CN108224537A - Wind-solar complementary type intelligent heat supply electric power system - Google Patents

Abstract

The invention discloses a kind of wind-solar complementary type intelligent heat supply electric power systems, it includes power generation sub-system, solar energy heating subsystem, heat subsystem, boiler subsystem, it exchanges heat to water subsystem and automatic control system, power generation sub-system includes wind-driven generator, solar panel, wind/light complementation controller, battery pack and inverter, solar energy heating subsystem includes solar thermal collector array, hot water storage tank sum aggregate hot recycle pump, the subsystem that heats includes hot water radiation and heating circulation pump, boiler subsystem includes hot-water boiler, it exchanges heat and includes being arranged on the coil heat exchanger inside hot water storage tank to water subsystem, automatic control system includes micro computer automatic controller.It not only can be with hot-water supply, but also can provide power supply, and stable and reliable operation, heat exchanger effectiveness are high, can meet people's production and hot water and electricity consumption needs in life well.

Description

Wind-solar complementary type intelligent heat supply electric power system

Technical field

The invention belongs to thermoelectric engineering technical field, especially a kind of wind-solar complementary type intelligent heat supply electric power system.

Background technology

Wind energy and solar energy are inexhaustible regenerative resources, are reduced year by year in fossil fuel, international energy Today of source situation sternness increasingly, it is to realize energy supply diversification, ensure energy security to develop and use wind energy and solar energy One of important channel.

In the prior art, the utilization of wind energy and solar energy is all respectively independent system, such as：The utilization of wind energy is mainly profit With wind-power electricity generation, the electric energy that wind-driven generator generates is stored in accumulator or is delivered directly on power grid, for production and Daily life provides power supply；There are mainly two types of the utilizations of solar energy, and one kind is using solar thermal collector feedwater heating, for production Hot water is provided with daily life, another kind is using solar cell power generation, and the electric energy that solar cell generates is stored in storage It in battery or is delivered directly on power grid, power supply is provided for production and daily life.Do not connect since solar energy and wind energy have The characteristics of continuous property, night and rainy days do not have the sun, and wind day is also to cut in and out, so the individually profit of solar energy and wind energy With, cannot all meet well people normally production and life requirement.

Invention content

It is an object of the invention to overcome the above-mentioned problems of the prior art, a kind of wind-solar complementary type intelligent heat supply is provided Electric power system, it not only can be with hot-water supply, but also can provide power supply, and stable and reliable operation, heat exchanger effectiveness are high, can expire well Sufficient people's production and hot water and electricity consumption needs in life.

The object of the present invention is achieved like this：A kind of wind-solar complementary type intelligent heat supply electric power system, it includes power generation System, heating subsystem, boiler subsystem, exchanges heat to water subsystem and automatic control system at solar energy heating subsystem, special Sign is：The power generation sub-system includes wind-driven generator, solar panel, wind/light complementation controller, battery pack and inverse Become device, wind-driven generator and solar panel to charge to battery pack by wind/light complementation controller, the electric energy of battery pack storage AC power is provided by inverter；The solar energy heating subsystem includes solar thermal collector array and hot water storage tank, Solar thermal collector array includes the hot cold water nozzle of thermal-arrest hot water nozzle sum aggregate, and thermal-arrest hot water nozzle is by thermal-arrest hot-water line with storing Boiler connects, and thermal-arrest cold water nozzle is connected respectively by thermal-arrest cold water pipe sum aggregate heat emptying Guan Yuyu hot water storage tanks, thermal-arrest heat Water pipe is equipped with heat collector temperature sensor, and thermal-arrest evacuated tube is equipped with emptying motor-driven valve, and thermal-arrest cold water pipe is equipped with to water power Dynamic valve sum aggregate hot recycle pump；Hot water storage tank is equipped with the water supply pipe connected with running water pipe, and water supply pipe is equipped with water supply electrically operated valve, stores Boiler is equipped with hot water storage tank temperature sensor and hot water storage tank water level sensor；The heating subsystem is dissipated including hot-water heating Hot device, hot water radiation include heater inlet pipe mouth and heating return water nozzle, and heater inlet pipe mouth is by heater inlet pipe with storing Boiler connects, and heating return water nozzle is connected by heating return pipe with hot water storage tank, and it is electronic that heater inlet pipe is equipped with water inlet Valve, water inlet hand-operated valve and heating circulation pump, heating return pipe are equipped with return water motor-driven valve and return water hand-operated valve；Boiler System includes hot-water boiler, and hot-water boiler includes boiler feed pipe and boiler blow-down water pipe, boiler feed pipe and heater inlet pipe mouth Connection, boiler blow-down water pipe are connected with heating return water nozzle；The heat exchange includes being arranged on inside hot water storage tank to water subsystem Coil heat exchanger, the coil pipe water inlet pipe of coil heat exchanger connects with running water pipe, and coil pipe water inlet pipe is equipped with manually with water valve, The coil pipe outlet pipe of coil heat exchanger is connected with indoor water pipe；The automatic control system is automatically controlled including micro computer Device, the signal acquisition circuit of micro computer automatic controller respectively with heat collector temperature sensor, hot water storage tank temperature sensor and Hot water storage tank water level sensor is electrically connected, and the output control circuit of micro computer automatic controller is respectively with emptying motor-driven valve, feedwater Motor-driven valve, collection hot recycle pump, water supply electrically operated valve, water inlet motor-driven valve, heating circulation pump, the electrical connection of return water motor-driven valve.

