CN103387921A - Heat-pump-assisted wine-brewing distillation circulation system - Google Patents
Heat-pump-assisted wine-brewing distillation circulation system Download PDFInfo
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- CN103387921A CN103387921A CN2013102770872A CN201310277087A CN103387921A CN 103387921 A CN103387921 A CN 103387921A CN 2013102770872 A CN2013102770872 A CN 2013102770872A CN 201310277087 A CN201310277087 A CN 201310277087A CN 103387921 A CN103387921 A CN 103387921A
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Abstract
The invention discloses a heat-pump-assisted wine-brewing distillation circulation system. The water outlet of a water softener is connected with the water inlet of a softened water tank; the water outlet of the softened water tank is connected with the water inlet of a low-pressure pump assembly; the water outlet of the low-pressure pump assembly is connected with the water inlet of a heat-pump water heater unit; the water outlet of the heat-pump water heater unit is connected with the water inlet of a hot water tank; the water outlet of the hot water tank is connected with the water inlet of a high-pressure pump assembly; the water outlet of the high-pressure pump assembly is connected with the water inlet of an electric boiler, the hot-water supplying pipe orifice of a wine steamer and the water supplementing port of a steam heat accumulator; the steam outlet of the electric boiler is connected with the steam inlet of the steam heat accumulator; the steam outlet of the steam heat accumulator is connected with the inlet of a wine-steamer heating coiler; and the heat-pump water heater unit comprises an air heat exchanger, a first compressor, a first four-way reversing valve, a first throttling device, a second throttling device, a water-source heat exchanger, a second compressor, a second four-way reversing valve, a first valve, a second valve and a water tank, a temperature sensor, a controller, a first electric motor and a second electric motor.
Description
Technical field
The present invention relates to a kind of wine brewing Distallation systm.
Background technology
White wine is of long standing and well established in China, and its history can be traced back to period in ancient times, and huge variation has all occurred in development its technique and output so far, and data presentation annual China white wine output in 2011 reaches 102.56 hundred million liters (amounting to 65 degree).China's white wine is of a great variety, and manufacture craft is different, but the making of various white wine all needs a large amount of heats.
Heat pump is a kind of with the device of the transfer of heat energy of low-temperature heat source to high temperature heat source.The low-temperature heat source that is generally used for thermal-pump unit is medium---air, river, seawater, the municipal effluent etc. around us, and the principle of work of heat pump is according to contrary carnot's working cycle work.Due to this principle of heat pump, can imitate highlyer, usually can reach 3~5, namely with the 1kW electric weight, can obtain the heat of 3~5kW.But due to the restriction of compressor capacity, the hot water top temperature that present heat-pump hot-water unit can provide is 90 ℃ of left and right (reaching as high as 95 ℃).So existing wine brewing Distallation systm mainly relies on heat-pump hot-water unit and electric boiler heating unit combined utilization to realize; Thermal source adopts two thermal source step heating and energy saving system design of air source heat pump and electric boiler combination, the high temperature thermal pump water heater group that low-temperature heat source adopts, can realize energy-conservation because it has higher Energy Efficiency Ratio, high temperature heat source adopts electric boiler, need not the delivery of steam link, reduced transport loss, be convenient to simultaneously adopt modern control mode, reach accurate temperature controlling, the processing requirement of science alcoholic.
Summary of the invention
The object of the present invention is to provide a kind of wine brewing Distallation systm, the leaving water temperature(LWT) of the heat-pump hot-water unit of this system is higher, so a whole set of brewing system Energy Efficiency Ratio is higher, more energy-conservation; This system can also partly realize automatically opening and closing of valve for workshop provides cold water and water tank.
