CN107747782A - A kind of high jet removes haze tower heat pump paddy electricity accumulation of energy cabin system - Google Patents

Abstract

The invention discloses a kind of high jet to remove haze tower heat pump paddy electricity accumulation of energy cabin system, economically it can be combined using high jet greenhouse haze absorption tower with high-efficiency large low heat heat pump, realize that heat pump computer room and the noise in living environment space are isolated using tower body bottom space, solving paddy electricity accumulation of energy cabin needs larger accumulation of heat volume, realize that tens megawatts of coals change electricity substituted device, and a number of business can be provided and live to use room, the small air source heat pump coal of tradition can be efficiently reduced and change electric floor space, the low easy frosting of grade of heat pump performance caused by solving the problems, such as the small air source heat pump cold-island efect of scale tradition, solves the lost problem of outdoor source pump heat supply heat, realize the efficient heat supply of Winter heat supply phase transformation suspension snow, summer is high energy efficiency ratio negative pressure evaporation water cooling unit.

Description

A kind of high jet removes haze tower heat pump paddy electricity accumulation of energy cabin system

Technical field

The present invention relates to new energy source energy-saving technology, environmental protection and resources domain, and in particular to a kind of high jet removes haze Tower heat pump paddy electricity accumulation of energy cabin system.

Background technology

Omnipotence steam energy latent heat, while cogeneration of heat and power, power tail gas, workers and peasants are contained in greenhouse haze weather air Industry production discharge greenhouse gases be cause the atmospheric inversion layer duration grow, be haze weather main reason, conventional small Coal changes less than 10 meters height of electric air source heat pump jet, can not the circulation of rough atmosphere inversion layer, while outdoor source pump noise Greatly, serious heat loss, therefore be badly in need of a kind of high jet greenhouse haze absorption tower and coordinate realization to shake with heat pump lifting heating plant Make an uproar source separation, while to Atmospheric Transportation low temperature cold air-flow, can reach and take haze heat supply, air inducing drives haze, manually controls economy and the society of haze Can benefit.

The content of the invention

A kind of high jet of the present invention removes haze tower heat pump paddy electricity accumulation of energy cabin system, can economically apply high jet greenhouse mist Haze absorption tower is combined with high-efficiency large low heat heat pump, realizes that heat pump computer room is empty with living environment using tower body bottom space Between noise isolation, solve paddy electricity accumulation of energy cabin and need larger accumulation of heat volume, realize that tens megawatts of coals change electricity substituted device, and can A number of business is provided to live to use room.

The small air source heat pump coal of tradition can be efficiently reduced and change electric floor space, solve the small air source heat pump of scale tradition The easy frosting problem of the low grade of heat pump performance caused by cold-island efect, solve the lost problem of outdoor source pump heat supply heat, realize The efficient heat supply of Winter heat supply phase transformation suspension snow, summer is high energy efficiency ratio negative pressure evaporation water cooling unit.

A kind of high jet of technical scheme removes haze tower heat pump paddy electricity accumulation of energy cabin system, including heat pump paddy electricity accumulation of heat Cabin, multilayer business live synthetic layer, hollow Cooling and Heat Source absorbed layer, building and the equipment complex group on high jet greenhouse haze absorption tower Into the heat pump paddy electricity accumulation of heat freight space is lived below synthetic layer bottom in multilayer business, and the multilayer business lives synthetic layer and is located at heat pump paddy More than at the top of electric accumulation of heat cabin, the hollow Cooling and Heat Source absorbed layer is located at multilayer business and lived more than synthetic layer top layer, the high jet temperature Room haze absorption tower is located at more than hollow Cooling and Heat Source absorbed layer top layer.

