CN204689915U - A kind of fermentation solar energy heat distribution system - Google Patents
A kind of fermentation solar energy heat distribution system Download PDFInfo
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- CN204689915U CN204689915U CN201520177541.1U CN201520177541U CN204689915U CN 204689915 U CN204689915 U CN 204689915U CN 201520177541 U CN201520177541 U CN 201520177541U CN 204689915 U CN204689915 U CN 204689915U
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- magnetic valve
- pipeline
- solar energy
- tank
- inlet pipe
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- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A40/00—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
- Y02A40/10—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in agriculture
- Y02A40/20—Fertilizers of biological origin, e.g. guano or fertilizers made from animal corpses
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- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/40—Solar thermal energy, e.g. solar towers
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- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P20/00—Technologies relating to chemical industry
- Y02P20/10—Process efficiency
- Y02P20/133—Renewable energy sources, e.g. sunlight
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- Fertilizers (AREA)
Abstract
The utility model relates to a kind of fermentation solar energy heat distribution system, it comprises solar energy collector, heat exchange tank, soaking tank, fermenting container, water replanishing device and Controlling System, solar energy collector is connected with circulation water inlet pipe, circulation water inlet pipe is provided with water circulating pump A, circulation water inlet pipe is connected with main heat exchanger, main heat exchanger is located in heat exchange tank, auxiliary heat exchanger is provided with in heat exchange tank, auxiliary heat exchanger is connected with assisted heating device, temperature sensor A is provided with in heat exchange tank, heat exchange tank is connected with soaking tank, soaking tank is connected with fermenting container, temperature sensor C is provided with in fermenting container, fermenting container is connected with pipeline C, pipeline C is connected with heat exchange tank, pipeline C is provided with water circulating pump B, water replanishing device is provided with water inlet pipe, water inlet pipe is connected with filtration unit and small pump, Controlling System comprises controller, have reasonable in design, use extensively, energy consumption is low, save water source, be convenient to maintaining, the advantage of different steady temperatures can be provided.
Description
Technical field
The utility model belongs to fermentation process equipment technical field, is specifically related to a kind of heating system, particularly one fermentation solar energy heat distribution system.
Background technology
In the manufacture process of fertilizer, in the zymotechnique of fertilizer, need the thermal source that fermentation is provided, and it is higher to the requirement of thermal source, to the control of temperature need to compare accurate, at present, many employings be the mode of steam boiler heat supply, this mode wastes resource, there is larger destruction to environment simultaneously, and reaction is sensitive not when controlling for temperature, second-rate when causing fermentation, in addition, the maintenance cost in installation and later stage is higher, in addition, in heat supplying process, the exchange of heat is directly carried out in many employings between steam boiler and fermenting container, this mode, pipeline process, thermal losses is larger in the process, and, be unfavorable for constant temperature heat supply, cause fermented quality not high, therefore, find a kind of reasonable in design, use extensively, energy consumption is low, save water source, be convenient to maintaining, the fermentation solar energy heat distribution system of different steady temperatures can be provided just to seem significant.
Summary of the invention
The purpose of this utility model is to overcome the deficiencies in the prior art, and provide one have reasonable in design, use extensively, energy consumption is low, the fermentation solar energy heat distribution system save water source, being convenient to maintaining, can providing different steady temperatures.
The technical solution adopted in the utility model is achieved in that a kind of fermentation solar energy heat distribution system, it comprises solar energy collector, heat exchange tank, soaking tank, fermenting container, water replanishing device and Controlling System, described solar energy collector one end is connected with circulation water inlet pipe, described circulation water inlet pipe is provided with water circulating pump A, circulation water inlet pipe is connected with main heat exchanger, described main heat exchanger is arranged in heat exchange tank, main heat exchanger water side is connected with recycling outlet, described recycling outlet is provided with automatic exhaust steam valve, one end of recycling outlet is connected with solar energy collector, described heat exchange tank inside is provided with auxiliary heat exchanger, described auxiliary heat exchanger is connected with assisted heating device, heat exchange tank inwall is provided with temperature sensor A, one end of heat exchange tank is connected with pipeline A, described pipeline A is provided with magnetic valve A, pipeline A is connected with soaking tank, the top of described soaking tank is provided with automatic exhaust steam valve, the inside of soaking tank is provided with liquid level sensor and temperature sensor B, the bottom of soaking tank is provided with water discharge pipe, described water discharge pipe is provided with magnetic valve C, the top of soaking tank is connected with pipeline B, described pipeline B is provided with magnetic valve B, pipeline B is connected with fermenting container, temperature sensor C is provided with in described fermenting container, fermenting container is connected with pipeline C, described pipeline C is connected with one end of heat exchange tank, pipeline C is provided with water circulating pump B, described water replanishing device is provided with water inlet pipe, described water inlet pipe is connected with filtration unit and small pump, described small pump is connected with filling pipe A, filling pipe B and filling pipe C, described filling pipe A, filling pipe B and filling pipe C is respectively arranged with magnetic valve D, magnetic valve E and magnetic valve F, filling pipe A, filling pipe B and filling pipe C respectively with assisted heating device, circulation water inlet pipe is connected with soaking tank, described Controlling System comprises controller.
