Chemical Engineering: Fluid flow, heat transfer, and mass transfer |
Contents
INTRODUCTION 11 | 11 |
FRICTION IN PIPES AND CHANNELS | 28 |
FLOW MEASUREMENT | 74 |
Copyright | |
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Common terms and phrases
acid adiabatic saturation temperature boiling boundary layer calculated centipoises Chem compression condensation constant convection cooling curve cylinder D₂ delivery density diameter diffusion direction of flow distance eddy enthalpy equation Ethyl film coefficient flow rate fluid flowing force frictional losses gases given gradient H₁ heat transfer coefficient humidity ideal gas increase isentropic isothermal kinetic energy laminar sub-layer liquid logarithmic mean mass rate mass transfer maximum meter molecular molecules momentum obtained orifice P₁ P₂ partial pressure pipe piston plane Prandtl pressure drop pu² pump R/pu² radiation rate of flow rate of transfer ratio relation Reynolds analogy Reynolds Number shear stress shown in Fig specific heat steam surface T₁ T₂ temperature difference thermal conductivity thickness tube turbulent flow u₁ unit area unit mass v.dp V₁ vapour velocity venturi meter viscosity volume wet bulb temperature ди ду