CN102494378B - Architectural energy-saving system utilizing multiple renewable energy sources - Google Patents

Abstract

The invention discloses an architectural energy-saving system utilizing multiple renewable energy sources. The architectural energy-saving system consists of a water source heat pump unit, an air-conditioning terminal system which is connected with user sides in each building, a billing system, a wind and solar power generation public lighting system, a solar thermal collector, a domestic hot water storage tank, a buried pipe heat exchange system and a water energy storage system. The architectural energy-saving system can meet the requirements of buildings on cooling, heating, hot water supply and public lighting; and an intelligent household metering system is arranged, so that the architectural energy-saving system is energy-saving, convenient and quick, and is widely applied to places such as residences, villas, hotels, schools and the like.

Description

A kind of architectural energy saving system that utilizes multiple renewable energy sources

Technical field

The present invention relates to relate to the architectural energy saving system field, specifically a kind of architectural energy saving system that utilizes multiple renewable energy sources.

Background technology

Existing building cold and heat supply supplying hot water illuminator generally has following deficiency: at first, traditional refrigeration form such as wind-cooled cold-water unit or water-cooled handpiece Water Chilling Units, the installation site is large, produce simultaneously tropical island effect, the warm hot water mode of the confession in past generally adopts the boiler mode, poor stability, and operating cost is higher; Cooling heating wetting system disperses mostly, and investment is large, and operating cost is high; Secondly, building charging problem, north heating is pressed area and is charged unreasonable; The 3rd, cooling heating water system be unable to do without electricity consumption, and most areas is more and more obvious at home with severe power shortage, must reasonable distribution building electricity consumption and using electricity wisely; The 4th, along with the development of ground source heat pump technology, progressively show such as soil moisture decline in winter and cause the stability of a system and Energy Efficiency Ratio to reduce, need to add the problems such as anti-icing fluid.

Summary of the invention

The technical problem to be solved in the present invention provides a kind of architectural energy saving system that utilizes multiple renewable energy sources, it takes full advantage of ground source heat and is aided with water energy-storage system and builds cooling, heating, preparation hot water, utilize the solar energy optical-thermal system at non-refrigeration rehabilitating soil in season energy, and can utilize the whole year solar energy to prepare the domestic hot-water, adopt in addition wind light generation that the building public illumination is provided.

The technical solution of the utility model is:

A kind of architectural energy saving system that utilizes multiple renewable energy sources, comprise the air conditioning terminal system that is connected with user's side in each building, charge system and wind light generation public lighting system, solar thermal collector, domestic hot-water's storage tank, buried pipe heat exchange system, water energy-storage system, the first water source heat pump units and second water source source pump, described the first water source heat pump units comprises the first compressor that successively circulation connects, the first condenser, first throttle device and the first evaporimeter, described second water source source pump comprise two compressors that successively circulation connects, the second condenser, the second throttling arrangement and the second evaporimeter;

Described air conditioning terminal system circulates successively with Air-conditioning Cycle water pump, the 4th control valve, the first evaporimeter, the 5th control valve, the second control valve and is connected; Described air conditioning terminal system circulates successively with Air-conditioning Cycle water pump, the 4th control valve, the second evaporimeter, the 5th control valve, the second control valve and is connected; Described air conditioning terminal system circulates successively and is connected with Air-conditioning Cycle water pump, the 9th control valve, the first condenser, the 11 control valve, the second control valve;

Described buried pipe heat exchange system circulates successively with ground source water circulating pump, the tenth control valve, the first evaporimeter, the 8th control valve, the first control valve and is connected; Described buried pipe heat exchange system circulates successively with ground source water circulating pump, the tenth control valve, the second evaporimeter, the 8th control valve, the first control valve and is connected; Described buried pipe heat exchange system circulates successively with ground source water circulating pump, the 7th control valve, the first condenser, the 6th control valve, the first control valve and is connected;

