Statements (50)
| Predicate | Object |
|---|---|
| gptkbp:instanceOf |
heat exchanger
|
| gptkbp:advantage |
compact design
easy maintenance expandable capacity gasket failure risk high heat transfer efficiency limited to low and medium pressures |
| gptkbp:alternativeTo |
gptkb:shell_and_tube_heat_exchanger
|
| gptkbp:application |
pasteurization
district heating marine engines waste heat recovery oil cooling |
| gptkbp:cleaningModes |
CIP (clean-in-place)
manual disassembly |
| gptkbp:compact |
high
|
| gptkbp:energyEfficiency |
high
|
| gptkbp:flowArrangement |
counterflow
crossflow parallel flow |
| gptkbp:function |
heat transfer between two fluids
|
| gptkbp:hasComponent |
plates
gaskets frame end covers |
| https://www.w3.org/2000/01/rdf-schema#label |
plate heat exchanger
|
| gptkbp:inventedBy |
1923
Richard Seligman |
| gptkbp:maintenance |
easy to clean
|
| gptkbp:maintenanceFrequency |
periodic
|
| gptkbp:material |
gptkb:steel
titanium nickel alloys |
| gptkbp:standardizedBy |
gptkb:ASME
gptkb:EN_13445 PED |
| gptkbp:transferMechanism |
indirect contact
|
| gptkbp:type |
brazed plate heat exchanger
gasketed plate heat exchanger semi-welded plate heat exchanger welded plate heat exchanger |
| gptkbp:usedFor |
liquid-gas heat transfer
liquid-liquid heat transfer |
| gptkbp:usedIn |
food processing
power plants chemical processing refrigeration HVAC systems |
| gptkbp:bfsParent |
gptkb:counterflow_heat_exchangers
|
| gptkbp:bfsLayer |
8
|