The heat pump paddy electricity accumulation of heat freight space is lived below synthetic layer bottom in multilayer business, including ground underframe enclosed structure group； Bottom fire-fighting stairway and piping shaft；Bottom elevator and ventilation shaft；Paddy electricity accumulation of heat cabin module；Low heat source pump；Heat source side heat Source liquid collector；Heat source side freezing liquid collector；Load side backwater collector；Load side water supply collector is formed, the bottom fire-fighting stairway And piping shaft, bottom elevator and ventilation shaft are arranged in the middle part of heat pump paddy electricity accumulation of heat cabin；Paddy electricity accumulation of heat cabin module arrangement is in heat pump paddy Electric accumulation of heat cabin both sides；Low heat source pump is arranged in heat pump paddy electricity accumulation of heat cabin central area；The module heat supply of paddy electricity accumulation of heat cabin Backwater end (F) is connected by pipeline with load side backwater collector；Paddy electricity accumulation of heat cabin module heat circulation pump (E) is by pipeline with bearing Water supply collector in lotus side connects；Paddy electricity accumulation of heat cabin module heat supply backwater end (F) is connected by pipeline with load side backwater collector；Paddy electricity Accumulation of heat cabin module heat circulation pump (E) is connected by pipeline with load side water supply collector；Low heat source pump thermal source inlet (A) it is connected by pipeline with heat source side thermal source liquid collector；Low heat source pump freezing liquid outlet (B) passes through pipeline and thermal source Side freezing liquid collector connection；Low heat source pump heat supply water return outlet (C) is connected by pipeline with load side backwater collector；It is low Heat source heat pump unit heat supply delivery port (D) is connected by pipeline with load side water supply collector.

The multilayer business lives synthetic layer and is located at more than heat pump paddy electricity accumulation of heat cabin top, including multistory frame enclosed structure group； Multilayer fire-fighting stairway and piping shaft；Multi-level elevator and ventilation shaft；Piping shaft standpipe group is formed, the multistory frame enclosed structure group More than at the top of heat pump paddy electricity accumulation of heat cabin；Multilayer fire-fighting stairway and piping shaft, multi-level elevator and ventilation shaft are located at multistory frame Enclosed structure group central area；Piping shaft standpipe group is installed on inside multilayer fire-fighting stairway and piping shaft；Piping shaft standpipe group is stood Interface is connected with hollow Cooling and Heat Source absorbed layer collector on pipe (X)；Interface is inhaled with hollow Cooling and Heat Source on piping shaft standpipe group standpipe (S) Receive the connection of layer collector；Piping shaft standpipe group standpipe (X) lower interface is connected with heat pump paddy electricity accumulation of heat cabin collector；Piping shaft standpipe group is stood Pipe (S) lower interface is connected with heat pump paddy electricity accumulation of heat cabin collector.

Hollow Cooling and Heat Source absorbed layer is located at multilayer business and lived more than synthetic layer top layer, including double absorption layer framework enclosed structure Group；Suspension phase transformation module surface cooler；Module wash spray cooler；Module washs water leg；Surface cooler goes out liquid collector；Surface cooler Feed liquor collector is formed, inside the double absorption layer framework enclosed structure group ecto-entad be disposed with greenhouse haze module process layer, Suspension phase transformation module surface cooler；Greenhouse haze module process layer, suspension phase transformation module surface cooler top are disposed with module washing spray Drench cooler；Greenhouse haze module process layer, suspension phase transformation module surface cooler lower disposed have module to wash water leg；Surface cooler Go out liquid collector to be connected with interface on piping shaft standpipe group standpipe (X)；On surface cooler feed liquor collector and piping shaft standpipe group standpipe (S) Interface connects.

High jet greenhouse haze absorption tower is located at more than hollow Cooling and Heat Source absorbed layer top layer, including tower body enclosed structure framework Group；Air inlet noise reduction layer；Blower speed-changing device；Air outlet noise reduction guide layer；Air outlet noise reduction guide layer is formed, the air inlet Noise reduction layer is located at multilayer business and lived in the middle part of synthetic layer top layer；Blower speed-changing device is located at the top of air inlet noise reduction layer；Air outlet noise reduction Guide layer is located at the top of blower speed-changing device.