Further, it is equipped with air bleeding valve in the highest water level of solar thermal collector array.

Further, filter is equipped on thermal-arrest cold water pipe.

Further, it is equipped with gas vent in hot water storage tank upper end.

Compared to the prior art the present invention the advantage is that：

1) solar panel when having wind weather wind turbine power generation, have the sun, wind-power electricity generation and solar energy hair Electricity is all charged by wind/light complementation controller to battery pack, and the direct current of battery pack is converted into alternating current supply by inverter and uses The daily electricity consumption in family.Meanwhile it returns the present invention and provides power supply, can realize uninterrupted offer power supply, ensures that the present invention is normal not Intermitten service.

2) micro computer automatic controller detects the water level conditions of hot water storage tank by hot water storage tank water level sensor at any time, when When the water level of hot water storage tank is less than scheduled numerical value, automatically opens water supply electrically operated valve and give hot water storage tank moisturizing, when moisturizing makes water level During higher than scheduled numerical value, water supply electrically operated valve is automatically closed and stops giving hot water storage tank moisturizing, hot water storage tank has enough always Water, it can ensure normal operation of the present invention.

3) micro computer automatic controller detects that the water temperature of solar thermal collector is less than zero by heat collector temperature sensor When spending, collection hot recycle pump is automatically closed, feedwater motor-driven valve is automatically closed, opens and empties motor-driven valve, in solar thermal collector array The water in portion flows back to hot water storage tank by thermal-arrest evacuated tube, realizes automatic-discharging, avoids winter freezing solar thermal collector and its pipe The generation of road problem.

4) micro computer automatic controller detects that heat collector temperature sensor is less than 4 with the hot water storage tank temperature sensor temperature difference DEG C when, at this moment may be either night at cloudy day, collection hot recycle pump and feedwater motor-driven valve be automatically closed, reduces electric energy loss and not Necessary thermal-arrest pump operating cycle.

5) heating season, manual opening water inlet hand-operated valve and return water hand-operated valve, micro computer automatic controller pass through in winter When hot water storage tank temperature sensor detects that the water temperature of hot water storage tank is higher than 18 DEG C, automatically open electronic into water motor-driven valve and return water Valve opens heating circulation pump and provides circulating hot water to hot water radiation, realizes automatic heating.

6) heating season in winter, when solar thermal collector array cannot be guaranteed indoor heating demand, night or chance During to rainy days, hot-water heating radiators heat is given using hot-water boiler.

7) global design of the present invention is scientific and reasonable, it can be achieved that automation control is, it can be achieved that solar energy and wind energy complementary, in energy While daily electricity consumption is enough provided, moreover it is possible to provide uninterruptible power supply for the present invention, ensure normal operation of the present invention.

Description of the drawings

Fig. 1 is the structure diagram of wind-solar complementary type intelligent heat supply electric power system of the present invention.

