Heat Exchange Engineering: Compact heat exchangers : techniques of size reductionThe second of a two-volume work designed to provide information on the design aspects of thermal systems and to review research and development on the improvement of design and performance. This book concentrates on shell and tube heat exchangers, particularly compact exchangers. |
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alloy aluminium analysis application axial baffle biofilm biofouling brazing calculated characteristics Chemical Engineering compact heat exchangers condensation configuration convection Convective Heat Transfer coolant cooling water correlation corrosion corrugated cost crossflow curves data reduction techniques density deposition developed DFEM diameter differential fluid enthalpy effect efficiency enhancement equations evaporator experimental expert system flow rate fouling geometry header heat exchanger surfaces heat transfer coefficient heat transfer surface hydraulic diameter increase inlet input laminar laminar flow layer liquid louvre angle louvred fin manufacturing mass transfer material mechanical metal Nusselt operation outlet Packed Bed parameters particles PCHE performance PFHE plate heat exchanger plate-fin pressure drop problem radial range reaction reactor reduced Reynolds number shape factor method shell and tube shown in Figure solid solution stream thermal conductivity thickness titanium turbulent two-phase typical University of Leeds values velocity vessel viscosity