By using a silicon carbide tube as its cooling component, due to its ability to withstand strong acid and alkali corrosion, the silicon carbide cooling system heat exchangers service life is significantly improved. In addition, the silicon carbide cooling system heat exchanger features a high thermal conductivity, small size and low cost.
Silicon carbide heat exchangers for corrosive media are used in chemical (pharmaceutical, pesticide, fine chemical, organic, inorganic) process systems for heat exchange of strong corrosive media.
Silicon carbide block heat exchangers - GAB NeumannGAB Neumanns silicon carbide block heat exchangers are designed to cool down, condense, heat up, evaporate or absorb ultra-corrosive chemicals. Safety, reliability, and performance on the long-term are our primary considerations when we size, design and manufacture our SiC block heat exchangers.
Silicon Carbide block heat exchanger SiC block heat exchangers are an alternative to heat exchangers made of tantalum, titanium or Hastelloy because of their many advantages. They also outperform PTFE-impregnated graphite heat exchangers and SiC tube bundle heat exchangers
Silicon carbide shell and tube heat exchangersGAB Neumanns silicon carbide shell and tube heat exchangers are designed to condense, cool down, heat up, evaporate or absorb ultra-corrosive and/or oxidizing fluids. Safety, reliability, and performance on the long-term are our primary considerations when we size, design and manufacture SiC shell and tube heat exchangers.
Silicon carbide heat exchangers, having universal corrosion resistance are specifically suitable for highly aggressive chemical compounds. Mersen Boostec® has mastered internally the key steps from the SiC powder through to the final heat exchanger SiC solves your
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