What are the characteristics of enamel tube condenser and other heat exchangers
Time: 2023-03-20
Generally, enamel condensers are divided into tubular condensers, spiral plate condensers, floating head condensers, and U-tube condensers according to their forms. It is divided into single tube side condensers, double tube side condensers, and multi tube side condensers according to their structure. The heat transfer area is 1-100 square meters, and can also be customized according to user needs. Suitable for heat exchange equipment used in various industries such as chemical, light industry, metallurgy, pharmaceuticals, food, chemical fiber, etc., especially suitable for condensing conditions, replacing existing stainless steel condensers, carbon steel condensers, graphite condensers, enamel plate condensers, and glass condensers. The effect is obvious after use.
Features of enamel tube condenser:
1. Corrosion resistance: capable of withstanding organic acids, inorganic acids, organic solvents, and alkaline solutions with a pH value less than or equal to 12, but not suitable for strong alkalis, HF, and phosphoric acid with a temperature greater than 180 ℃ and a concentration greater than 30%.
2. Temperature resistance: Generally, the operating temperature can reach -20-200 ℃
3. Non toxicity: Non scaling, non polluting medium, and can also be used in the food industry.
4. Heavy inside light: Convenient for equipment installation and maintenance.
Enamel tube heat exchanger
Enamel tube heat exchanger is currently widely used in industries such as chemical, light industry, metallurgy, pharmaceuticals, food, and chemical fiber. It mainly consists of shell, tube plate, heat exchange tube, head, baffle, etc. The required materials can be made of ordinary carbon steel tube and tube heat exchangers, red copper, stainless steel tube and tube heat exchangers, and enamel tube and tube heat exchangers, respectively. During heat exchange, a fluid enters from the connecting tube of the head, flows in the tube, and flows out from the outlet tube at the other end of the head, which is called the tube pass; Another type of fluid enters through the connecting pipe of the shell and flows out from another connecting pipe on the shell, which is called the shell side.