Heat Exchangers This is session 19 in curriculum manual
Today’s Agenda Purpose of Heat Exchangers Three Methods of Temperature Transfer Primary Parts Operation of Heat Exchanger Applications Hazards
Purpose of Heat Exchangers Transfer heat Increase production Prevent thermal shock Safety Prevent overheating
Heat Exchange may serve to: Increase production (pre-heater on reactor) Prevent thermal shock (pre-heater on distillation column) Change phase (cool vapor to condense it, or heat a liquid to vaporize it) Prevent overheating of a process fluid Recover “waste” heat for useful purposes
Applications of Tube and Shell Exchangers Reboiler Forced feed Thermosiphon Heater/preheater Aftercooler Condenser Chiller Interchanger
Three Methods of Temperature Transfer Convection Conduction Radiation Convection and conduction is mostly what occurs in HE
Parts of a Shell and Tube HE Head Shell Tubes – plain or finned Tube Sheet – keeps tube-side isolated from shell-side Baffles – help w/ convection Tie Rods – support tubes Nozzles – shell and tube-side
Identify Primary Parts Tube inlet and outlet Shell inlet and outlet Baffle Exchanger head (channel type) Tube bundle
Single Pass Counter Flow Exchanger
Operation of Tube and Shell Exchangers Typical Tube and Shell Exchangers Main Components
Hazards Personal Safety Environmental hazards Equipment Head knockers (valves/pipes) Goggles or faceshield when draining or venting Contact w/ chemical hazards Temp. hazards Pressure hazards Environmental hazards Leaks Equipment Thermal shock Fouling
Monitoring and Maintenance Look Listen Feel
Heat Exchanger Hazards Individual Equipment Production Environment
Single Pass Shell/Tube Condenser
Tube Fins
Tube Bundle
U-Tube Bundle
Two Pass Floating Head Heat Exchanger
Kettle Type Reboiler
Multi Pass Floating Head Heat Exchanger
Heat Exchanger Symbols