CN205330896U - Complementary clean renewable sources of energy intelligent control device of scene gas heat - Google Patents

Abstract

The utility model relates to a smart machine field, concretely relates to complementary clean renewable sources of energy intelligent control device of scene gas heat, including the solar photothermal power heating, steam generator and waste heat recovery processing system, pipe network water collect circulation processing system, green energy storage power supply operational system, and little electric wire netting intelligence operation control center, solar photothermal power heats system configuration has solar collector, expansion drum, over heater, steam generator, preheating tank, high temperature fused salt pump and heating boiler. The utility model discloses the electric energy of effectively having solved clean renewable sources of energy in -process is complementary, the independent cleanness renewable sources of energy of supplying with, complementary supply of heat energy among the unit building system, domestic water circulation supply problem, intelligence storage after the clean renewable sources of energy production capacity surplus, the incessant production supply of the clean renewable sources of energy, little grid power electronic technology intelligent management (automatic distribution steady voltage among the unit building system, the harmonic is administered, surge control, reactive compensation etc. ), with energy -conserving problem, the problem of utilizing of handling is collected to the rainwater.

Description

A kind of scene gas heat complementation cleaning renewable sources intelligent controls device

Technical field

This utility model relates to smart machine field, is specifically related to a kind of scene gas heat complementation cleaning renewable sources intelligent and controls device。

Background technology

In existing unit building system, the most basic rule of energy resource supply is exactly that all are by country。National grid, municipal tap water, the basic ideas that Cheng Qiwei is first-selected。But, because of some irresistible natural causes, such facility layout can produce midway cut-off unavoidably, it is easy to causes Working Life to face a difficult selection。Moreover inherently there is the quality of power supply wild effects such as use cost height, energy loss is big, power factor is low in such energy network。Also having various self-generating systems to run alone, complementary poor compatibility, energy utilization rate are low。It is clearly present problem of resource waste not energy-conservation, unclean, that do not regenerate。

Utility model content

The purpose of this utility model is in that the defect for prior art and deficiency, it is provided that a kind of scene gas heat complementation cleaning renewable sources intelligent controls device。

For achieving the above object, the technical solution adopted in the utility model is: a kind of scene gas heat complementation cleaning renewable sources intelligent controls device, including solar light-heat power-generation heating, steam raising plant and waste heat recovery processing system, pipe network water collects circulating treating system, green energy-storing power supply runs system, micro-capacitance sensor intelligent operation control centre；Described solar light-heat power-generation heating is connected with steam raising plant and waste heat recovery processing system, described steam raising plant and waste heat recovery processing system are collected circulating treating system with pipe network water and are connected, described pipe network water is collected circulating treating system and is connected with green energy-storing power supply operation system, described micro-capacitance sensor intelligent operation control centre and solar light-heat power-generation heating, steam raising plant and waste heat recovery processing system are all connected, described solar light-heat power-generation heating is provided with solar thermal collector, expansion drum, superheater, steam generator, preheating can, high-temperature melting salt pump and heating boiler。

On such scheme basis preferably, described steam raising plant and waste heat recovery processing system are except including superheater shared in same solar light-heat power-generation heating, steam generator, outside preheating can, it is additionally provided with heat storage water tank, heat storage water tank warm water deoxidation pump, oxygen-eliminating device, anaerobic warm water high-pressure pump, heating boiler, high-temperature steam turbine group, middle temperature Steam Turbine, heat exchanger, heat exchanger water circulating pump, cooling tower, heat exchanger warm water deoxidation pump and cooling tower warm water deoxidation pump。

On such scheme basis preferably, described pipe network water collects circulating treating system except including heat storage water tank shared in same steam raising plant and waste heat recovery processing system, is additionally provided with terrestrial heat resources, underground heat water pump, heat pump heat exchanger, heat pump heat exchanger water-circulating pump, suction pump, rainwater storage case, rainwater transfer pump, secondary water processes, solar water heater, air-source water heater, municipal tap water, water purifier, domestic water equipment and domestic hot-water's pump。