Beneficial effect：Can be economically using high jet greenhouse haze absorption tower and high-efficiency large low heat heat pump group Close, using tower body bottom space realize heat pump computer room isolate with the noise in living environment space, solve paddy electricity accumulation of energy cabin need Larger accumulation of heat volume is wanted, realizes that tens megawatts of coals change electricity substituted device, and a number of business can be provided and live to use room, can be effective Ground reduces the small air source heat pump coal of tradition and changes electric floor space, caused by solving the small air source heat pump cold-island efect of scale tradition The easy frosting problem of the low grade of heat pump performance, solve the lost problem of outdoor source pump heat supply heat, realize that Winter heat supply phase transformation is hanged The efficient heat supply of floating snow, summer is high energy efficiency ratio negative pressure evaporation water cooling unit.Brief description of the drawings

Fig. 1 schematic structural views of the invention

Fig. 2 is heat source heat pump unit

Fig. 3 is paddy electricity accumulation of heat cabin module

Fig. 4 is hollow Cooling and Heat Source absorbed layer.

Embodiment

Below in conjunction with accompanying drawing：See that " a kind of high jet removes haze tower heat pump paddy electricity accumulation of energy cabin system to pair type of the present invention of Fig. 1,2,3,4 System " attachment structure schematic diagram is described further.

Referring to the drawings, a kind of high jet of the present embodiment removes haze tower heat pump paddy electricity accumulation of energy cabin system.

Explanation：Hollow arrow represents air-flow direction in figure, and filled arrows represent circulatory mediator, water circulation flowing side To.

As shown in Fig. 1 ~ 4, a kind of high jet includes heat pump paddy electricity accumulation of heat cabin except haze tower heat pump paddy electricity accumulation of energy cabin system (100), multilayer business lives synthetic layer (200), and hollow Cooling and Heat Source absorbed layer (300), high jet greenhouse haze absorption tower (400) are built Build equipment complex composition.

The heat pump paddy electricity accumulation of heat cabin (100) is located at multilayer business and lived below synthetic layer (200) bottom, including ground underframe dimension Protection structure group (110)；Bottom fire-fighting stairway and piping shaft (111)；Bottom elevator and ventilation shaft (112)；Paddy electricity accumulation of heat cabin module (120)；Low heat source pump (130)；Heat source side thermal source liquid collector (131)；Heat source side freezing liquid collector (132)；Load side Backwater collector (133)；Load side water supply collector (134) is formed, the bottom fire-fighting stairway and piping shaft (111), bottom elevator And ventilation shaft (112) is arranged in the middle part of heat pump paddy electricity accumulation of heat cabin (100)；Paddy electricity accumulation of heat cabin module (120) is arranged in heat pump paddy electricity Accumulation of heat cabin (100) both sides；Low heat source pump (130) is arranged in heat pump paddy electricity accumulation of heat cabin (100) central area；Paddy electricity stores Hot cabin module (120) heat supply backwater end (F) is connected by pipeline with load side backwater collector (133)；Paddy electricity accumulation of heat cabin module (120) heat circulation pump (E) is connected by pipeline with load side water supply collector (134)；Low heat source pump (130) thermal source enters Liquid mouth (A) is connected by pipeline with heat source side thermal source liquid collector (131)；Low heat source pump (130) freezing liquid exports (B) It is connected by pipeline with heat source side freezing liquid collector (132)；Low heat source pump (130) heat supply water return outlet (C) passes through pipeline It is connected with load side backwater collector (133)；Low heat source pump (130) heat supply delivery port (D) is supplied by pipeline and load side Water collector (134) connects.

The multilayer business lives synthetic layer (200) and is located at more than heat pump paddy electricity accumulation of heat cabin (100) top, including multistory frame dimension Protection structure group (210)；Multilayer fire-fighting stairway and piping shaft (220)；Multi-level elevator and ventilation shaft (230)；Piping shaft standpipe group (240) form, the multistory frame enclosed structure group (210) is located at more than heat pump paddy electricity accumulation of heat cabin (100) top；Multilayer fire-fighting Stair and piping shaft (220), multi-level elevator and ventilation shaft (230) are located at multistory frame enclosed structure group (210) central area；Pipe Road well standpipe group (240) is installed on multilayer fire-fighting stairway and piping shaft (220) is internal；On piping shaft standpipe group (240) standpipe (X) Interface is connected with hollow Cooling and Heat Source absorbed layer (300) collector (325)；On piping shaft standpipe group (240) standpipe (S) interface with it is hollow Cooling and Heat Source absorbed layer (300) collector (326) connects；Piping shaft standpipe group (240) standpipe (X) lower interface and heat pump paddy electricity accumulation of heat cabin (100) collector (131) connects；Piping shaft standpipe group (240) standpipe (S) lower interface and heat pump paddy electricity accumulation of heat cabin (100) collector (132) connect.

