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A New Return Air Heat Recovery System Applicable to Cigarette Factory

A new return air and heat recovery technology, applied in the field of energy and environment, can solve the problems of large heat exchange area and small heat exchange temperature difference, and achieve the effects of reducing initial investment, increasing heat exchange temperature difference, and reducing energy consumption

Active Publication Date: 2020-04-07
KUNMING UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the system also requires a large heat transfer area due to the small heat transfer temperature difference.

Method used

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  • A New Return Air Heat Recovery System Applicable to Cigarette Factory
  • A New Return Air Heat Recovery System Applicable to Cigarette Factory

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0024] The rolling and packing workshop of a cigarette factory located in a mild area is equipped with a full air-handling air-conditioning system, and the cooling load of the workshop is , wet load , assuming that the indoor dry bulb temperature is 23.5°C and the relative humidity is 55%. Assume that the fresh air volume accounts for 30% of the total air supply volume, and the supply air temperature difference is 5°C. It is calculated that the cooling capacity of the primary return air system is 2600kW, and the heat consumption is 580kW. The energy saving and heat exchanger area of ​​the first group and the second group were calculated respectively, and the comparison shows that the second group of air handling units is suitable for mild areas, and the total recovered energy of the second group is 685 kW, which is 26.3 times less energy than the primary return air system. %; The total area of ​​the second group of heat exchangers is 79.8m 2 , 13.9% less than the total he...

Embodiment 2

[0029] The rolling and packing workshop of a cigarette factory located in a hot-summer and warm-winter area is equipped with a full air-handling air-conditioning system, and the cooling load of the workshop is , wet load , assuming that the indoor dry bulb temperature is 23.5°C and the relative humidity is 55%. Assume that the fresh air volume accounts for 30% of the total air supply volume, and the supply air temperature difference is 5°C. It is calculated that the cooling consumption of the primary return air system is 4200kW, and the heat consumption is 582kW. The energy saving and heat exchanger area of ​​the two groups are calculated respectively, and the comparison shows that the second group is more economical and energy-saving in hot summer and warm winter regions. The total recovery energy of the second group is 584kW, which is 13.8% more energy-saving than the primary return air system; the total area of ​​the second group of heat exchangers is 56.7m 2 , 39.1% l...

Embodiment 3

[0034] The rolling and packing workshop of a cigarette factory located in a hot-summer and cold-winter area is equipped with a full air-handling air-conditioning system, and the cooling load of the workshop is , wet load , assuming that the indoor dry bulb temperature is 23.5°C and the relative humidity is 55%. Assume that the fresh air volume accounts for 30% of the total air supply volume, and the supply air temperature difference is 5°C. It is calculated that the cooling consumption of the primary return air system is 4360 kW, and the heat consumption is 560 kW. The energy saving and heat exchanger area of ​​the two groups are calculated respectively, and the comparison shows that the first group is more economical and energy-saving in hot summer and cold winter regions. The total recovery energy of the first group is 521kW, which is 12% more energy-saving than the primary return air system; the total area of ​​the first group of heat exchangers is 45.7m 2 , 49.7% less...

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Abstract

The invention relates to a fresh air and return air heat recovery system applicable to a cigarette factory, and belongs to the technical field of energy resources and environments. The fresh air and return air heat recovery system is provided with two groups of fresh air and return air heat recovery type air handling units, the first group of fresh air and return air heat recovery type air handling units applicable to the cigarette factory comprises a return air opening, a return air fan, a coarse effect filter net, a heat exchanger I, an exhaust outlet, an air supplying opening, a medium effect filter net, an air supplying machine, a surface air cooler, a fresh air opening, a heat exchanger II and a mixing box body; and the second group of fresh air and return air heat recovery type air handling units applicable to the cigarette factory comprises a return air opening, a return air fan, a coarse effect filter net, an exhaust outlet, an air supplying opening, a medium effect filter net,an air supplying machine, a surface air cooler, a fresh air opening, a mixing box body and a heat exchanger III. The fresh air and return air heat recovery system utilizes a heat recovery device to eliminate or reduce reheat energy consumption of dew point state supplied air after being handled by the surface air coolers of air conditioner units, energy consumption of handling of fresh air and return air is reduced, consumed cold amounts of the surface air coolers are reduced, and operation energy consumption of air conditioners is effectively reduced; and meanwhile, the heat exchanging temperature difference is improved, the total area of the heat exchangers is reduced, and initial investment of the heat recovery device is effectively reduced.

Description

technical field [0001] The invention relates to a new return air heat recovery system suitable for a cigarette factory, belonging to the technical field of energy and environment. Background technique [0002] my country's tobacco industry has a large scale and high output, and occupies an important position in my country's national economy. Tobacco companies consume a lot of energy, and there are few researches on energy conservation in the tobacco industry, so there is great potential and room for energy conservation and emission reduction in the industry. The air-conditioning system of the cigarette factory needs to operate throughout the year, and it is often produced continuously for 24 hours, resulting in high energy consumption for the operation of the air-conditioning system. The energy consumption of air conditioner operation accounts for 30%~50% of the total energy consumption of the cigarette factory, which is an important part of the total energy consumption and...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): F24F12/00F24F13/28F24F13/30
CPCF24F12/006F24F13/28F24F13/30Y02B30/56
Inventor 王辉涛王维蔚王建军朱道飞韩金蓉赵玲玲阚世朋
Owner KUNMING UNIV OF SCI & TECH
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