On such scheme basis preferably, described green energy-storing power supply runs system and is provided with super energy-storage battery group, battery management system, the management of intelligent grid Power Electronic Technique and energy conserving system, avoid the peak hour power storage system, wind generator system, wind-driven generator inverter, distributed solar electricity generation system, solar inverter, steam turbine generator, steam turbine generator inverter, industrial electricity apparatus, household electricity equipment and enter and system。

On such scheme basis preferably, described micro-capacitance sensor intelligent operation control centre is provided with illumination tracing system, wind draught control system, steam pressure control system, steam temperature control system and electric energy detection control system。

After adopting said structure, this utility model has the beneficial effect that

1, this design efficiently solves because weather rain or shine changes, space-time cleans the renewable sources of energy and mutually supplements supply problem when day alternates with night；

2, this design efficiently solves in unit building system and is independent of external electrical network, is independently supplied cleaning renewable sources of energy problem；

3, this design efficiently solves the heat energy complementation supply problem in unit building system；

4, this design efficiently solves the domestic water circulation supply problem in unit building system；

5, this design efficiently solves the intelligent storage problem after the cleaning renewable sources of energy production capacity surplus in unit building system；

6, this design efficiently solves the Intelligent Matching problem that the renewable sources of energy are complementary that cleans in unit building system；

7, this design efficiently solves the uninterrupted production supply problem of the cleaning renewable sources of energy in unit building system。

8, this design efficiently solves micro-capacitance sensor Power Electronic Technique intelligent management in unit building system (automatic distribution voltage stabilizing, harmonic wave control, surge control, reactive-load compensation etc.) and power saving；

9, this design efficiently solves rainwater-collecting in unit building system and processes the problem utilized。

Accompanying drawing explanation

Fig. 1 is that solar light-heat power-generation heating of the present utility model runs schematic diagram。

Fig. 2 is overall structure schematic diagram of the present utility model。

Fig. 3 is steam raising plant of the present utility model and waste heat recovery processing system operation schematic diagram。

Fig. 4 is that green energy-storing power supply of the present utility model runs system operation schematic diagram。

Fig. 5 is that pipe network water of the present utility model collects circulating treating system。

Fig. 6 is that micro-capacitance sensor of the present utility model intelligent operation control centre runs schematic diagram。

Description of reference numerals: 1, solar light-heat power-generation heating；2, steam raising plant and waste heat recovery processing system；3, pipe network water collects circulating treating system；4, green energy-storing power supply runs system；5, micro-capacitance sensor intelligent operation control centre；6, solar thermal collector；7, expansion drum；8, superheater；9, steam generator；10, preheating can；11, high-temperature melting salt pump；12, heating boiler；13, heat storage water tank；14, heat storage water tank warm water deoxidation pump；15, oxygen-eliminating device；16, anaerobic warm water high-pressure pump；17, heating boiler；18, high-temperature steam turbine group；19, middle temperature Steam Turbine；20, heat exchanger；21, heat exchanger water circulating pump；22, cooling tower；23, heat exchanger warm water deoxidation pump；24, cooling tower warm water deoxidation pump；25, terrestrial heat resources；26, underground heat water pump；27, heat pump heat exchanger；28, heat pump heat exchanger water-circulating pump；29, suction pump；30, rainwater storage case；31, rainwater transfer pump；32, secondary water processes；33, solar water heater；34, air-source water heater；35, municipal tap water；36, water purifier；37, domestic water equipment；38, domestic hot-water's pump；39, super energy-storage battery group；40, battery management system；41, the management of intelligent grid Power Electronic Technique and energy conserving system；42, avoid the peak hour power storage system；43, wind generator system；44, wind-driven generator inverter；45, solar power system；46, solar inverter；47, steam turbine generator；48, steam turbine generator inverter；49, industrial electricity apparatus；50, household electricity equipment；51, also system is entered；52, illumination tracing system；53, wind draught control system；54, steam pressure control system；55, steam temperature control system；56, electric energy detection control system。

Detailed description of the invention

Below in conjunction with accompanying drawing, this utility model is further described。

