Advantages of JeoTes™ PHE

 
  • JeoTes™ Plate Heat Exchanger is more compact in structure compared to other heat exchanger.
  • It can perform heat exchange under differential temperature of 1 °C with a designed pressure as high as 40Bar, capacity of 4500m3/h and connection size of DN25-DN500.
  • JeoTes™ PHEs come in wide range of size and capacities. Different plate patterns are available for various duties and performance specifications. 
  • Jeotes™ PHEs provides convenience operating with the most suitable suppression depth.
  • All plates are formed by one-step molding technology so as to reduce the plate's physical stress, improve the plate's uniformity and prolong the plate's useful life. 
  • Scientific distribution design of the plate can avoid scaling, dead spots, minimize dirtiness of the plate surface and increase the coefficient of heat transmission
  • The plate positioning system and single side flow design provide convenience for connection and maintenance.
  • Jeotes ™ PHE’s can be made of different material, for example, stainless steel, titanium or other special alloy steel, are available to meet the requirements of various industries.
  • The plate is easy to be inspected and manually cleaned. It can be cleaned by back flushing under many circumstances. The daily cleaning is not time consuming and professionals are not required.
  • All plates use glue-free gasket so that there are less costs for operation and maintenance.
  • The heat exchanging can be designed in many types from two fluid media with single counter-current to three or more fluid media with multi current, through the changing of flow type or increasing the flow passages. Therefore more suitable solutions can be selected by designers to meet different technical requirements.
  • The best coefficient of heat transmis¬sion and pressure drop can be regulated and achieved by assembling the plates, thus the investment in equipment can be minimized.
  • It is economical. The initial investment and operational and maintenance costs are substantially reduced because of its high heat transmission coefficient, convenient installation and service.