Described domestic hot-water's storage tank circulates successively with hot-water circulating pump, the second condenser and is connected; Described domestic hot-water's storage tank circulates successively with the first outlet valve, solar energy water circulating pump, solar thermal collector, the first water intaking valve and is connected;

Described water energy-storage system circulates successively with the 4th outlet valve, the 3rd control valve, Air-conditioning Cycle water pump, the 4th control valve, the first evaporimeter, the 5th control valve, the 4th water intaking valve and is connected; Described water energy-storage system circulates successively with the 4th outlet valve, the 3rd control valve, Air-conditioning Cycle water pump, the 4th control valve, the second evaporimeter, the 5th control valve, the 4th water intaking valve and is connected; Described water energy-storage system circulates successively and is connected with the 4th outlet valve, the 3rd control valve, Air-conditioning Cycle water pump, the 9th control valve, the first condenser, the 11 control valve, the 4th water intaking valve.

Described domestic hot-water's storage tank is connected with user's side in each building by hot water supply water pump.

Described solar thermal collector circulates successively with the second water intaking valve, plate type heat exchanger, the second outlet valve, solar energy water circulating pump and is connected; Described buried pipe heat exchange system circulates successively with ground source water circulating pump, the 7th control valve, the first condenser, the 6th control valve, the 3rd water intaking valve, plate type heat exchanger, the 3rd outlet valve and is connected.

User's side all is equipped with individual household metering device in described each building.

Advantage of the present utility model:

The present invention takes full advantage of wind light generation illumination is provided, utilize geothermal energy, solar energy to provide refrigeration for building interior user, supply warm supplying hot water, and be aided with solar energy rehabilitating soil energy and water heat storage technology, energy-saving low-carbon, rational cold and hot hot water household charge system, for building provides a cover concentrated, energy-conservation, intelligent feasible program, be widely used in the places such as villa, dwelling house, hotel, school.

Description of drawings

Fig. 1 is structural representation of the present invention.

Wherein, wherein, user's side in the 1-building, 2-changes in temperature hot water user, the 3-individual household metering device, the 4-charge system, 5-wind light generation public lighting system, the 6-solar thermal collector, 7-domestic hot-water storage tank, 8-the first outlet valve, 9-the first water intaking valve, 10-the second outlet valve, 11-the second water intaking valve, 12-the 3rd water intaking valve, 13-the 3rd outlet valve, 14-the first control valve, 15-the second control valve, 16-the 4th outlet valve, 17-the 4th water intaking valve, 18-solar energy water circulating pump, 19-hot water supply water pump, the 20-plate type heat exchanger, the 21-hot-water circulating pump, 22-Air-conditioning Cycle water pump, the 23-buried pipe heat exchange system, 24-water energy storage equipment, 25-the first water source heat pump units, 26-ground source water circulating pump, 27-the 3rd control valve, 28-the second condenser, 29-the first evaporimeter, 30-the first condenser, 31-the 4th control valve, 32-the 5th control valve, 33-the 6th control valve, 34-the 7th control valve, 35-the 8th control valve, 36-the 9th control valve, 37-the tenth control valve, 38-the 11 control valve, 39-first throttle device, 40-the first compressor, 41-the second evaporimeter, 42-the second throttling arrangement, 43-second water source source pump, 44-the second compressor.

The specific embodiment

A kind of architectural energy saving system that utilizes multiple renewable energy sources, comprise the air conditioning terminal system 2 that is connected with user's side 1 in each building, individual household metering device 3, charge system 4 and wind light generation public lighting system 5, solar thermal collector 6, domestic hot-water's storage tank 7, buried pipe heat exchange system 23, water energy-storage system 24, the first water source heat pump units 25 and second water source source pump 43, the first water source heat pump units 25 comprises the first compressor 40 that successively circulation connects, the first condenser 30, first throttle device 39 and the first evaporimeter 29, second water source source pump 43 comprise two compressors 44 that successively circulation connects, the second condenser 28, the second throttling arrangement 42 and the second evaporimeter 41;