As shown in Figures 1 to 6, a kind of scene gas heat complementation cleaning renewable sources intelligent described in the utility model controls device, including solar light-heat power-generation heating 1, steam raising plant and waste heat recovery processing system 2, pipe network water collects circulating treating system 3, green energy-storing power supply runs system 4, micro-capacitance sensor intelligent operation control centre 5, described solar light-heat power-generation heating 1 is connected with steam raising plant and waste heat recovery processing system 2, described steam raising plant and waste heat recovery processing system 2 are collected circulating treating system 3 with pipe network water and are connected, described pipe network water is collected circulating treating system 3 and is connected with green energy-storing power supply operation system 4, described micro-capacitance sensor intelligent operation control centre 5 and solar light-heat power-generation heating 1, steam raising plant and waste heat recovery processing system 2 are all connected, described solar light-heat power-generation heating 1 is provided with solar thermal collector 6, expansion drum 7, superheater 8, steam generator 9, preheating can 10, high-temperature melting salt pump 11 and heating boiler 12。

On above-described embodiment preferably, described steam raising plant and waste heat recovery processing system 2 are except including superheater 8 shared in same solar light-heat power-generation heating 1, steam generator 9, outside preheating can 10, it is additionally provided with heat storage water tank 13, heat storage water tank warm water deoxidation pump 14, oxygen-eliminating device 15, anaerobic warm water high-pressure pump 16, heating boiler 17, high-temperature steam turbine group 18, middle temperature Steam Turbine 19, heat exchanger 20, heat exchanger water circulating pump 21, cooling tower 22, heat exchanger warm water deoxidation pump 23 and cooling tower warm water deoxidation pump 24。

On above-described embodiment preferably, described pipe network water collects circulating treating system 3 except including heat storage water tank 13 shared in same steam raising plant and waste heat recovery processing system 2, it is additionally provided with terrestrial heat resources 25, underground heat water pump 26, heat pump heat exchanger 27, heat pump heat exchanger water-circulating pump 28, suction pump 29, rainwater storage case 30, rainwater transfer pump 31, secondary water processes 32, solar water heater 33, air-source water heater 34, municipal tap water 35, water purifier 36, domestic water equipment 37 and domestic hot-water's pump 38。

On above-described embodiment preferably, described green energy-storing power supply runs system 4 and is provided with super energy-storage battery group 39, battery management system 40, the management of intelligent grid Power Electronic Technique and energy conserving system 41, avoid the peak hour power storage system 42, wind generator system 43, wind-driven generator inverter 44, solar power system 45, solar inverter 46, steam turbine generator 47, steam turbine generator inverter 48, industrial electricity apparatus 49, household electricity equipment 50 and entering and system 51。

On above-described embodiment preferably, described micro-capacitance sensor intelligent operation control centre 5 is provided with illumination tracing system 52, wind draught control system 53, steam pressure control system 54, steam temperature control system 55 and electric energy detection control system 56。

This utility model is when specifically used, solar light-heat power-generation heating operation logic in this device and mechanism is: low temperature (fused salt, conductive fluid) is carried out high-temperature heating by A, (slot type) solar thermal collector 6 and (combustion gas) heating boiler 12, it is then delivered to (fused salt, conductive fluid) expansion drum 7 and carries out heat accumulation, enter in superheater 8 by high-temperature stream control valve simultaneously, steam therein is carried out high-temperature heating, in order to driving used by steam turbine；B, high temperature (fused salt, conductive fluid) out enter into steam generator 9 afterwards from superheater 8, and high-temperature water therein is heated into steam；C, (fused salt, conductive fluid) out enter into preheating can 10 afterwards from steam generator 9, and warm water therein is carried out high-temperature heating；D, low temperature (fused salt, conductive fluid) from preheating can 10 out after, under the effect of high-temperature melting salt pump 11, re-enter into the low-temperature end of (slot type) solar thermal collector 6 and (combustion gas) heating boiler 12。Thus forming a closed cycle heating system。