In order to realize above purpose, technical scheme of the present invention is as follows:
A kind of heat pump assist type wine brewing Distallation systm, the water outlet of water softener connects the water inlet of softened water tank, the water outlet of softened water tank connects the water-in of low-pressure pump assembly, the water outlet of low-pressure pump assembly connects the water-in of heat-pump hot-water unit, the water outlet of heat-pump hot-water unit connects the water-in of hot well tank, the water outlet of hot well tank connects the water-in of high pressure pump assembly, and the water outlet of high pressure pump assembly connects the water-in of electric boiler, the hot water of wine rice steamer feeds the water supplement port of the mouth of pipe and steam accumulator; The vapour outlet of electric boiler connects the steam accumulator inlet mouth, and the steam accumulator air outlet connects the import of wine rice steamer heating coil; It is characterized in that, described heat-pump hot-water unit comprises air heat exchanger, the first compressor, the first four-way valve, condenser/evaporator, first throttle device, the second throttling set, water source interchanger, the second compressor, the second four-way valve, the first valve, the second valve, water tank, temperature sensor, controller, the first motor and the second motor;
The output terminal of air heat exchanger connects an input terminus of the first four-way valve, an output terminal of the first four-way valve connects the input terminus of the first compressor, the output terminal of the first compressor connects another input terminus of the first four-way valve, another output terminal of the first four-way valve connects the input terminus of the condensation portion of condenser/evaporator, the output terminal of the condensation portion of condenser/evaporator connects the input terminus of first throttle device, and the output terminal of first throttle device connects the input terminus of air heat exchanger;
The output terminal of the second throttling set connects the input terminus of the first valve and the second valve, the output terminal of the first valve connects the input terminus of the evaporation section of condenser/evaporator, the output terminal of the second valve also connects the input terminus of the evaporation section of condenser/evaporator by pipeline, and described pipeline passes water tank; The output terminal of the evaporation section of condenser/evaporator connects an input terminus of the second four-way valve, an output terminal of the second four-way valve connects the input terminus of the second compressor, the output terminal of the second compressor connects another input terminus of the second four-way valve, another output terminal of the second four-way valve connects the input terminus of water source interchanger, and the output terminal of water source interchanger connects the input terminus of the second throttling set;
The water-in of water source interchanger connects the water outlet of low-pressure pump assembly, and the water outlet of water source interchanger connects the water-in of hot well tank;
Temperature sensor detects the water temperature in water tank and this water temperature signal is input to controller, and controller is according to the Push And Release of this water temperature signal by first electric machine control the first valve, by the Push And Release of second electric machine control the second valve.
Condenser/evaporator comprises condensation portion and evaporation section, and condensation portion has input terminus and output terminal, and evaporation section also has input terminus and output terminal, and condenser/evaporator belongs to the art prior art and is not described in detail.
Compare beneficial effect of the present invention with the prior art scheme: the leaving water temperature(LWT) of the heat-pump hot-water unit of this system is higher, so a whole set of brewing system Energy Efficiency Ratio is higher, more energy-conservation; This system can also partly realize automatically opening and closing of valve for workshop provides cold water and water tank.
Description of drawings
Fig. 1 is wine brewing Distallation systm block diagram;
Fig. 2 is heat pump water-heating machine prescription frame schematic diagram of the present invention.
Wherein, the 1st, the tap water supply pipe; The 2nd, water softener; The 3rd, softened water tank; The 4th, the heat-pump hot-water unit; The 5th, hot well tank; The 6th, high pressure pump assembly; The 7th, the low-pressure pump assembly; The 8th, electric boiler; The 9th, steam accumulator; The 10th, the wine rice steamer; 11 is first valves; 12 is second valves; 13 is first motors; 14 is second motors.