Air conditioning terminal system 2 circulates successively with Air-conditioning Cycle water pump 22, the 4th control valve 31, the first evaporimeter 29, the 5th control valve 32, the second control valve 15 and is connected; Air conditioning terminal system 2 circulates successively with Air-conditioning Cycle water pump 22, the 4th control valve 31, the second evaporimeter 41, the 5th control valve 32, the second control valve 15 and is connected; Air conditioning terminal system 2 circulates successively with Air-conditioning Cycle water pump 22, the 9th control valve 36, the first condenser 30, the 11 control valve 38, the second control valve 15 and is connected;

Buried pipe heat exchange system 23 circulates successively with ground source water circulating pump 26, the tenth control valve 37, the first evaporimeter 29, the 8th control valve 35, the first control valve 14 and is connected; Buried pipe heat exchange system 23 circulates successively with ground source water circulating pump 26, the tenth control valve 37, the second evaporimeter 41, the 8th control valve 35, the first control valve 14 and is connected; Buried pipe heat exchange system 23 circulates successively with ground source water circulating pump 26, the 7th control valve 34, the first condenser 30, the 6th control valve 33, the first control valve 14 and is connected; Buried pipe heat exchange system 23 circulates successively with ground source water circulating pump 26, the 7th control valve 34, the first condenser 30, the 6th control valve 33, the 3rd water intaking valve 12, plate type heat exchanger 20, the 3rd outlet valve 13 and is connected;

Domestic hot-water's storage tank 7 circulates successively with hot-water circulating pump 21, the second condenser 28 and is connected; Domestic hot-water's storage tank 7 circulates successively with the first outlet valve 8, solar energy water circulating pump 18, solar thermal collector 6, the first water intaking valve 9 and is connected;

Water energy-storage system 24 circulates successively with the 4th outlet valve 16, the 3rd control valve 27, Air-conditioning Cycle water pump 22, the 4th control valve 31, the first evaporimeter 29, the 5th control valve 32, the 4th water intaking valve 17 and is connected; Described water energy-storage system 24 circulates successively with the 4th outlet valve 16, the 3rd control valve 27, Air-conditioning Cycle water pump 22, the 4th control valve 31, the second evaporimeter 41, the 5th control valve 32, the 4th water intaking valve 17 and is connected; Water energy-storage system 24 circulates successively with the 4th outlet valve 16, the 3rd control valve 27, Air-conditioning Cycle water pump 22, the 9th control valve 36, the first condenser 30, the 11 control valve 38, the 4th water intaking valve 17 and is connected;

Solar thermal collector 6 circulates successively with the second water intaking valve 11, plate type heat exchanger 20, the second outlet valve 10, solar energy water circulating pump 18 and is connected; Domestic hot-water's storage tank 6 is connected with user's side 1 in each building by hot water supply water pump 19.

The present invention utilizes the control method of the architectural energy saving system of multiple renewable energy sources, may further comprise the steps:

(1), air conditioner refrigerating pattern:

A, the refrigeration mode of the first water source heat pump units: the air conditioning terminal system 2 that is connected with user's side 1 in each building absorbs the heat of user's side successively by Air-conditioning Cycle water pump 22, the 4th control valve 31 passes to the first evaporimeter 29, then circulate heat transferred first condenser 30 of the first evaporimeter 29 by internal refrigeration storage through the first water source heat pump units 25, cold after 29 heat exchange of the first evaporimeter is more successively through the 5th control valve 32, the second control valve 15 is passed air conditioning terminal system 2 back, simultaneously the first condenser 30 with heat successively through the 6th control valve 33, the first control valve 14 passes to buried pipe heat exchange system 23, finally is discharged into heat in the soil; The kind of refrigeration cycle of air conditioning terminal system 2 is: 2 → 22 → 31 → 29 → 32 → 15 → 2, the circulation of the first water source heat pump units 25 internal refrigeration storage is: 40 → 30 → 39 → 29 → 40, and the heat exchange circulation of buried pipe heat exchange system 23 is: 23 → 26 → 34 → 30 → 33 → 14 → 23;