Described assisted heating device is set to gas-operated thermal bath facility.
Spiral tube is provided with in described fermenting container.
Described magnetic valve A, magnetic valve B, magnetic valve C, magnetic valve D, magnetic valve E and magnetic valve F are same magnetic valve.
Described circulation water inlet pipe, recycling outlet, pipeline A, pipeline B and pipeline C outer wall are provided with thermal insulation layer.
Described magnetic valve A, magnetic valve B, magnetic valve C, magnetic valve D, magnetic valve E are all connected with controller with magnetic valve F, and water circulating pump A, water circulating pump B, small pump, temperature sensor A, temperature sensor B, temperature sensor C are connected with liquid level sensor.
The beneficial effects of the utility model: a kind of fermentation solar energy heat distribution system of the utility model, be provided with the main supplying heat source of solar energy collector as fermentation container heating system, this mode have employed clean energy as main supplying heat source, can effectively avoid polluting, economize on resources, solar energy collector is under the effect of water circulating pump A, the water source of heating is circulated in main heat exchanger, thermal source is discharged in the heat supply water source in heat exchange tank, then the thermal source of heat supply is stored in samming tank, at this moment by being arranged on the temperature reflecting heat supply water source in samming tank of the temperature sensor in samming tank, when the temperature at heat supply water source is higher than set(ting)value, can by the controller shut electromagnetic valve A of Controlling System, open small pump and magnetic valve F simultaneously, cold water is entered into samming tank, when reaching suitable temp, open again and stop starting small pump, shut electromagnetic valve F, thus, can realize controlling the temperature of fermenting container, improve the quality of fermentation, strengthen the controllability of temperature, in addition, liquid level sensor is provided with in samming tank, when liquid level exceedes the high-water of setting, controller opens solenoid valve C, by water discharge pipe, samming pot liquid is discharged, on the other hand, when in temperature sensor measurement tank in heat exchange tank, temperature is lower, this Time Controller starts assisted heating device, avoid occurring when sunlight is inadequate, the problem of leavening temperature can not be reached, this mode is not only efficient but also can save the energy, simultaneously, automatization can be realized, automatic control, reduce the labour intensity of workman, in addition, for avoiding solar energy collector in heat-processed, generation has steam, produce potential safety hazard, recycling outlet is provided with automatic exhaust steam valve, in addition, evaporation due to gas causes the minimizing of recirculated water, at this moment, be provided with small pump and moisturizing is carried out to device, the utility model has reasonable in design, use extensively, energy consumption is low, save water source, be convenient to maintaining, the advantage of different steady temperatures can be provided.
Accompanying drawing explanation
Fig. 1 is a kind of fermentation solar energy heat distribution system of the utility model structural representation.
Fig. 2 is that a kind of fermentation of the utility model uses the Controlling System schematic diagram of solar energy heat distribution system.
In figure: 1, solar energy collector 2, heat exchange tank 3, soaking tank 4, fermenting container 5, circulation water inlet pipe 6, water circulating pump A 7, main heat exchanger 8, recycling outlet 9, automatic exhaust steam valve 10, auxiliary heat exchanger 11, assisted heating device 12, temperature sensor A 13, pipeline A 14, magnetic valve A 15, temperature sensor B 16, water discharge pipe 17, magnetic valve C 18, pipeline B 19, magnetic valve B 20, temperature sensor C 21, pipeline C 22, water circulating pump B 23, water inlet pipe 24, filtration unit 25, small pump 26, filling pipe A 27, filling pipe B 28, filling pipe C 29, magnetic valve D 30, magnetic valve E 31, magnetic valve F 32, controller 33, liquid level sensor.
