Aluminium heat exchanger Heat output from 50 kW to 3250 kW High corrosion resistance Efficient heat transfer Compact size for easy installation and maintenance Self cleaning with special pin design Low pneumatic resistance High modulation range possible Low hydraulic resistance. Excellent thermal conductivity Equipped with fiber coated, premix round – burner
France
Extruded section, aluminium EN AW6060. Version Hard anodised aluminium, 50 µm. Hardness 500 HV. Note The aluminium guide rail has good thermal conductivity and importantly heats only at continuously very high speeds. ** lengths L2 = 20 mm * and L = 500 mm included L2 and L only available in full mm.
Request for a quoteTurkey
Double tube heat exchangers (also known tube-in-tube) are designed whereby one tube is concentrically positioned within a larger tube. The double tube composition allows for unrestricted flow of product, making it the ideal heat exchanger for viscous products. The product flows through the inner tube and the service fluid flows through the surrounding shell.
Request for a quoteGermany
Customized air-water heat exchangers for industrial use Three types of air-water heat exchangers Three different designs o air-water heat exchangers The Anthermo GmbH delivers three different designs of air-water heat exchangers: Finned tube heat exchangers Lamella heat exchangers Straight tube heat exchangers These heat exchangers are designed in a way, that inside the tube water or another liquid circulates. The air flows around outside the tubes or the fins/lamellas. The connection between the fins and the tube is used to enlarge the space for heat transfer between the liquid and the gas fluid. The technical figures (for ex. amount of air, temperature, pressure, waste of air) can be different for the air-water heat exchanger. Also the operating conditions and the environment conditions can vary from application to application.
Request for a quoteSwitzerland
Waste water treatment plants and surface waters have enormous energy potential. A sewage treatment plant, for example with 90 million litres of wastewater daily, reducing the wastewater temperature by using heat exchanger by around 1°C, generates a power of about 4.3 MW. The comparative potential for energy recovery from the surface water is even higher. Environmental aspect Induced by humans, water temperatures of the surface and streams have steadily increased, not least owing to the inflows from sewage water treatment. This has serious consequences on the flora and fauna. If heat is extracted from purified water in the sewage treatment plant or from surface waters and from streams, and water temperature is thereby reduced, this will have a positive effect on the entire ecological system. With KASAG heat exchanger systems, on the one hand, the energy requirement of the sewage treatment plant can be covered and, on the other, buildings in near vicinity can be heated or cooled.
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