B, the refrigeration mode of second water source source pump: the air conditioning terminal system 2 that is connected with user's side 1 in each building absorbs the heat of user's side successively by Air-conditioning Cycle water pump 22, the 4th control valve 31 passes to the second evaporimeter 41, then circulate heat transferred second condenser 28 of the second evaporimeter 41 by internal refrigeration storage through second water source source pump 43, cold after 41 heat exchange of the second evaporimeter is more successively through the 5th control valve 32, the second control valve 15 is passed air conditioning terminal system 2 back, and the second condenser 28 rejects heat in domestic hot-water's storage tank 7 at last simultaneously; The kind of refrigeration cycle of air conditioning terminal system 2 is: 2 → 22 → 31 → 41 → 32 → 15 → 2, and the circulation of second water source source pump 43 internal refrigeration storage is: 44 → 28 → 42 → 41 → 44, the heat exchange circulation of domestic hot-water's storage tank 7 is: 7 → 21 → 28 → 7.

(2), air conditioning and heating pattern:

Buried pipe heat exchange system 23 passes to the first evaporimeter 29 through ground source water circulating pump 26, the tenth control valve 37 successively with the heat energy in the soil, then circulate heat transferred first condenser 30 of the first evaporimeter 29 by internal refrigeration storage through the first water source heat pump units 25, last the first condenser 30 passes to the air conditioning terminal system 2 that is connected with user's side 1 in each building through the 11 control valve 38, the second control valve 15 successively with heat at last; The heat exchange circulation of buried pipe heat exchange system 23 is: the circulation of the 23 → 26 → 37 → 29 → 35 → 14 → 23, first water source heat pump units 25 internal refrigeration storage is: 40 → 30 → 39 → 29 → 40; The heating circulation of air conditioning terminal system 2 is: 2 → 22 → 36 → 30 → 38 → 15 → 2.

(3), supplying hot water pattern:

A, solar energy prepare hot water: solar thermal collector 6 passes to domestic hot-water's storage tank 7 to the solar heat of heat absorption through the first water intaking valve 9, and the heat exchange circulation of solar thermal collector 6 is: 6 → 9 → 7 → 8 → 18 → 6;

B, geothermal source prepare hot water: buried pipe heat exchange system 23 can pass to the second evaporimeter 41 to Heat in Soil through ground source water circulating pump 26, the tenth control valve 37 successively, then circulate heat transferred second condenser 28 of the second evaporimeter 41 by internal refrigeration storage through second water source source pump 43, the second last condenser 28 rejects heat in domestic hot-water's storage tank 7 at last, domestic hot-water's storage tank 6 by hot water supply water pump 19 with delivery user's side 1 to each building; The heat exchange circulation of buried pipe heat exchange system 23 is: 23 → 26 → 37 → 41 → 35 → 14 → 23, and the circulation of second water source source pump 43 internal refrigeration storage is: 44 → 28 → 42 → 41 → 44, the heat exchange circulation of domestic hot-water's storage tank 7 is: 7 → 21 → 28 → 7;

The heat energy of c, summer air-conditioning end system 2 prepares hot water: the heat that air conditioning terminal system 2 absorbs passes to the second evaporimeter 41 through Air-conditioning Cycle water pump 22, the 4th control valve 31 successively, then circulate heat transferred second condenser 28 of the second evaporimeter 41 by internal refrigeration storage through second water source source pump 43, the second last condenser 28 rejects heat in domestic hot-water's storage tank 7 at last, domestic hot-water's storage tank 6 by hot water supply water pump 19 with delivery user's side 1 to each building; The heat exchange circulation of air conditioning terminal system 2 is: 2 → 22 → 31 → 41 → 32 → 15 → 2, and the circulation of second water source source pump 43 internal refrigeration storage is: 44 → 28 → 42 → 41 → 44, the heat exchange circulation of domestic hot-water's storage tank 7 is: 7 → 21 → 28 → 7;

