HISAKA Web-Simulator (HWS) Plate Heat Exchanger This is the rst plate heat exchanger design website opened on the Internet in the world. Access the URL below and click on the Web-Simulator icon. You can simulate the plate heat exchanger perfect for your needs, any time of the day, from anywhere. If necessary to help for selection of Plate
Plate material * Standard application:AISI 304:pure water of chloride content up to 50 ppm in 50°C:AISI 316:water of chloride content up to 250 ppm in 50°C:254 SMO:water of chloride content up to 6000 ppm in 50°C:ium:seawater of chloride content up to 3,5% in 130°C:Alloy C-276/C2000:sulfuric acid of temperature from 50°C to SUS304/316 Seamless Stainless Steel Pipe Coil Coiled Heat SUS304/316 Seamless Stainless Steel Pipe Coil Coiled Heat Exchanger Tube. Stainless steel coil tubing heat exchanger is strong, durable, process is difficult, and strong in corrosion resistance. Fin heat exchanger is widely used in environmental protection and chemical industry.
Water, steam, oxidizing medium, acid, alkali, ketone solution, detergent Mineral oil, lubricating oil AISI304 316 316L 317 Ni200ALLOY G-30 ALLOY C-2000 The double tube plate heat exchanger has been successfully designed, researched and developed Stainless 316, 316L, 317, 317LSpecific Heat . Magnetic Permeability . Mechanical Properties. Minimum mechanical properties for annealed Types 316, 316L, 317 and 317L austenitic stainless steel plate, sheet and strip as required by ASTM specifications A240 and ASME specification SA-240, are shown below. Minimum Room Temperature Mechanical Properties, ASTM A240 and A666
small domestic requirements to larger requirements as in hotels. And they incorporate plate type heat exchangers that are far superior to conventional systems that use copper coils. Thus giving the following advantages: Safe and hygienic water High corrosion resistance due to use of SS 316 or SS 304 High pressure up to 45 bar Guidelines for Using Stainless Steel in the Water and drinking water, wastewater, and water reuse treatment . and conveyance systems, including well casings, reverse Martensitic alloys can be hardened with heat treat-ment, while ferritic alloys cannot. Both ferritic and martens - Type 316/316L stainless steel with exposure to up to
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