Embodiment
Below in conjunction with accompanying drawing, the utility model is described further.
Embodiment 1
As depicted in figs. 1 and 2, a kind of fermentation solar energy heat distribution system, it comprises solar energy collector 1, heat exchange tank 2, soaking tank 3, fermenting container 4, water replanishing device and Controlling System, described solar energy collector 1 one end is connected with circulation water inlet pipe 5, described circulation water inlet pipe 5 is provided with water circulating pump A6, circulation water inlet pipe 5 is connected with main heat exchanger 7, described main heat exchanger 7 is arranged in heat exchange tank 2, main heat exchanger 7 water side is connected with recycling outlet 8, described recycling outlet 8 is provided with automatic exhaust steam valve 9, one end of recycling outlet 8 is connected with solar energy collector 1, described heat exchange tank 2 inside is provided with auxiliary heat exchanger 10, described auxiliary heat exchanger 10 is connected with assisted heating device 11, heat exchange tank 2 inwall is provided with temperature sensor A12, one end of heat exchange tank 2 is connected with pipeline A13, described pipeline A13 is provided with magnetic valve A14, pipeline A13 is connected with soaking tank 3, the top of described soaking tank 3 is provided with automatic exhaust steam valve 9, the inside of soaking tank 2 is provided with liquid level sensor 33 and temperature sensor B15, the bottom of soaking tank 3 is provided with water discharge pipe 16, described water discharge pipe 16 is provided with magnetic valve C17, the top of fermenting container 4 is connected with pipeline B18, described pipeline B18 is provided with magnetic valve B19, pipeline B18 is connected with fermenting container 4, temperature sensor C20 is provided with in described fermenting container 4, soaking tank 3 is connected with pipeline C21, described pipeline C21 is connected with one end of heat exchange tank 2, pipeline C21 is provided with water circulating pump B22, described water replanishing device is provided with water inlet pipe 23, described water inlet pipe 23 is connected with filtration unit 24 and small pump 25, described small pump 25 is connected with filling pipe A26, filling pipe B27 and filling pipe C28, described filling pipe A26, filling pipe B27 and filling pipe C28 is respectively arranged with magnetic valve D29, magnetic valve E30 and magnetic valve F31, filling pipe A26, filling pipe B27 and filling pipe C28 respectively with assisted heating device 10, circulation water inlet pipe 5 is connected with soaking tank 3, described Controlling System comprises controller 32.
A kind of fermentation solar energy heat distribution system of the utility model, be provided with the main supplying heat source of solar energy collector as fermentation container heating system, this mode have employed clean energy as main supplying heat source, can effectively avoid polluting, economize on resources, solar energy collector is under the effect of water circulating pump A, the water source of heating is circulated in main heat exchanger, thermal source is discharged in the heat supply water source in heat exchange tank, then the thermal source of heat supply is stored in samming tank, at this moment by being arranged on the temperature reflecting heat supply water source in samming tank of the temperature sensor in samming tank, when the temperature at heat supply water source is higher than set(ting)value, can by the controller shut electromagnetic valve A of Controlling System, open small pump and magnetic valve F simultaneously, cold water is entered into samming tank, when reaching suitable temp, open again and stop starting small pump, shut electromagnetic valve F, thus, can realize controlling the temperature of fermenting container, improve the quality of fermentation, strengthen the controllability of temperature, in addition, liquid level sensor is provided with in samming tank, when liquid level exceedes the high-water of setting, controller opens solenoid valve C, by water discharge pipe, samming pot liquid is discharged, on the other hand, when in temperature sensor measurement tank in heat exchange tank, temperature is lower, this Time Controller starts assisted heating device, avoid occurring when sunlight is inadequate, the problem of leavening temperature can not be reached, this mode is not only efficient but also can save the energy, simultaneously, automatization can be realized, automatic control, reduce the labour intensity of workman, in addition, for avoiding solar energy collector in heat-processed, generation has steam, produce potential safety hazard, recycling outlet is provided with automatic exhaust steam valve, in addition, evaporation due to gas causes the minimizing of recirculated water, at this moment, be provided with small pump and moisturizing is carried out to device, the utility model has reasonable in design, use extensively, energy consumption is low, save water source, be convenient to maintaining, the advantage of different steady temperatures can be provided.