Embodiment
Below in conjunction with accompanying drawing, the present invention is described in further detail.
as shown in Figure 1, tap water supply pipe 1 enters water softener 2 by pipeline, remove easy fouling Ca2+ in water softener 2, the Mg2+ plasma, while preventing from heating, these ions are separated out the formation incrustation scale in water, the soft water that water softener 2 produces enters softened water tank 3 by pipeline, soft water in softened water tank is extracted and enters heat-pump hot-water unit 4 by low-pressure pump assembly 7, soft water is heated to 90 ℃ of left and right in the heat-pump hot-water unit, out hot water enters hot well tank 5 from heat-pump hot-water unit 4, hot water in hot well tank 5 extracts and delivers to respectively electric boiler 8 by high pressure pump assembly 6, steam accumulator 9 and wine rice steamer 10, electric boiler 8 produces steam with hot water heating, the steam that produces in electric boiler 8 enters steam accumulator 9, steam in steam accumulator 9 directly is sent to wine rice steamer 10.During the steam that produces not as good as electric boiler when the quantity of steam that consumes in wine rice steamer 10, excessive steam can store in steam accumulator, when the required quantity of steam of wine rice steamer 10 produces steam greater than electric boiler, and steam accumulator 9 release of heat, produce steam and supplement, to meet the 10 steam consumption requirements of wine rice steamer.
As shown in Figure 2, described heat-pump hot-water unit comprises air heat exchanger, the first compressor, the first four-way valve, condenser/evaporator, first throttle device, the second throttling set, water source interchanger, the second compressor, the second four-way valve, the first valve, the second valve, water tank, temperature sensor, controller, the first motor and the second motor;
The output terminal of air heat exchanger connects an input terminus of the first four-way valve, an output terminal of the first four-way valve connects the input terminus of the first compressor, the output terminal of the first compressor connects another input terminus of the first four-way valve, another output terminal of the first four-way valve connects the input terminus of the condensation portion of condenser/evaporator, the output terminal of the condensation portion of condenser/evaporator connects the input terminus of first throttle device, and the output terminal of first throttle device connects the input terminus of air heat exchanger;
The output terminal of the second throttling set connects the input terminus of the first valve and the second valve, the output terminal of the first valve connects the input terminus of the evaporation section of condenser/evaporator, the output terminal of the second valve also connects the input terminus of the evaporation section of condenser/evaporator by pipeline, and described pipeline passes water tank; The output terminal of the evaporation section of condenser/evaporator connects an input terminus of the second four-way valve, an output terminal of the second four-way valve connects the input terminus of the second compressor, the output terminal of the second compressor connects another input terminus of the second four-way valve, another output terminal of the second four-way valve connects the input terminus of water source interchanger, and the output terminal of water source interchanger connects the input terminus of the second throttling set;
The water-in of water source interchanger connects the water outlet of low-pressure pump assembly, and the water outlet of water source interchanger connects the water-in of hot well tank;
Temperature sensor detects the water temperature in water tank and this water temperature signal is input to controller, and controller is according to the Push And Release of this water temperature signal by first electric machine control the first valve, by the Push And Release of second electric machine control the second valve.
Heat-pump hot-water unit principle of work: air heat exchanger absorbs heat in air, output low area overheat gas, this low area overheat gas becomes high temperature and high pressure gas through the first compressor, this high temperature and high pressure gas is transferred to heat the evaporation section of condenser/evaporator by the condensation portion of condenser/evaporator, the evaporation section of condenser/evaporator gas temperature out is just higher like this, then by having become high temperature and high pressure gas after the second compressor, this high temperature and high pressure gas heats the normal-temperature water in the water source interchanger by the water source interchanger.At first the first valve closes, the second valve open, the cryogenic liquid of the second throttling set output can evaporation endothermic through water tank, the temperature of normal-temperature water in water tank can be reduced, when water tank temperature reaches the temperature of setting, with the second valve closes, the first valve open.So system of the present invention not only Energy Efficiency Ratio is higher, and can produce cold water.Temperature sensor detects the water temperature in water tank and this water temperature signal is input to controller, and controller is according to the Push And Release of this water temperature signal by first electric machine control the first valve, by the Push And Release of second electric machine control the second valve.
