Heat Exchanger Sizing

Heat Exchanger Design

Following Design Services are available for Heat Exchangers

Thermal Design of Shell & Tube Exchangers (Single Phase exchanger, Condenser, Thermosyphon / Kettle Reboiler, Double Pipe Heat Exchanger, Air Cooled Heat Exchangers, Plate-fin Heat Exchanger, Fired Heater, Plate Heat Exchanger, Coil / Coil Wound Heat Exchanger
Existing Heat Exchangers Adequacy / Rating
Output / Exiting Fluid Characteristics from the Existing Heat Exchanger

Typical Results of Shell & Tube Exchanger will contain:

TEMA Sheet
Overall Summary (Individual heat transfer coefficients, Liquid and Vapor Properties In/Out, Pressure Drop of each components, Fluid momentum, etc)
Thermal Details: Resistance Distribution of Slean & Dirty services, Heat Transfer Coefficients of Vapor, Liquid, Two Phase (if any), Desuperheating, Condensing, Vapor Sensible, Liquid Sensible. Boiling, Liquid cooling, Mean Temperature Difference, Heat Flux. Duty distribution of Vapor, Liquid, Two phase
Pressure Drop Details: Inlet Nozzle, Entering Bundle, through Baffle Windows, Exiting Bundle, Outlet Nozzle.
Vibration and Resonance analysis asper TEMA standards
Exchanger Geometry: Basic Geometry, Tubes Baffles Supports-Misc. Baffles Bundle Enhancements. Thermosiphon Piping (if any)
Setting Plan Details: GA Drawing, Overall length Bundle/Tube Pulling Length Location and orientation of Nozzles Location and orientation of Supports Location of Baffles
Tubesheet Layout
BOM / Weight of various components