnetic heater II, incubator, steam heater, solar steam generating device, storage heater, plate type heat exchanger, gas utilization unit; The utility model is distributed by many pipelines, and the steam of energy output different temperatures specification, increases the scope of application of steam; Especially, adopt branch path 2-1 can substitute conventional boiler output high-temperature steam, meet different industrial demand, decreasing pollution, economizes on resources, and storage heater, solar steam generating device and electromagnetic heater cooperatively interact, make full use of solar energy, can the output steam continued be stablized, reduce steam output cost, promote the use potentiality large.

Description

A kind of solar steam energy distribution pipe-line system
Technical field
The utility model belongs to solar energy resources and utilizes technical field, specifically, relates to a kind of solar steam energy distribution pipe-line system.
Background technology
The technology of current vacuum pipe solar thermal-arrest, solar energy power generating is all quite ripe, application aspect is confined to provide hot water for life, street lighting, generate electricity by way of merging two or more grid systems, also seldom relate to the application of industrial or agricultural equipment aspect, and be unable to do without the use of steam in some industrial and agricultural productions.
Traditional fuel oil, fire coal, gas fired-boiler all need when using to consume traditional fuel, and can cause pollution in various degree to environment, and use civil power producing steam, although simple to operate, pollution-free, operating cost is higher, uneconomical for industrial production.Existing solar steam device can obtain more than 100 DEG C steam, but overcast and rainy or night, the exploitation of solar energy had great limitation, and institute's producing steam temperature is not high, output efficiency is low, different industrial demand cannot be met, so how utilizing this heat energy the energy is assisted and produced more stable high-temperature steam is problem demanding prompt solution in addition.
Summary of the invention
In order to overcome the deficiencies in the prior art, the utility model provides a kind of solar steam energy distribution pipe-line system, and distribute by many pipelines, the steam of output different temperatures specification, increases the scope of application of steam; Substitute conventional boiler producing steam, decreasing pollution, economizes on resources; Storage heater coordinates the output steam can stablized and continue with solar steam generating device, and improves the temperature of steam, more can meet industrial requirement.
In order to achieve the above object, the utility model proposes following technical scheme:
Described solar steam energy distribution pipe-line system mainly comprises electromagnetic heater I, electromagnetic heater II, incubator, steam heater, solar steam generating device, storage heater, plate type heat exchanger, gas utilization unit; Pipeline extends forward from soft water import department and is connected with flow direction control valve I, and pipeline is therebetween provided with valve control water meter, main pump and check-valves successively, and pipeline is divided into two branch roads through flow direction control valve I;
Branch road 1: extend past electromagnetic heater I from flow direction control valve I pipeline and arrive storage heater, then extend past check-valves and plate type heat exchanger arrival gas utilization unit from storage heater, finally extend from gas utilization unit and get back to solar steam generating device;
Branch road 2: extend past follow-up the reneing of solar steam generating device from flow direction control valve I pipeline and extend flow direction control valve II, pipeline is divided into two branch path through flow direction control valve II;
Branch path 2-1: extend past electromagnetic heater I from flow direction control valve II pipeline and arrive storage heater, then extend past check-valves and plate type heat exchanger arrival gas utilization unit from storage heater, finally extend from gas utilization unit and get back to solar steam generating device;
Branch path 2-2: extend into the steam heater in incubator from flow direction control valve II pipeline, extend from steam heater again, arrive gas utilization unit through electromagnetic heater II, check-valves and plate type heat exchanger successively, finally extend from gas utilization unit and get back to solar steam generating device.
The pipeline of described soft water import, incubator and the pipeline between solar steam generating device and flow direction control valve II are equipped with temperatuer detector.
The beneficial effects of the utility model: the utility model is distributed by many pipelines, the steam of energy output different temperatures specification, increases the scope of application of steam; Especially, adopt branch path 2-1 can substitute conventional boiler output high-temperature steam, meet different industrial demand, decreasing pollution, economizes on resources, and is coordinated with solar steam generating device, electromagnetic heater by storage heater, make full use of solar energy, can the output steam continued be stablized, reduce steam output cost, promote the use potentiality large.
Accompanying drawing explanation
Fig. 1 is that pipeline of the present utility model distributes schematic diagram.
In figure, the import of 1-soft water, 2-temperatuer detector, 3-valve control water meter, 4-main pump, 5-check-valves, 6-flow direction control valve I, 7-solar steam generating device, 8-flow direction control valve II, 9-electromagnetic heater I, 10-storage heater, 11-incubator, 12-steam heater, 13-electromagnetic heater II, 14-plate type heat exchanger, 15-gas utilization unit.
Detailed description of the invention