Claims (1)
1. the recycle system is distilled in a heat pump assist type wine brewing, the water outlet of water softener connects the water inlet of softened water tank, the water outlet of softened water tank connects the water-in of low-pressure pump assembly, the water outlet of low-pressure pump assembly connects the water-in of heat-pump hot-water unit, the water outlet of heat-pump hot-water unit connects the water-in of hot well tank, the water outlet of hot well tank connects the water-in of high pressure pump assembly, and the water outlet of high pressure pump assembly connects the water-in of electric boiler, the hot water of wine rice steamer feeds the water supplement port of the mouth of pipe and steam accumulator; The vapour outlet of electric boiler connects the steam accumulator inlet mouth, and the steam accumulator air outlet connects the import of wine rice steamer heating coil; It is characterized in that, described heat-pump hot-water unit comprises air heat exchanger, the first compressor, the first four-way valve, condenser/evaporator, first throttle device, the second throttling set, water source interchanger, the second compressor, the second four-way valve, the first valve, the second valve, water tank, temperature sensor, controller, the first motor and the second motor;
The output terminal of air heat exchanger connects an input terminus of the first four-way valve, an output terminal of the first four-way valve connects the input terminus of the first compressor, the output terminal of the first compressor connects another input terminus of the first four-way valve, another output terminal of the first four-way valve connects the input terminus of the condensation portion of condenser/evaporator, the output terminal of the condensation portion of condenser/evaporator connects the input terminus of first throttle device, and the output terminal of first throttle device connects the input terminus of air heat exchanger;
The output terminal of the second throttling set connects the input terminus of the first valve and the second valve, the output terminal of the first valve connects the input terminus of the evaporation section of condenser/evaporator, the output terminal of the second valve also connects the input terminus of the evaporation section of condenser/evaporator by pipeline, and described pipeline passes water tank; The output terminal of the evaporation section of condenser/evaporator connects an input terminus of the second four-way valve, an output terminal of the second four-way valve connects the input terminus of the second compressor, the output terminal of the second compressor connects another input terminus of the second four-way valve, another output terminal of the second four-way valve connects the input terminus of water source interchanger, and the output terminal of water source interchanger connects the input terminus of the second throttling set;
The water-in of water source interchanger connects the water outlet of low-pressure pump assembly, and the water outlet of water source interchanger connects the water-in of hot well tank;
Temperature sensor detects the water temperature in water tank and this water temperature signal is input to controller, and controller is according to the Push And Release of this water temperature signal by first electric machine control the first valve, by the Push And Release of second electric machine control the second valve.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105039113A (en) * | 2015-08-13 | 2015-11-11 | 贵州省仁怀市茅台镇华成酒业(集团)有限公司 | White spirit brewing water circulation cooling system |
CN110513913A (en) * | 2019-08-23 | 2019-11-29 | 四川建源节能科技有限公司 | A kind of heat pump heat reclamation type Synergistic and energy-saving production system of conventional solid-state white wine |
-
2013
- 2013-07-03 CN CN2013102770872A patent/CN103387921A/en active Pending
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105039113A (en) * | 2015-08-13 | 2015-11-11 | 贵州省仁怀市茅台镇华成酒业(集团)有限公司 | White spirit brewing water circulation cooling system |
CN105039113B (en) * | 2015-08-13 | 2017-07-28 | 贵州省仁怀市茅台镇华成酒业(集团)有限公司 | A kind of white spirit brewing hydrologic cycle cooling system |
CN110513913A (en) * | 2019-08-23 | 2019-11-29 | 四川建源节能科技有限公司 | A kind of heat pump heat reclamation type Synergistic and energy-saving production system of conventional solid-state white wine |
CN110513913B (en) * | 2019-08-23 | 2020-05-12 | 四川建源节能科技有限公司 | Heat pump heat recovery type synergistic energy-saving production system for traditional solid-state white spirit |
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Application publication date: 20131113 |