Embodiment 2
As depicted in figs. 1 and 2, a kind of fermentation solar energy heat distribution system, it comprises solar energy collector 1, heat exchange tank 2, soaking tank 3, fermenting container 4, water replanishing device and Controlling System, described solar energy collector 1 one end is connected with circulation water inlet pipe 5, described circulation water inlet pipe 5 is provided with water circulating pump A6, circulation water inlet pipe 5 is connected with main heat exchanger 7, described main heat exchanger 7 is arranged in heat exchange tank 2, main heat exchanger 7 water side is connected with recycling outlet 8, described recycling outlet 8 is provided with automatic exhaust steam valve 9, one end of recycling outlet 8 is connected with solar energy collector 1, described heat exchange tank 2 inside is provided with auxiliary heat exchanger 10, described auxiliary heat exchanger 10 is connected with assisted heating device 11, heat exchange tank 2 inwall is provided with temperature sensor A12, one end of heat exchange tank 2 is connected with pipeline A13, described pipeline A13 is provided with magnetic valve A14, pipeline A13 is connected with soaking tank 3, the top of described soaking tank 3 is provided with automatic exhaust steam valve 9, the inside of soaking tank 2 is provided with liquid level sensor 33 and temperature sensor B15, the bottom of soaking tank 3 is provided with water discharge pipe 16, described water discharge pipe 16 is provided with magnetic valve C17, the top of fermenting container 4 is connected with pipeline B18, described pipeline B18 is provided with magnetic valve B19, pipeline B18 is connected with fermenting container 4, temperature sensor C20 is provided with in described fermenting container 4, soaking tank 3 is connected with pipeline C21, described pipeline C21 is connected with one end of heat exchange tank 2, pipeline C21 is provided with water circulating pump B22, described water replanishing device is provided with water inlet pipe 23, described water inlet pipe 23 is connected with filtration unit 24 and small pump 25, described small pump 25 is connected with filling pipe A26, filling pipe B27 and filling pipe C28, described filling pipe A26, filling pipe B27 and filling pipe C28 is respectively arranged with magnetic valve D29, magnetic valve E30 and magnetic valve F31, filling pipe A26, filling pipe B27 and filling pipe C28 respectively with assisted heating device 10, circulation water inlet pipe 5 is connected with soaking tank 3, described Controlling System comprises controller 32.
Described assisted heating device 10 is set to gas-operated thermal bath facility.
Spiral tube is provided with in described fermenting container 4.
Described magnetic valve A14, magnetic valve B19, magnetic valve C17, magnetic valve D29, magnetic valve E30 and magnetic valve F31 are same magnetic valve.
Described circulation water inlet pipe 5, recycling outlet 8, pipeline A13, pipeline B18 and pipeline C21 outer wall are provided with thermal insulation layer.
Described magnetic valve A14, magnetic valve B19, magnetic valve C17, magnetic valve D29, magnetic valve E30 are all connected with controller with magnetic valve F31, and water circulating pump A6, water circulating pump B22, small pump 25, temperature sensor A12, temperature sensor B15, temperature sensor C20 are connected with liquid level sensor 33.
A kind of fermentation solar energy heat distribution system of the utility model, be provided with the main supplying heat source of solar energy collector as fermentation container heating system, this mode have employed clean energy as main supplying heat source, can effectively avoid polluting, economize on resources, solar energy collector is under the effect of water circulating pump A, the water source of heating is circulated in main heat exchanger, thermal source is discharged in the heat supply water source in heat exchange tank, then the thermal source of heat supply is stored in samming tank, at this moment by being arranged on the temperature reflecting heat supply water source in samming tank of the temperature sensor in samming tank, when the temperature at heat supply water source is higher than set(ting)value, can by the controller shut electromagnetic valve A of Controlling System, open small pump and magnetic valve F simultaneously, cold water is entered into samming tank, when reaching suitable temp, open again and stop starting small pump, shut electromagnetic valve F, thus, can realize controlling the temperature of fermenting container, improve the quality of fermentation, strengthen the controllability of temperature, in addition, liquid level sensor is provided with in samming tank, when liquid level exceedes the high-water of setting, controller opens solenoid valve C, by water discharge pipe, samming pot liquid is discharged, on the other hand, when in temperature sensor measurement tank in heat exchange tank, temperature is lower, this Time Controller starts assisted heating device, avoid occurring when sunlight is inadequate, the problem of leavening temperature can not be reached, this mode is not only efficient but also can save the energy, simultaneously, automatization can be realized, automatic control, reduce the labour intensity of workman, in addition, for avoiding solar energy collector in heat-processed, generation has steam, produce potential safety hazard, recycling outlet is provided with automatic exhaust steam valve, in addition, evaporation due to gas causes the minimizing of recirculated water, at this moment, be provided with small pump and moisturizing is carried out to device, the utility model has reasonable in design, use extensively, energy consumption is low, save water source, be convenient to maintaining, the advantage of different steady temperatures can be provided.