In order to make the purpose of this utility model, technical scheme and beneficial effect clearly, below in conjunction with accompanying drawing, preferred embodiment of the present utility model is described in detail, to facilitate the technical staff to understand.
As shown in Figure 1, described solar steam energy distribution pipe-line system mainly comprises electromagnetic heater I 9, electromagnetic heater II 13, incubator 11, steam heater 12, solar steam generating device 7, storage heater 10, plate type heat exchanger 14, gas utilization unit 15; Pipeline extends forward from soft water import 1 place and is connected with flow direction control valve I 6, and pipeline is provided with successively valve control water meter 3, main pump 4 and check-valves 5, and pipeline is divided into two branch roads through flow direction control valve I 6;
Branch road 1: extend past electromagnetic heater I 9 from flow direction control valve I 6 pipeline and arrive storage heater 10, extend past check-valves 5 from storage heater 10 again and plate type heat exchanger 14 arrives gas utilization unit 15, finally extend from gas utilization unit 15 and get back to solar steam generating device 7;
Branch road 2: extend past follow-up the reneing of solar steam generating device 7 from flow direction control valve I 6 pipeline and extend flow direction control valve II 8, pipeline is divided into two branch path through flow direction control valve II 8;
Branch path 2-1: extend past electromagnetic heater I 9 from flow direction control valve II 8 pipeline and arrive storage heater 10, extend past check-valves 5 from storage heater 10 again and plate type heat exchanger 14 arrives gas utilization unit 15, finally extend from gas utilization unit 15 and get back to solar steam generating device 7.When solar radiation is sufficient, close electromagnetic heater I 9, save electric energy; When the period of night, winter or the solar radiation abundance such as overcast and rainy, open electromagnetic heater I 9 and carry out Electromagnetic Heating, improve the temperature of output steam from solar steam device further.
Branch path 2-2: extend into the steam heater 12 in incubator 11 from flow direction control valve II 8 pipeline, extend from steam heater 12 again, arrive gas utilization unit 15 through electromagnetic heater II 13, check-valves 5 and plate type heat exchanger 14 successively, finally extend from gas utilization unit 15 and get back to solar steam generating device 7.
The pipeline of described soft water import 1, incubator 11 and the pipeline between solar steam generating device 7 and flow direction control valve II 8 are equipped with temperatuer detector 2, Real-Time Monitoring is carried out to the temperature of the water in pipeline or steam.
When selecting branch road 1, soft water enters pipeline from soft water import 1, after valve control water meter 3, by main pump 4 pump to flow direction control valve I 6, flowing through after electromagnetic heater I 9 heats from flow direction control valve I 6 enters in storage heater 10, after the steam that output temperature is higher from storage heater 10, then enter gas utilization unit 15 and use after plate type heat exchanger 14 processes, the condensate return after finally using gets back to solar steam generating device 7.
As selection branch path 2-1, and solar radiation inadequate time, soft water enters pipeline from soft water import 1, after valve control water meter 3, by main pump 4 pump to flow direction control valve I 6, solar steam generating device 7 is flowed to from flow direction control valve I 6, shunted by flow direction control valve II 8 again, enter in storage heater 10 after electromagnetic heater I 9 heats, after the steam that output temperature is higher from storage heater 10, after plate type heat exchanger 14 processes, enter gas utilization unit 15 again to use, the condensate return after finally using gets back to solar steam generating device 7.When solar radiation is sufficient, electromagnetic heater I 9 is closed, directly enter in storage heater 10 without electromagnetic heater I 9 heating.By solar steam generating device 7, storage heater 10, the cooperatively interacting of electromagnetic heater, make up the low and defect of instability of solar steam generating device 7 producing steam temperature, continue output high-temperature steam, reduce steam cost, again after plate type heat exchanger 14 carries out smart allocation, different industrial demand can be met.
When selecting branch path 2-2, soft water enters pipeline from soft water import 1, after valve control water meter 3, by main pump 4 pump to flow direction control valve I 6, solar steam generating device 7 is flowed to from flow direction control valve I 6, shunted by flow direction control valve II 8 again, enter in the steam heater 12 in incubator 11, heat through electromagnetic heater II 13 again after steam heater 12 processes, then after plate type heat exchanger 14 processes, enter gas utilization unit 15 to use, the condensate return after finally using gets back to solar steam generating device 7.
The utility model is distributed by many pipelines, and the steam of energy output different temperatures specification, increases the scope of application of steam; Especially, adopt branch path 2-1 can substitute conventional boiler output high-temperature steam, meet different industrial demand, decreasing pollution, economizes on resources, and is coordinated with solar steam generating device, electromagnetic heater by storage heater, make full use of solar energy, can the output steam continued be stablized, reduce steam output cost, promote the use potentiality large.
What finally illustrate is, above preferred embodiment is only in order to illustrate the technical solution of the utility model and unrestricted, although be described in detail the utility model by above preferred embodiment, but those skilled in the art are to be understood that, various change can be made to it in the form and details, and not depart from the utility model claims limited range.

