Chemical Process Engineering: Design And EconomicsChemical Process Engineering presents a systematic approach to solving design problems by listing the needed equations, calculating degrees-of-freedom, developing calculation procedures to generate process specifications- mostly pressures, temperatures, compositions, and flow rates- and sizing equipment. This illustrative reference/text tabulates numerous easy-to-follow calculation procedures as well as the relationships needed for sizing commonly used equipment. |
What people are saying - Write a review
User Review - Flag as inappropriate
page 126(140) : Methanol process
User Review - Flag as inappropriate
its realy helpful
Contents
1 The Structure of Processes and Process Engineering | 1 |
2 Production and Capital Cost Estimation | 27 |
3 Process Circuit Analysis | 78 |
4 Process Heat Transfer | 128 |
5 Compressors Pumps and Turbines | 170 |
6 Separator Design | 239 |
Other editions - View all
Common terms and phrases
assume calculation procedure carbon catalyst centrifugal centrifugal compressor Chem Chemical Engineering coil component compression compressor condenser contains convert cooling correction factor CSTR decanter degrees of freedom depreciable capital cost determine discharge drum efficiency energy balance enthalpy equilibrium stages equipment cost estimate example exit extractor factor method filter flow system gas-liquid separator gases given by Equation given in Table heat exchanger heat transfer heat-transfer fluid height increase inlet installed jacket liquid listed in Table mass mass transfer methane methanol minimum mixture mole balance mole fraction NPSH obtain operating overall heat-transfer coefficient packed packed bed phase separation pipe plant pressure drop problem process design process engineer process unit psia ratio reaction volume reactor shell shown in Figure solution space velocity steam subscript suction Summary of Equations tank temperature difference tray tube turbine turboexpander vacuum pump vapor variables velocity vessel viscosity volumetric flow rate