Claims (6)
1. a fermentation solar energy heat distribution system, it comprises solar energy collector, heat exchange tank, soaking tank, fermenting container, water replanishing device and Controlling System, it is characterized in that: described solar energy collector one end is connected with circulation water inlet pipe, described circulation water inlet pipe is provided with water circulating pump A, circulation water inlet pipe is connected with main heat exchanger, described main heat exchanger is arranged in heat exchange tank, main heat exchanger water side is connected with recycling outlet, described recycling outlet is provided with automatic exhaust steam valve, one end of recycling outlet is connected with solar energy collector, described heat exchange tank inside is provided with auxiliary heat exchanger, described auxiliary heat exchanger is connected with assisted heating device, heat exchange tank inwall is provided with temperature sensor A, one end of heat exchange tank is connected with pipeline A, described pipeline A is provided with magnetic valve A, pipeline A is connected with soaking tank, the top of described soaking tank is provided with automatic exhaust steam valve, the inside of soaking tank is provided with liquid level sensor and temperature sensor B, the bottom of soaking tank is provided with water discharge pipe, described water discharge pipe is provided with magnetic valve C, the top of soaking tank is connected with pipeline B, described pipeline B is provided with magnetic valve B, pipeline B is connected with fermenting container, temperature sensor C is provided with in described fermenting container, fermenting container is connected with pipeline C, described pipeline C is connected with one end of heat exchange tank, pipeline C is provided with water circulating pump B, described water replanishing device is provided with water inlet pipe, described water inlet pipe is connected with filtration unit and small pump, described small pump is connected with filling pipe A, filling pipe B and filling pipe C, described filling pipe A, filling pipe B and filling pipe C is respectively arranged with magnetic valve D, magnetic valve E and magnetic valve F, filling pipe A, filling pipe B and filling pipe C respectively with assisted heating device, circulation water inlet pipe is connected with soaking tank, described Controlling System comprises controller.
2. a kind of fermentation solar energy heat distribution system according to claim 1, is characterized in that: described assisted heating device is set to gas-operated thermal bath facility.
3. a kind of fermentation solar energy heat distribution system according to claim 1, is characterized in that: be provided with spiral tube in described fermenting container.
4. a kind of fermentation solar energy heat distribution system according to claim 1, is characterized in that: described magnetic valve A, magnetic valve B, magnetic valve C, magnetic valve D, magnetic valve E and magnetic valve F are same magnetic valve.
5. a kind of fermentation solar energy heat distribution system according to claim 1, is characterized in that: described circulation water inlet pipe, recycling outlet, pipeline A, pipeline B and pipeline C outer wall are provided with thermal insulation layer.
6. a kind of fermentation solar energy heat distribution system according to claim 1, it is characterized in that: described magnetic valve A, magnetic valve B, magnetic valve C, magnetic valve D, magnetic valve E are all connected with controller with magnetic valve F, and water circulating pump A, water circulating pump B, small pump, temperature sensor A, temperature sensor B, temperature sensor C are connected with liquid level sensor.
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CN201520177541.1U CN204689915U (en) | 2015-03-27 | 2015-03-27 | A kind of fermentation solar energy heat distribution system |
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CN201520177541.1U CN204689915U (en) | 2015-03-27 | 2015-03-27 | A kind of fermentation solar energy heat distribution system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112010688A (en) * | 2020-09-03 | 2020-12-01 | 盘锦华晨石油装备制造有限公司 | Constant temperature biodegradation tank |
-
2015
- 2015-03-27 CN CN201520177541.1U patent/CN204689915U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112010688A (en) * | 2020-09-03 | 2020-12-01 | 盘锦华晨石油装备制造有限公司 | Constant temperature biodegradation tank |
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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: 20151007 Termination date: 20180327 |
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CF01 | Termination of patent right due to non-payment of annual fee |