Claims (2)

1. a solar steam energy distribution pipe-line system, is characterized in that: described solar steam energy distribution pipe-line system mainly comprises electromagnetic heater I, electromagnetic heater II, incubator, steam heater, solar steam generating device, storage heater, plate type heat exchanger, gas utilization unit; Pipeline extends forward from soft water import department and is connected with flow direction control valve I, and pipeline is therebetween provided with valve control water meter, main pump and check-valves successively, and pipeline is divided into two branch roads through flow direction control valve I;
Branch road 1: extend past electromagnetic heater I from flow direction control valve I pipeline and arrive storage heater, then extend past check-valves and plate type heat exchanger arrival gas utilization unit from storage heater, finally extend from gas utilization unit and get back to solar steam generating device;
Branch road 2: extend past follow-up the reneing of solar steam generating device from flow direction control valve I pipeline and extend flow direction control valve II, pipeline is divided into two branch path through flow direction control valve II;
Branch path 2-1: extend past electromagnetic heater I from flow direction control valve II pipeline and arrive storage heater, then extend past check-valves and plate type heat exchanger arrival gas utilization unit from storage heater, finally extend from gas utilization unit and get back to solar steam generating device;
Branch path 2-2: extend into the steam heater in incubator from flow direction control valve II pipeline, extend from steam heater again, arrive gas utilization unit through electromagnetic heater II, check-valves and plate type heat exchanger successively, finally extend from gas utilization unit and get back to solar steam generating device.
2. a kind of solar steam energy distribution pipe-line system according to claim 1, is characterized in that: the pipeline of described soft water import, incubator and the pipeline between solar steam generating device and flow direction control valve II are equipped with temperatuer detector.
CN201520447046.8U 2015-06-26 2015-06-26 A kind of solar steam energy distribution pipe-line system Active CN204717646U (en)

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Application Number Priority Date Filing Date Title
CN201520447046.8U CN204717646U (en) 2015-06-26 2015-06-26 A kind of solar steam energy distribution pipe-line system

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Application Number Priority Date Filing Date Title
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109899774A (en) * 2017-12-11 2019-06-18 黔西南州乐呵化工有限责任公司 A kind of intelligent steam generator system assembly that solar energy auxiliary heats and the method for manufacturing steam

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109899774A (en) * 2017-12-11 2019-06-18 黔西南州乐呵化工有限责任公司 A kind of intelligent steam generator system assembly that solar energy auxiliary heats and the method for manufacturing steam
CN109899774B (en) * 2017-12-11 2021-03-23 黔西南州乐呵化工有限责任公司 Method for producing steam by solar auxiliary heating

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Effective date of registration: 20210310

Address after: 650033 No.17, 9th floor, building 1, Baida international school, Shangyuan Road, high tech Zone, Kunming City, Yunnan Province

Patentee after: Chifang guangre (Yunnan) Environmental Protection Technology Co.,Ltd.

Address before: 650034 Room 101, unit 1, building 8, Yangguang Waltz community, Dianchi Road, Xishan District, Kunming City, Yunnan Province

Patentee before: Li Zeming

TR01 Transfer of patent right