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Industrial thermal emission heat recovery & reuse system

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Industrial thermal emission heat recovery & reuse system

There are many drying equipment is often used to raise the air (fresh air) to a certain temperature and process the materials. Such as, food, chemical, pharmaceutical, electronics, spraying, printing, paper, chemical fiber and other industries. However, the used air is discharged as exhaust gas (exhaust air), and the exhaust gas is usually high in temperature and directly discharged into the atmosphere, which will cause a lot of energy waste.

Industrial thermal emission heat recovery & reuse system(图1)

Drying case

For example, assuming a place with an annual average temperature of 10°C, a drying system air volume of 10000m3/h, and a drying process temperature of 80°C, it is necessary to provide about 235kW of heat to the drying box by means of electric or steam heating. The process is as follows, if the exhaust gas is directly discharged, the 235 kW of heat heated by electric or steam is will discharged into atmosphere, resulting in a waste of energy.

Industrial thermal emission heat recovery & reuse system(图2)

Schematic diagram of fresh air ventilation equipment with heat recovery

In the exhaust gas emission system, adding a heat exchange box that can realize the waste heat recovery.

The main component of the heat exchange box is the BXB plate heat exchanger. The plate heat exchanger is mainly made of aluminum foil (or stainless steel foil). When there is a temperature difference between two airflows that are isolated by aluminum foil and flow in opposite directions, heat transfer will occur to realize energy recovery. Through the BXB air sensible heat exchanger, the conversion in the exhaust air can be used to preheat the fresh air. As the result, it will achieve the purpose of energy saving.

Industrial thermal emission heat recovery & reuse system(图3)

Energy saving effect analysis

According to the previous example, use the heat in the exhaust air to preheat the fresh air from heat exchange box. The fresh air temperature increased from 10℃ to 52.5℃, and the heat input from the heating box is reduced from 235kW to 109kW, which saves 126kW of heat and reduces the amount of electricity or steam consumed for fresh air heating. The process is as follows:

Industrial thermal emission heat recovery & reuse system(图4)

Heat pump drying heat recovery energy saving system

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With the further development of China's economy, the use of green energy will be more and more extensive. Heat pump dehumidification dryers with plate type obvious heat recovery function have developed rapidly in recent years and have been widely used in the Yangtze River basin, southwest China and South China.

The unit using the inverse cano principle at the same time, combined with efficient heat recovery technology, in the whole drying dehumidifying process, through the duct the wet air within the chamber connected to the host using the sensible heat plate heat collector recovery of the sensible heat and latent heat of hot and humid air, thermal recycling, greatly improve the performance of the host, improve the drying speed and material quality. The waste heat can not only improve the performance of the unit, but also reduce the thermal pollution to the environment and alleviate the urban heat island effect.

The heat pump drying heat recovery system is not only used in the mud drying system, but also widely used in many other drying industries. It has the characteristics of good drying quality and high degree of automation, and is the best choice product for energy saving, green and environmental protection in the modern drying industry.

Heat pump dryers with and without heat recovery working principle

When the heat pump dryer dries the air, the air forms a closed cycle between the drying chamber and the equipment. The evaporator's heat absorption function is used to cool and dehumidify the hot and humid air, and the condenser's heat release function is used to heat the dry cold air, so as to achieve the effect of cycle dehumidification and drying.

The main difference between heat recovery function and heat pump dryers without heat recovery function lies in the different air circulation modes. The former is equipped with plate type sensible heat exchanger, which plays the function of pre-cooling and preheating in the air circulation process, reducing the load of compressor operation and achieving the purpose of energy saving.

Heat pump drying heat recovery energy saving system(图1)

Heat pump drying system operation mode

Heat pump drying heat recovery energy saving system(图2)

Energy saving analysis of heat recovery

Taking a heat pump dryer as an example, the air temperature of drying is designed to be 65℃, the relative humidity is 30%, the circulating air temperature is 65℃, the temperature before passing through the evaporator is 65℃, and the temperature after evaporation cooling is 35℃. The condenser needs to heat the air of 35℃ to 65℃ before it can be used.

After matching with BXB500-400-3.5 heat exchanger, 35℃ return air absorbs heat from exhaust air after passing through plate heat exchanger, and the temperature rises to 46.6℃. The condenser only needs to heat the air from 46.6℃ to 65℃ to meet the use requirements, greatly reducing the load of evaporator and condenser, thus reducing the power of the whole machine, achieving the purpose of energy saving.

Energy saving analysis of heat recovery

Heat pump drying heat recovery energy saving system(图3)


Selection and economic calculation

We are very glad to show you the calculation and selection software of plate heat exchanger jointly developed by us and Tsinghua University. If you need, please contact us!