Solid Heat Exchange
Hanertech's solid heat exchange technology consists of a series of parallel-arranged pillow plates and corrugated plates. The pillow plates and corrugated plates each form individual heat exchange units, and by stacking multiple heat exchange units, a significantly larger heat transfer area can be achieved.
In a pillow-plate heat exchanger, the hot medium flows through the gap between the pillow plates and corrugated plates, transferring heat to the cold medium on the opposite side. The space between the pillow plates and corrugated plates forms separate flow channels, allowing the hot and cold media to move independently—each following its own distinct path—thereby enabling the cooling, heating, or drying of bulk solids.
Category:
Keywords: Solid Heat Exchange
Product Description
Technological Advantages
Energy conservation: Compared to traditional air-cooling technology, energy consumption is reduced by up to 90%. Unlike conventional powder-based heat exchange methods, this approach eliminates the need for high-energy-consuming equipment such as fans and motors, while also effectively minimizing thermal energy losses.
Zero emissions: Solid materials are handled in fully enclosed silo-type containers, ensuring no dust is generated, zero emissions are produced, and there’s no environmental pressure.
Small footprint, minimal investment: Compared to traditional heat exchange methods, the powder flow cooler is installed vertically, occupying a very small footprint.
Modularity: Composed of multiple heat exchange modules, it can still be expanded according to capacity requirements even after installation, making it the optimal solution for enhancing and optimizing production capacity.
Overall flow-down material: Cold, dry air enters the powder flow heat exchanger, effectively lowering the space dew point temperature and preventing re-moistening, caking, and bridging between plates. Meanwhile, the small amount of air introduced enables the powder to form a dense-phase conveying system, ensuring uniform flow throughout the unit.
Green Application
Industrial Applications
Chemical Powders: Large and Small Particles of Urea, NPK Compound Fertilizer, Phosphate Fertilizer, Ammonium Sulfate, Ammonium Nitrate Sulfate, Potassium Sulfate, Potassium Nitrate
Chemical Products: Boric Acid, Calcium Chloride, Calcium Hypochlorite, Defluorinated Phosphates, Potassium Chloride, Sodium Chloride, Sodium Bisulfate, Sodium Fluoborate, Sodium Percarbonate, Tetrapotassium Pyrophosphate, Tricalcium Phosphate, Sodium Tricarbonate, Ferrous Phosphate, Calcium Ammonium Nitrate
Minerals and Catalysts: Coke, Activated Carbon, Carbon Black, Pulverized Coal, Alumina, Catalysts, Chrome Sand, Clay, Copper Powder, Limestone, Nickel Chloride, Nickel Kiln Dust, Nickel Oxide, Petroleum Coke, Phosphate Rock, Resin-Coated Sand, Quartz Sand, Foundry Sand, White Clay, Fluidized Bed Cracking Catalyst
Polymers: Polyethylene (PE), Polypropylene (PP), Nylon (PA), Polychloroprene (PC), Polyester (PET), Polyvinyl Chloride (PVC), TPU Thermoplastic polyurethane elastomer, EPR (ethylene propylene diene monomer) rubber, ABS (acrylonitrile butadiene styrene) plastic, POM (polyoxymethylene), EVOH (electrical vinyl hydride), LDPE
Sugar and food products: rice, soybeans, corn, rapeseed, grape seeds, seeds, salt, feed, starch, chicken essence, glycine, carrageenan
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