Walnut drying waste heat recovery exchanger
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- 来源:Huanrexi
Product Introduction:
The walnut drying waste heat recovery exchanger is a special purpose energy recovery device located in the air supply and exhaust flow of the air treatment system. Air exchanges energy with air through a heat-conducting plate, and uses the energy of the exhaust to preprocess the fresh air, thereby achieving the purpose of energy recovery. The fresh air and exhaust air are completely separated by a heat-conducting plate to avoid cross contamination and ensure the cleanliness of the fresh air.
The cross flow plate heat exchange core is made of hydrophilic aluminum foil, oxygen resin aluminum foil, stainless steel and other materials. The air flows in a cross flow manner, and the new exhaust is completely separated to avoid the transmission of any odor and moisture.
Fresh air and exhaust air enter the equipment simultaneously, and the exhaust air transfers energy to the fresh air through a heat-conducting heat exchanger, greatly reducing the loss of exhaust energy.
Functional features:
1. The walnut drying waste heat recovery exchanger adopts hydrophilic coated aluminum foil as the heat transfer conductor, processed by special technology, and has the characteristics of high heat transfer efficiency, easy maintenance, and long service life.
2. Epoxy resin aluminum foil can be used, which is corrosion-resistant and suitable for special occasions.
3. Multiple specifications, sizes, and spacing (3-12mm) are available for selection.
4. Modular structure, capable of providing combinations of cross-sections of any size and plate stacking thickness, with no moving parts and low equipment maintenance costs.
5. Compact structure, small volume, suitable for various occasions.
Combination method: Users can choose the combination form of plate heat exchangers reasonably according to the size of the space used and installed on site, as well as the operating conditions.
Production process:
1. The surface of the walnut drying waste heat recovery exchanger has been treated with spiral corrugated stamping to enhance heat transfer, increasing the heat transfer area by approximately 10%.
2. The air channel is supported by a stamped convex circular body, ensuring high strength and tightness of the channel, and strong ability to withstand new exhaust.
3. The channels for fresh air and exhaust air intersect and are separated by aluminum foil. The inlet and outlet edges are equipped with five layers of rolled edges and corrugated biting technology, ensuring edge strength and reliable sealing.
4. All connections are sealed with sealant and treated with biting edge flow adhesive to ensure the airtightness of the heat exchanger.