Hollow Cooling and Heat Source absorbed layer (300) is located at multilayer business and lived more than synthetic layer (200) top layer, including double absorption layer framework Enclosed structure group (310)；Suspension phase transformation module surface cooler (322)；Module wash spray cooler (323)；Module washing is catchmented Groove (324)；Surface cooler goes out liquid collector (325)；Surface cooler feed liquor collector (326) is formed, the double absorption layer framework enclosed structure The internal ecto-entad of group (310) is disposed with greenhouse haze module process layer (321), suspension phase transformation module surface cooler (322)；Greenhouse Haze module process layer (321), suspension phase transformation module surface cooler (322) top are disposed with module wash spray cooler (323)； Greenhouse haze module process layer (321), suspension phase transformation module surface cooler (322) lower disposed have module to wash water leg (324)； Surface cooler goes out liquid collector (325) and is connected with interface on piping shaft standpipe group (240) standpipe (X)；Surface cooler feed liquor collector (326) with Interface connects on piping shaft standpipe group (240) standpipe (S).

High jet greenhouse haze absorption tower (400) is located at more than hollow Cooling and Heat Source absorbed layer (300) top layer, including tower body dimension Protection structure frame set (410)；Air inlet noise reduction layer (420)；Blower speed-changing device (430)；Air outlet noise reduction guide layer (430)； Air outlet noise reduction guide layer (440) is formed, and the air inlet noise reduction layer (420) is located at multilayer business and lived in synthetic layer (200) top layer Portion；Blower speed-changing device (430) is located at the top of air inlet noise reduction layer (420)；Air outlet noise reduction guide layer (440) is located at blower fan change At the top of speed variator (430).

High jet removes haze tower heat pump paddy electricity accumulation of energy cabin operation principle

A kind of high jet includes heat pump paddy electricity accumulation of heat cabin (100) except haze tower heat pump paddy electricity accumulation of energy cabin system, and multilayer business lives synthetic layer (200), hollow Cooling and Heat Source absorbed layer (300), the Architectural Equipment complex composition of high jet greenhouse haze absorption tower (400).

Hollow Cooling and Heat Source absorbed layer (300) and high jet greenhouse haze absorption tower (400) operation principle

It is less than the cold air directive high-altitude of atmospheric temperature in blower speed-changing device (430) driving tower, is disturbing more than hundred meters high-altitudes Stable inversion layer atmospheric circulation carries out cold and hot exchange process simultaneously, and circulating air temperature rises enthalpy increase through greenhouse haze Module process layer (321), suspension phase transformation module surface cooler (322) purification absorb the clammy heat-source Cycles air themperature of haze and decline enthalpy Value is declined to become low temperature cold air, and low temperature cold air pressurizes through air inlet noise reduction layer (420) into blower speed-changing device (430) It is sent into the cold and hot exchange process of cold air directive high-altitude completion that air outlet noise reduction guide layer (440) will be less than atmospheric temperature.Work as room When outer air themperature is higher than zero degree, module wash spray cooler (323), module washing water leg (324) can be to greenhouse hazes Module process layer (321), suspension phase transformation module surface cooler (322) carry out periodic cleaning and form summer evaporation-cooled device.