(4), solar thermal collector 6 is buried pipe heat exchange system 23 accumulation of energys: solar thermal collector 6 passes to plate type heat exchanger 20 to the solar heat of heat absorption through the second water intaking valve, plate type heat exchanger 20 is delivered to ground heat exchanger system 23 with heat through the 3rd outlet valve 13 again, is discharged in the soil; The heat exchange circulation of solar thermal collector 6 is: 6 → 11 → 20 → 10 → 18 → 6, and the heat exchange circulation of ground heat exchanger system 23 is: 20 → 23 → 26 → 34 → 30 → 33 → 12 → 20 → 13 → 23.

(5), water energy storage equipment accumulation of heat in 24 winter: source, ground heat-exchange system 23 passes to the first evaporimeter 29 through ground source water circulating pump 26, the tenth control valve 37 successively with the heat energy in the soil, then circulate heat transferred first condenser 30 of the first evaporimeter 29 by internal refrigeration storage through the first water source heat pump units 25, last the first condenser 30 transmits feedwater energy storage equipment 24 through the 11 control valve 38, the 4th water intaking valve 17 successively with heat, improves the accumulation of energy water temperature; The heat exchange circulation of source, ground heat-exchange system 23 is: the circulation of the 23 → 26 → 37 → 29 → 35 → 14 → 23, first water source heat pump units 25 internal refrigeration storage is: 40 → 30 → 39 → 29 → 40; The heat exchange circulation of water energy storage equipment 24 is: 24 → 16 → 27 → 22 → 36 → 30 → 38 → 17 → 24.

(6), water energy storage equipment 24 cool-storage in summer:

A, the cold-storage pattern of the first water source heat pump units: water energy storage equipment 24 is successively by the 4th outlet valve 16, the 3rd control valve 27, Air-conditioning Cycle water pump 22, the 4th control valve 31 passes to the first evaporimeter 29, then the first water source heat pump units 25 is by heat transferred first condenser 30 of internal refrigeration storage circulation with the first evaporimeter 29, cold after 29 heat exchange of the first evaporimeter is more successively through the 5th control valve 32, the 4th water intaking valve 17 is passed water energy storage equipment 24 back, simultaneously the first condenser 30 with heat successively through the 6th control valve 33, the first control valve 14 passes to buried pipe heat exchange system 23, finally is discharged into heat in the soil; The kind of refrigeration cycle of water energy storage equipment 24 is: 24 → 16 → 27 → 22 → 31 → 29 → 32 → 17 → 24, the circulation of the first water source heat pump units 25 internal refrigeration storage is: 40 → 30 → 39 → 29 → 40, and the heat exchange circulation of buried pipe heat exchange system 23 is: 23 → 26 → 34 → 30 → 33 → 14 → 23;

The cold-storage pattern of b, second water source source pump: water energy storage equipment 24 is given the second evaporimeter 41 by the 4th outlet valve 16, the 3rd control valve 27, Air-conditioning Cycle water pump 22, the 4th control valve 31 with thermal energy transfer successively, then second water source source pump 43 is by heat transferred second condenser 28 of internal refrigeration storage circulation with the second evaporimeter 41, cold after 41 heat exchange of the second evaporimeter is passed water energy storage equipment 24 back through the 5th control valve 32, the 4th water intaking valve 17 more successively, and the second condenser 28 rejects heat in domestic hot-water's storage tank 7 at last simultaneously; The kind of refrigeration cycle of water energy storage equipment 24 is: 24 → 16 → 27 → 22 → 31 → 41 → 32 → 17 → 24, and the circulation of second water source source pump 43 internal refrigeration storage is: 44 → 28 → 42 → 41 → 44, the heat exchange circulation of domestic hot-water's storage tank 7 is: 7 → 21 → 28 → 7.