This utility model steam raising plant and waste heat recovery processing system operation logic be: the warm water in A, heat storage water tank 13, under the effect of heat storage water tank warm water deoxidation pump 14, enters into and carries out oxygen removing in oxygen-eliminating device 15；B, dispose the warm water of oxygen under the effect of anaerobic warm water high-pressure pump 16, enter into [or by entering back in preheating can 10 after the heating of (resistance) heating boiler 17] in preheating can 10 by stream of warm water control valve and carry out high-temperature water heating；C, from preheating can 10, high-temperature water out enters into and carries out producing of steam in steam generator 9；D, entering into from steam generator 9 steam out and carry out high-temperature heating superheater 8, high-temperature steam has respectively entered in high-temperature steam turbine group 18 and middle temperature Steam Turbine 19 under the effect of pressure itself；E, from high-temperature steam turbine group 18 exhaust steam out re-enter into superheater 8 to carry out reheat and utilize；After in F, therefrom temperature Steam Turbine 19, exhaust steam out becomes hot water by heat exchanger 20, the removing [therefrom part hot water out in temperature Steam Turbine 19, enters directly into the removing carrying out oxygen in oxygen-eliminating device 15 under self gravitation effect] carrying out oxygen in oxygen-eliminating device 15 is entered under heat exchanger warm water deoxidation pump 23 acts on；Cold water in G, cooling tower 22 is under the Circulation of heat exchanger water circulating pump 21, by the heat absorption in heat exchanger 20, thus becoming hot water, hot water enters into again, under the effect of cooling tower warm water deoxidation pump 24, the removing carrying out oxygen in oxygen-eliminating device 15, thus becoming the hot water of anaerobic, enter into next circulation。

This utility model utility model pipe network water collects circulating treating system operation logic: A, terrestrial heat resources 25 → underground heat water pump 26 → (source) heat pump heat exchanger 27 → terrestrial heat resources 25；B, heat storage water tank 13 → heat pump heat exchanger water-circulating pump 28 → (source) heat pump heat exchanger 27 → heat storage water tank 13；C, terrestrial heat resources 25 → suction pump, 29 → rainwater storage case 30 → rainwater transfer pump 31 → secondary water process 32；D, municipal tap water 35 → secondary water process 32；E, secondary water process 32 → (heat pipe-type) solar water heater 33 and air-source water heater 34 → heat storage water tanks 13；F, municipal tap water 35 → water purifier, 36 → domestic water equipment 37；G, heat storage water tank 13 → domestic hot-water pump 38 → domestic water equipment 37。

This utility model green energy-storing power supply runs system operation logic: A, steam turbine generator 47 → steam turbine generator inverter 48 → super energy-storage battery group 39；B, (photovoltaic) solar power system 45 → (photovoltaic) solar inverter 46 → super energy-storage battery group 39；C, wind generator system 43 → wind-driven generator inverter 44 → super energy-storage battery group 39；D, super energy-storage battery group 39 → battery management system, 40 → industrial electricity apparatus 49 and household electricity equipment 50；E, (state's electrical network) avoid the peak hour power storage system 42 → intelligent grid Power Electronic Technique management with energy conserving system 41；The management of F, super energy-storage battery group 39 → intelligent grid Power Electronic Technique and energy conserving system 41 → enter also (state's electrical network) system 51。

This utility model micro-capacitance sensor intelligent operation control centre operation logic is: A, illumination tracing system 52 control (slot type) solar thermal collector 6 and sunlight is tracked, it is made to obtain bigger illuminating area and longer light application time, thus obtaining more solar energy hot amount；B, wind draught control system 53 control wind generator system 43 and wind-force are adjusted so that it is obtain bigger Wind-driven rotating, thus obtaining more wind energy；Steam pressure in steam raising plant and waste heat recovery processing system 2 is controlled by C, steam pressure control system 54, thus meeting high-temperature steam turbine group 18 and the normal operation of middle temperature Steam Turbine 19；Vapor (steam) temperature in steam raising plant and waste heat recovery processing system 2 is controlled by D, steam temperature control system 55, thus meeting high-temperature steam turbine group 18 and the normal operation of middle temperature Steam Turbine 19；Green energy-storing power supply is run the generating mechanism in system 4 for E, electric energy detection control system 56 and electricity consumption mechanism carries out electric energy and monitors in real time and control comprehensively, thus meeting whole green energy-storing power supply to run the safety and steady operation of system 4。