Heat pump paddy electricity accumulation of heat cabin (100) extremely hollow Cooling and Heat Source absorbed layer (300) operation principle

Low level heat source in low enthalpy value freezing liquid cyclic absorption air built in suspension phase transformation module surface cooler (322) finned tube (haze steam energy) turns into high enthalpy thermal source liquid, through surface cooler go out liquid collector (325), piping shaft standpipe group (240) standpipe (X), Heat source side thermal source liquid collector (131), the backward evaporator release low temperature of low heat source pump (130) thermal source inlet (A) pressurization Position thermal source turns into low enthalpy value freezing liquid, through low heat source pump (130) freezing liquid outlet (B), heat source side freezing liquid collector (132), piping shaft standpipe group (240) standpipe (S), surface cooler feed liquor collector (326) enter suspension phase transformation module surface cooler (322) Cyclic absorption inversion layer low level heat source.Low heat source pump (130) lifting turns into from unit evaporator low level heat source High-temperature position heat energy enters train condenser and discharges high-temperature position heat energy to circulation water for heating, by low heat source pump (130) heat supply Delivery port (D) is sent into heat supply place by load side water supply collector (134) and discharges the decline enthalpy decline of high-temperature position thermal temperature, warp Load side backwater collector (133) enters low heat source pump (130) heat supply water return outlet (C) pressurized circulation and completes heat energy transmission Process.

Heat pump paddy electricity accumulation of heat cabin (100) paddy electricity is to paddy electricity accumulation of heat cabin module (120) operation principle

Accumulation of energy heating is carried out to paddy electricity accumulation of heat cabin module (120) heat transfer medium using night paddy electricity, in flat peak electricity phase heat supply on daytime Recirculated water is exchanged heat by paddy electricity accumulation of heat cabin module (120) heat supply water return outlet (F) into paddy electricity accumulation of energy cabin, by paddy electricity accumulation of heat cabin module (120) heat circulation pump (E) pressurization is sent into heat supply place release high-temperature position thermal temperature through load side water supply collector (134) and declined Enthalpy declines, and returning to paddy electricity accumulation of heat cabin module (120) heat supply water return outlet (F) circulation through load side backwater collector (133) completes heat The process that can be transmitted.

It is obvious to a person skilled in the art that the invention is not restricted to the details of above-mentioned one exemplary embodiment, Er Qie In the case of without departing substantially from spirit or essential attributes of the invention, the present invention can be realized in other specific forms.Therefore, no matter From the point of view of which point, embodiment all should be regarded as exemplary, and be nonrestrictive, the scope of the present invention is by appended power Profit requires rather than described above limits, it is intended that all in the implication and scope of the equivalency of claim by falling Change is included in the present invention.Any reference in claim should not be considered as to the involved claim of limitation.

Moreover, it will be appreciated that although the present specification is described in terms of embodiments, not each embodiment is only wrapped Containing an independent technical scheme, this narrating mode of specification is only that those skilled in the art should for clarity Using specification as an entirety, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art It is appreciated that other embodiment.

Claims (5)

1. a kind of high jet removes haze tower heat pump paddy electricity accumulation of energy cabin system, it is characterised in that including heat pump paddy electricity accumulation of heat cabin, multilayer business Firmly synthetic layer, hollow Cooling and Heat Source absorbed layer, building and the equipment complex on high jet greenhouse haze absorption tower form, the heat pump Paddy electricity accumulation of heat freight space is lived below synthetic layer bottom in multilayer business, and the multilayer business lives synthetic layer and is located at the top of heat pump paddy electricity accumulation of heat cabin More than, the hollow Cooling and Heat Source absorbed layer is located at multilayer business and lived more than synthetic layer top layer, the high jet greenhouse haze absorption tower More than hollow Cooling and Heat Source absorbed layer top layer.

