Bulk solid heat exchanger. Thanks to the long experience in the design and construction of heat exchangers based on the Pillow Plate concept, FIC has created extremely efficient Bulk Solid Heat Exchangers. The FIC S.p.A. Bulk Solid Heat Exchangers are designed using dedicated calculation software, both for thermal and mechanical dimensions, and China Bulk Solid Plate Heat Exchanger factory and Bulk Solid Plate Heat Exchanger is a kind of plate type solid particles indirect heat transfer equipment, it can cool or heat virtually every type of bulk granules and powder flow products. The basis of the bulk solids heat exchanger technology is the gravity flow of product moving through a bank of laser welded plates heat exchanger.
For more than 30 years, we've been the leaders in thermal science for the heat exchange of bulk solids, adapting and customizing our technologies for each of our customers' applications across a wide variety of industries. With a Solex heat exchanger, youre not just buying a product youre gaining a partner. Solex Thermal Sciences Energy Efficient Heat Exchanger
Plate heat exchanger technology by Solex Thermal Science indirectly cools free-flowing powders and granular bulk solid products to uniform temperatures while using up to Using plate heat exchangers to process bulk solids - SolexJun 07, 2020 · Within the last 20 to 30 years, indirect plate heat transfer technology has transitioned to the forefront of bulk-solids heating, cooling and drying. It has found use in unlikely places such as polymers, chemicals and even olive pits. Yet many are not aware of the full capabilities of these types of plate heat exchangers.
The Coperion heat exchanger is a proven technology. In many bulk materials handling processes it is necessary to thermally treat (cool or heat) powders, pellets and granules. The Coperion Bulk-X-Change heat exchanger is highly efficient, compact and low
Cool bulk solids with 90% greater efficiency. Our heat exchanger technology is capable of cooling bulk solids from up to 2,000°C indirectly by conduction, consuming up to 90% less energy. Its engineered to handle substantial thermal stresses without cracking or damage, while offering guaranteed thermal performance for a superior end product.
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