(7), power supply: wind light generation public lighting system 5 utilizes wind-powered electricity generation, photoelectricity, wind light mutual complementing power generation to provide public illumination for user's side 1 in each building.

(8), charging: then the delivery of individual household metering device 3 heating of record cooling consumption, hot water output and wind light generation public lighting systems passes in set of signals in the charge system 4.

Claims (4)

1. architectural energy saving system that utilizes multiple renewable energy sources, it is characterized in that: comprise the air conditioning terminal system that is connected with user's side in each building, charge system and wind light generation public lighting system, solar thermal collector, domestic hot-water's storage tank, buried pipe heat exchange system, water energy-storage system, the first water source heat pump units and second water source source pump, described the first water source heat pump units comprises the first compressor that successively circulation connects, the first condenser, first throttle device and the first evaporimeter, described second water source source pump comprise two compressors that successively circulation connects, the second condenser, the second throttling arrangement and the second evaporimeter;

Described air conditioning terminal system circulates successively with Air-conditioning Cycle water pump, the 4th control valve, the first evaporimeter, the 5th control valve, the second control valve and is connected; Described air conditioning terminal system circulates successively with Air-conditioning Cycle water pump, the 4th control valve, the second evaporimeter, the 5th control valve, the second control valve and is connected; Described air conditioning terminal system circulates successively and is connected with Air-conditioning Cycle water pump, the 9th control valve, the first condenser, the 11 control valve, the second control valve;

Described buried pipe heat exchange system circulates successively with ground source water circulating pump, the tenth control valve, the first evaporimeter, the 8th control valve, the first control valve and is connected; Described buried pipe heat exchange system circulates successively with ground source water circulating pump, the tenth control valve, the second evaporimeter, the 8th control valve, the first control valve and is connected; Described buried pipe heat exchange system circulates successively with ground source water circulating pump, the 7th control valve, the first condenser, the 6th control valve, the first control valve and is connected;

Described domestic hot-water's storage tank circulates successively with hot-water circulating pump, the second condenser and is connected; Described domestic hot-water's storage tank circulates successively with the first outlet valve, solar energy water circulating pump, solar thermal collector, the first water intaking valve and is connected;

Described water energy-storage system circulates successively with the 4th outlet valve, the 3rd control valve, Air-conditioning Cycle water pump, the 4th control valve, the first evaporimeter, the 5th control valve, the 4th water intaking valve and is connected; Described water energy-storage system circulates successively with the 4th outlet valve, the 3rd control valve, Air-conditioning Cycle water pump, the 4th control valve, the second evaporimeter, the 5th control valve, the 4th water intaking valve and is connected; Described water energy-storage system circulates successively and is connected with the 4th outlet valve, the 3rd control valve, Air-conditioning Cycle water pump, the 9th control valve, the first condenser, the 11 control valve, the 4th water intaking valve.

2. a kind of architectural energy saving system that utilizes multiple renewable energy sources according to claim 1 is characterized in that: described domestic hot-water's storage tank is connected with user's side in each building by hot water supply water pump.

3. a kind of architectural energy saving system that utilizes multiple renewable energy sources according to claim 1, it is characterized in that: described solar thermal collector circulates successively with the second water intaking valve, plate type heat exchanger, the second outlet valve, solar energy water circulating pump and is connected; Described buried pipe heat exchange system circulates successively with ground source water circulating pump, the 7th control valve, the first condenser, the 6th control valve, the 3rd water intaking valve, plate type heat exchanger, the 3rd outlet valve and is connected.

4. a kind of architectural energy saving system that utilizes multiple renewable energy sources according to claim 1 is characterized in that: user's side all is equipped with individual household metering device in described each building.

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