In figure：1- wind-driven generators, 2- solar panels, 3- wind/light complementation controllers, 4- battery packs, 5- inverters, 6- solar thermal collector arrays, 7- hot water storage tanks, 8- thermal-arrest hot water nozzles, 9- thermal-arrest cold water nozzles, 10- thermal-arrest hot-water lines, 11- Thermal-arrest cold water pipe, 12- thermal-arrest evacuated tubes, 13- heat collector temperature sensors, 14- emptying motor-driven valves, 15- feedwater motor-driven valves, 16- Collect hot recycle pump, 17- running water pipes, 18- water supply pipes, 19- water supply electrically operated valves, 20- hot water storage tank temperature sensors, 21- accumulation of heats Cistern water level sensor, 22- hot water radiations, 23- heater inlet pipe mouths, 24- heating return water nozzles, 25- heater inlet pipes, 26- heating return pipes, 27- water inlet motor-driven valves, 28- water inlet hand-operated valves, 29- heating circulation pumps, 30- return water motor-driven valves, 31- return water Hand-operated valve, 32- hot-water boilers, 33- boiler feed pipes, 34- boiler blow-down water pipes, 35- coil heat exchangers, 36- coil pipe water inlet pipes, 37- is manually with water valve, 38- coil pipe outlet pipes, the indoor water pipes of 39-, 40- micro computer automatic controllers, 41- air bleeding valves, 42- mistakes Filter, 43- gas vents.

Specific embodiment

The present invention is further described below in conjunction with the accompanying drawings.

As shown in Figure 1, a kind of wind-solar complementary type intelligent heat supply electric power system, it includes power generation sub-system, solar energy heating Subsystem, boiler subsystem, exchanges heat to water subsystem and automatic control system at heating subsystem, the power generation sub-system packet Include wind-driven generator 1, solar panel 2, wind/light complementation controller 3, battery pack 4 and inverter 5, wind-driven generator 1 and too Positive energy solar panel 2 is charged by wind/light complementation controller 3 to battery pack 4, and the electric energy that battery pack 4 stores is provided by inverter 5 AC power；The solar energy heating subsystem includes solar thermal collector array 6 and hot water storage tank 7, solar thermal collector Array 6 includes thermal-arrest hot water nozzle 8 and thermal-arrest cold water pipe mouth 9, and thermal-arrest hot water nozzle 8 passes through thermal-arrest hot-water line 10 and hot water storage tank 7 connections, thermal-arrest cold water nozzle 9 are connected respectively by 11 sum aggregate heat emptying pipe 12 of thermal-arrest cold water pipe with hot water storage tank 7, thermal-arrest heat Water pipe 10 is equipped with heat collector temperature sensor 13, and thermal-arrest evacuated tube 12, which is equipped with, empties motor-driven valve 14, on thermal-arrest cold water pipe 11 Equipped with feedwater 15 sum aggregate hot recycle pump 16 of motor-driven valve；Hot water storage tank 7 is equipped with the water supply pipe 18 connected with running water pipe 17, water supply pipe 18 are equipped with water supply electrically operated valve 19, and hot water storage tank 7 is equipped with hot water storage tank temperature sensor 20 and hot water storage tank water level sensor 21；The heating subsystem includes hot water radiation 22, and hot water radiation 22 includes heater inlet pipe mouth 23 and heating return water Nozzle 24, heater inlet pipe mouth 23 are connected by heater inlet pipe 25 with hot water storage tank 7, and heating return water nozzle 24 is returned by heating Water pipe 26 is connected with hot water storage tank 7, and heater inlet pipe 25 is equipped with water inlet motor-driven valve 27, water inlet hand-operated valve 28 and heating circulation pump 29, heating return pipe 26 is equipped with return water motor-driven valve 30 and return water hand-operated valve 31；The boiler subsystem includes hot-water boiler 32, hot-water boiler 32 includes boiler feed pipe 33 and boiler blow-down water pipe 34, and boiler feed pipe 33 is connected with heater inlet pipe mouth 23, Boiler blow-down water pipe 34 is connected with heating return water nozzle 24；The heat exchange includes being arranged on inside hot water storage tank 7 to water subsystem Coil heat exchanger 35, the coil pipe water inlet pipe 36 of coil heat exchanger 35 connects with running water pipe 17, and coil pipe water inlet pipe 36 is equipped with Water valve 37 is used manually, and the coil pipe outlet pipe 38 of coil heat exchanger 35 is connected with indoor water pipe 39；The automatic control system Including micro computer automatic controller 40, the signal acquisition circuit of micro computer automatic controller 40 respectively with heat collector temperature sensor 13rd, hot water storage tank temperature sensor 20 and hot water storage tank water level sensor 21 are electrically connected, the output of micro computer automatic controller 40 Control circuit is respectively with emptying motor-driven valve 14, feedwater motor-driven valve 15, collection hot recycle pump 16, water supply electrically operated valve 19, water inlet motor-driven valve 27th, heating circulation pump 29, return water motor-driven valve 30 are electrically connected.Air bleeding valve is equipped in the highest water level of solar thermal collector array 6 41.Filter 42 is equipped on thermal-arrest cold water pipe 11.Gas vent 43 is equipped in 7 upper end of hot water storage tank.

