CN204460852U - Air source heat pump heat supply and blower fan generate electricity association system - Google Patents

Abstract

A kind of air source heat pump heat supply and blower fan generate electricity association system, the hot water heat exchange that the flue gas that gas fired-boiler is discharged is discharged by air-water heat exchanger and air source heat pump condenser after flue gas cleaner filters, flue gas after heat exchange is connected to building exhaust duct by flue, builds in exhaust duct and arranges blower fan and the evaporimeter being connected to air source heat pump; Hot water after air-water heat exchanger heat exchange enters into gas fired-boiler and again heats up and then be connected to use.By reclaiming gas fired-boiler fume afterheat and building air exhaust waste heat, the air themperature entering air source heat pump evaporator side being provided, improving air source heat pump efficiency, ensureing the even running in air source heat pump winter.Hot water temperature prepared by air source heat pump is heated up through flue gas waste heat for heat exchange, filters afterwards again and heats up, make it reach the desirable temperature of user, make up the difficult problem that air source heat pump supplying hot water temperature is not high through combustion gas.Utilize the electric energy that wind power generation plant produces simultaneously, carry out the recovery waste heat of low power consuming.

Description

Air source heat pump heat supply and blower fan generate electricity association system

Technical field

The utility model belongs to air source heat pump system, particularly relates to a kind of air source heat pump system that can reclaim amount of heat.

Background technology

Common air source heat pump is all directly get low-grade heat source in atmosphere when preparing hot water or heating, and namely the entering air temperature of air source heat pump evaporator side is the temperature of outdoor local environment.But during cold in winter, the entering air temperature entering air source heat pump evaporator side is lower, can have influence on the efficiency of net for air-source heat pump units, or even can not start shooting, and system cannot be run.And air source heat pump prepares the temperature of hot water usually below 40 DEG C, if sometimes need higher temperature, will be difficult to provide.

Building is Gongjian especially, usually has concentrated exhaust outlet, and due to the heat supply in winter and the insulation effect of interior of building, the temperature of often air draft is more than 20 DEG C, and it contains a large amount of heats compared with the air of outdoor cold, is often wasted.

If building also adopts gas fired-boiler simultaneously, the tail gas of common gas fired-boiler is also directly discharged in air, and its waste heat is not also used appropriately.

Operationally, its vaporizer side blower fan runs up air source heat pump, produces a large amount of wind energies, does not substantially have Appropriate application at present, be all wasted.

Utility model content

The deficiency that the utility model exists to overcome above-mentioned prior art, effectively solve air source heat pump cold snap in winter inefficiency, exhaust gases from building and gas fired-boiler tail gas and directly prepared by the problems such as the wind energy waste that hot water temperature is lower, vaporizer side blower fan produces to sky discharge waste, air source heat pump, provide a kind of air source heat pump heat supply and blower fan and to generate electricity association system.

The utility model solves the technical scheme that its technical problem adopts:

Whole system comprises air source heat pump, building, building exhaust duct, gas fired-boiler, flue gas cleaner, air-water heat exchanger; The hot water heat exchange that the flue gas that gas fired-boiler is discharged is discharged by air-water heat exchanger and air source heat pump condenser after flue gas cleaner filters, flue gas after heat exchange is connected to building exhaust duct by flue, builds in exhaust duct and arranges blower fan and the evaporimeter being connected to air source heat pump; Hot water after air-water heat exchanger heat exchange enters into gas fired-boiler and again heats up and then be connected to use.

Arrange wind power generation plant at the vaporizer side blower fan exhaust outlet of air source heat pump, wind power generation plant connects energy storage device.Due to air source heat pump operationally, time of running during vaporizer side blower fan and resting, therefore need to increase energy storage device by electrical power storage, although this part electric energy is less, but can be the blower fan arranged in building exhaust duct and electric energy is provided, and then the recovery waste heat of low power consuming.

Benefit of the present utility model and effect, by reclaiming gas fired-boiler fume afterheat and building air exhaust waste heat, provide the air themperature entering air source heat pump evaporator side, improve air source heat pump efficiency, ensure the even running in air source heat pump winter.Hot water temperature prepared by air source heat pump is heated up through flue gas waste heat for heat exchange, filters afterwards again and heats up, make it reach the desirable temperature of user, make up the difficult problem that air source heat pump supplying hot water temperature is not high through combustion gas.Utilize the electric energy that wind power generation plant produces simultaneously, carry out the recovery waste heat of low power consuming.

Accompanying drawing explanation

Fig. 1 is principle schematic of the present utility model.

In Fig. 1: 1. air source heat pump, 2. building, 3. build exhaust duct, 4. flue gas cleaner, 5. air-water heat exchanger, 6. gas fired-boiler, 7. wind power generation plant, 8. energy storage device.

Detailed description of the invention

Detailed description of the invention of the present utility model is described in detail below in conjunction with accompanying drawing and technical scheme:

A kind of air source heat pump heat supply and blower fan generate electricity association system, and whole system comprises: air source heat pump 1, building 2, build exhaust duct 3, gas fired-boiler 6, flue gas cleaner 4, air-water heat exchanger 5; The flue gas that gas fired-boiler 6 is discharged passes through the hot water heat exchange that air-water heat exchanger 5 is discharged with air source heat pump 1 condenser after flue gas cleaner 4 filters, flue gas after heat exchange enters building exhaust duct 3, builds in exhaust duct 3 and arranges blower fan and the evaporimeter being connected to air source heat pump 1; Hot water after air-water heat exchanger 5 heat exchange enters into gas fired-boiler and again heats up and then flow to user.Arrange wind power generation plant 7 at the vaporizer side blower fan exhaust outlet of air source heat pump 1, wind power generation plant 7 connects energy storage device 8, and energy storage device 8 blower fan be connected in building exhaust duct 3 is its power supply.

The utility model is not limited to the present embodiment, any the utility model disclose technical scope in equivalent concepts or change, be all classified as protection domain of the present utility model.

Claims (1)

1. air source heat pump heat supply and blower fan generate electricity an association system, it is characterized in that: whole system comprises air source heat pump (1), building (2), building exhaust duct (3), gas fired-boiler (6), flue gas cleaner (4), air-water heat exchanger (5); The flue gas that gas fired-boiler (6) is discharged passes through the hot water heat exchange that air-water heat exchanger (5) is discharged with air source heat pump (1) condenser after flue gas cleaner (4) filters, flue gas after heat exchange is connected to building exhaust duct (3) by flue, builds in exhaust duct (3) and arranges blower fan and the evaporimeter being connected to air source heat pump (1); Hot water after air-water heat exchanger (5) heat exchange enters into gas fired-boiler and again heats up and then be connected to user; Arrange wind power generation plant (7) at the vaporizer side blower fan exhaust outlet of air source heat pump (1), wind power generation plant (7) connects energy storage device (8).