Based on above-mentioned, this design efficiently solves the electricity mutual complementation problem in cleaning renewable sources of energy process；The cleaning renewable sources of energy that this design efficiently solves in unit building system are independently supplied problem；This design efficiently solves the heat supply problem in unit building system；This design efficiently solves the domestic water supply problem in unit building system；This design efficiently solves the Intelligent treatment problem after the cleaning renewable sources of energy production capacity surplus in unit building system；This design efficiently solves the Intelligent Matching problem that the cleaning renewable sources of energy in unit building system are complementary；This design efficiently solves the long-acting system production supply problem of the cleaning renewable sources of energy in unit building system。This design efficiently solves micro-capacitance sensor Power Electronic Technique intelligent management in unit building system (automatic distribution voltage stabilizing, harmonic wave control, surge control, reactive-load compensation etc.) and power saving。Be one very long-acting, out and out, for the people material benefit, cleaning the renewable sources of energy design。

The above is only better embodiment of the present utility model, therefore all equivalences done according to the structure described in this utility model patent claim, feature and principle change or modify, and are all included in this utility model patent claim。

Claims (5)

1. a honourable gas heat complementation cleaning renewable sources intelligent controls device, it is characterized in that: include solar light-heat power-generation heating (1), steam raising plant and waste heat recovery processing system (2), pipe network water collects circulating treating system (3), green energy-storing power supply runs system (4) and micro-capacitance sensor intelligent operation control centre (5), described solar light-heat power-generation heating (1) is connected with steam raising plant and waste heat recovery processing system (2), described steam raising plant and waste heat recovery processing system (2) are collected circulating treating system (3) with pipe network water and are connected, described pipe network water is collected circulating treating system (3) and is connected with green energy-storing power supply operation system (4), described micro-capacitance sensor intelligent operation control centre (5) and solar light-heat power-generation heating (1), steam raising plant and waste heat recovery processing system (2) are all connected, described solar light-heat power-generation heating (1) is provided with solar thermal collector (6), expansion drum (7), superheater (8), steam generator (9), preheating can (10), high-temperature melting salt pump (11) and heating boiler (12)。

2. a kind of scene gas heat complementation cleaning renewable sources intelligent according to claim 1 controls device, it is characterized in that: described steam raising plant and waste heat recovery processing system (2) are except including superheater (8) shared in same solar light-heat power-generation heating (1), steam generator (9), preheating can (10) is outward, it is additionally provided with heat storage water tank (13), heat storage water tank warm water deoxidation pump (14), oxygen-eliminating device (15), anaerobic warm water high-pressure pump (16), heating boiler (17), high-temperature steam turbine group (18), middle temperature Steam Turbine (19), heat exchanger (20), heat exchanger water circulating pump (21), cooling tower (22), heat exchanger warm water deoxidation pump (23) and cooling tower warm water deoxidation pump (24)。

3. a kind of scene gas heat complementation cleaning renewable sources intelligent according to claim 1 controls device, it is characterized in that: described pipe network water collects circulating treating system (3) except including heat storage water tank (13) shared in same steam raising plant and waste heat recovery processing system (2), it is additionally provided with terrestrial heat resources (25), underground heat water pump (26), heat pump heat exchanger (27), heat pump heat exchanger water-circulating pump (28), suction pump (29), rainwater storage case (30), rainwater transfer pump (31), secondary water processes (32), solar water heater (33), air-source water heater (34), municipal tap water (35), water purifier (36), domestic water equipment (37) and domestic hot-water's pump (38)。

4. a kind of scene gas heat complementation cleaning renewable sources intelligent according to claim 1 controls device, it is characterized in that: described green energy-storing power supply runs system (4) and is provided with super energy-storage battery group (39), battery management system (40), the management of intelligent grid Power Electronic Technique and energy conserving system (41), avoid the peak hour power storage system (42), wind generator system (43), wind-driven generator inverter (44), distributed solar electricity generation system (45), solar inverter (46), steam turbine generator (47), steam turbine generator inverter (48), industrial electricity apparatus (49), household electricity equipment (50) and enter and system (51)。

5. a kind of scene gas heat complementation cleaning renewable sources intelligent according to claim 1 controls device, it is characterized in that: described micro-capacitance sensor intelligent operation control centre (5) is provided with illumination tracing system (52), wind draught control system (53), steam pressure control system (54), steam temperature control system (55), electric energy detection control system (56)。