Covers practically the whole gamut of practical methods of design in almost every facet of heat transfer situations. Each section is prepared by a world expert in that particular area in such a manner as to be readily understood and applied. Following a detailed discussion of the basic principles an
Table of Contents
"Heat Exchanger Design Heat Exchanger Design Finned Tubes Arrangement High Fins in Air Coolers High Fins for High Temperature Users Low Fins in Shell-and-Tube Exchangers Pressure Drop Calculations Selection Heat Exchangers Air Cooled Heat Exchangers Cost of Double-Pipe and Multitube Units Refrigerant Design Methods Heat Pumps Industrial Heat Pumps Heat Recovery Heat Recovery Boiler Design Fired Heaters Via High Temperature Fluids Heat Regenerators Design and Evaluation Heat Requirements Heater-Treater Sizing for Oil and Gas Producing Systems Heat Transfer Agitated Vessels Fluidized Beds Jacketed Vessels Jacketed Vessels Selection and Design Steam, Direct Injection Thermosiphon Reboilers, General Thermosiphon Reboilers, Guidelines for Design Heaters Increasing Efficiency Insulation Insulation Insulation and Heat Loss Calculation Heat Transfer Estimation and Shortcut Methods Convective Heat Losses from Surfaces Crossflow, Pressure Effect Duty of Exchangers Finned Tubes, Area Estimation Fouling Factors Gas Coefficients Gas Coefficients, Pressure Effects Heat Loss from Buried Pipelines Hydrocarbon Coefficients, Inside Tubes Inside Coefficients for Common Gases and Liquids Liquid Film Thickness in Turbulent Flow Liquid Metals Heat Transfer Coefficients Optimum Temperature Approach and Optimum Velocity Overall Coefficients, Generalized Chart Reboiler Entrainment Calculations Shell-Side Coefficients Shell-and Tube Exchanger Design Data Steam Consumption for Air Heating Steam Heaters and Boilers Tube Resistance Waste Heat Boilers Water Inside Tubes Heating Coil Calculations for Oil Tanks Heaters, Electric for Industrial Use, Sizing "