2. a kind of high jet removes haze tower heat pump paddy electricity accumulation of energy cabin system according to claim 1, it is characterised in that the heat pump Paddy electricity accumulation of heat freight space is lived below synthetic layer bottom in multilayer business, including ground underframe enclosed structure group；Bottom fire-fighting stairway and pipe Road well；Bottom elevator and ventilation shaft；Paddy electricity accumulation of heat cabin module；Low heat source pump；Heat source side thermal source liquid collector；Heat source side is cold Freeze liquid collector；Load side backwater collector；Load side water supply collector is formed, the bottom fire-fighting stairway and piping shaft, bottom elevator And ventilation shaft is arranged in the middle part of heat pump paddy electricity accumulation of heat cabin；Paddy electricity accumulation of heat cabin module arrangement is in heat pump paddy electricity accumulation of heat cabin both sides；It is low Heat source heat pump unit is arranged in heat pump paddy electricity accumulation of heat cabin central area；Paddy electricity accumulation of heat cabin module heat supply backwater end (F) passes through pipeline It is connected with load side backwater collector；Paddy electricity accumulation of heat cabin module heat circulation pump (E) is connected by pipeline with load side water supply collector； Low heat source pump thermal source inlet (A) is connected by pipeline with heat source side thermal source liquid collector；Low heat source pump freezes Liquid outlet (B) is connected by pipeline with heat source side freezing liquid collector；Low heat source pump heat supply water return outlet (C) passes through pipeline It is connected with load side backwater collector；Low heat source pump heat supply delivery port (D) is connected by pipeline with load side water supply collector.

3. a kind of high jet removes haze tower heat pump paddy electricity accumulation of energy cabin system according to claim 1, it is characterised in that the multilayer Business lives synthetic layer and is located at more than heat pump paddy electricity accumulation of heat cabin top, including multistory frame enclosed structure group；Multilayer fire-fighting stairway and pipe Road well；Multi-level elevator and ventilation shaft；Piping shaft standpipe group is formed, and the multistory frame enclosed structure group is located at heat pump paddy electricity accumulation of heat More than at the top of cabin；Multilayer fire-fighting stairway and piping shaft, multi-level elevator and ventilation shaft are located at multistory frame enclosed structure group center Domain；Piping shaft standpipe group is installed on inside multilayer fire-fighting stairway and piping shaft；On piping shaft standpipe group standpipe (X) interface with it is hollow Cooling and Heat Source absorbed layer collector connects；Interface is connected with hollow Cooling and Heat Source absorbed layer collector on piping shaft standpipe group standpipe (S)；Pipeline Well standpipe group standpipe (X) lower interface is connected with heat pump paddy electricity accumulation of heat cabin collector；Piping shaft standpipe group standpipe (S) lower interface and heat pump The collector connection of paddy electricity accumulation of heat cabin.

4. a kind of high jet removes haze tower heat pump paddy electricity accumulation of energy cabin system according to claim 1, it is characterised in that described hollow Cooling and Heat Source absorbed layer is located at multilayer business and lived more than synthetic layer top layer, including double absorption layer framework enclosed structure group；Suspension phase transformation mould Group surface cooler；Module wash spray cooler；Module washs water leg；Surface cooler goes out liquid collector；Surface cooler feed liquor collector is formed, Ecto-entad is disposed with greenhouse haze module process layer, suspension phase transformation module table inside the double absorption layer framework enclosed structure group Cooler；Greenhouse haze module process layer, suspension phase transformation module surface cooler top are disposed with module wash spray cooler；Greenhouse mist Haze module process layer, suspension phase transformation module surface cooler lower disposed have module to wash water leg；Surface cooler goes out liquid collector and pipeline Interface connects on well standpipe group standpipe (X)；Surface cooler feed liquor collector is connected with interface on piping shaft standpipe group standpipe (S).

5. a kind of high jet removes haze tower heat pump paddy electricity accumulation of energy cabin system according to claim 1, it is characterised in that described to shoot high Stream greenhouse haze absorption tower is located at more than hollow Cooling and Heat Source absorbed layer top layer, including tower body enclosed structure frame set, air inlet disappear Sound-absorbing layer, blower speed-changing device, air outlet noise reduction guide layer, air outlet noise reduction guide layer are formed, and the air inlet noise reduction layer is located at Multilayer business is lived in the middle part of synthetic layer top layer；Blower speed-changing device is located at the top of air inlet noise reduction layer；Air outlet noise reduction guide layer is located at At the top of blower speed-changing device.