Finally it should be noted that more than specific embodiment is merely illustrative of the technical solution of the present invention rather than to this The limitation of invention protection domain, those of ordinary skill in the art simply change or wait to what technical scheme of the present invention carried out With replacing, all without departing from the spirit and scope of technical solution of the present invention.

Claims (4)

1. a kind of wind-solar complementary type intelligent heat supply electric power system, it includes power generation sub-system, solar energy heating subsystem, heating System, exchanges heat to water subsystem and automatic control system at boiler subsystem, it is characterised in that：The power generation sub-system includes Wind-driven generator, solar panel, wind/light complementation controller, battery pack and inverter, wind-driven generator and solar cell Plate is charged by wind/light complementation controller to battery pack, and the electric energy of battery pack storage provides AC power by inverter；It is described Solar energy heating subsystem include solar thermal collector array and hot water storage tank, solar thermal collector array include thermal-arrest hot water Nozzle and thermal-arrest cold water pipe mouth, thermal-arrest hot water nozzle are connected by thermal-arrest hot-water line with hot water storage tank, thermal-arrest cold water nozzle difference It being connected by thermal-arrest cold water pipe sum aggregate heat emptying Guan Yuyu hot water storage tanks, thermal-arrest hot-water line is equipped with heat collector temperature sensor, Thermal-arrest evacuated tube is equipped with emptying motor-driven valve, and thermal-arrest cold water pipe is equipped with feedwater motor-driven valve sum aggregate hot recycle pump；Hot water storage tank is set There is the water supply pipe connected with running water pipe, water supply pipe is equipped with water supply electrically operated valve, and hot water storage tank is passed equipped with hot water storage tank temperature Sensor and hot water storage tank water level sensor；The heating subsystem include hot water radiation, hot water radiation include heating into Hose nozzle and heating return water nozzle, heater inlet pipe mouth are connected by heater inlet pipe with hot water storage tank, and heating return water nozzle leads to Heating return pipe to be crossed to connect with hot water storage tank, heater inlet pipe is equipped with water inlet motor-driven valve, water inlet hand-operated valve and heating circulation pump, Heating return pipe is equipped with return water motor-driven valve and return water hand-operated valve；The boiler subsystem includes hot-water boiler, hot-water boiler Including boiler feed pipe and boiler blow-down water pipe, boiler feed pipe is connected with heater inlet pipe mouth, boiler blow-down water pipe and heating return water Nozzle connects；The heat exchange includes being arranged on the coil heat exchanger inside hot water storage tank to water subsystem, coil heat exchanger Coil pipe water inlet pipe is connected with running water pipe, and coil pipe water inlet pipe is equipped with manually with water valve, the coil pipe outlet pipe of coil heat exchanger with Indoor water pipe connection；The automatic control system includes micro computer automatic controller, the signal of micro computer automatic controller Acquisition Circuit is electrically connected respectively with heat collector temperature sensor, hot water storage tank temperature sensor and hot water storage tank water level sensor, The output control circuit of micro computer automatic controller is electronic with emptying motor-driven valve, feedwater motor-driven valve, collection hot recycle pump, moisturizing respectively Valve, water inlet motor-driven valve, heating circulation pump, the electrical connection of return water motor-driven valve.

2. wind-solar complementary type intelligent heat supply electric power system according to claim 1, it is characterised in that：In solar thermal collector The highest water level of array is equipped with air bleeding valve.

3. wind-solar complementary type intelligent heat supply electric power system according to claim 1 or 2, it is characterised in that：In thermal-arrest cold water Pipe is equipped with filter.

4. wind-solar complementary type intelligent heat supply electric power system according to claim 3, it is characterised in that：In hot water storage tank upper end Equipped with gas vent.