Mass and Energy Balances in Materials Engineering
This text takes a practical approach to its presentation of stoichiometry and energy-balance principles for materials engineering students by emphasizing their use in actual engineering practice.
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PRELIMINARIES IIUSING THE UNITS
FUNDAMENTALS OF MATERIAL BALANCES
NONREACTIVE MATERIAL BALANCES
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alloy alumina aluminum amount analyzing argon atomic burned calcine calcium calculated carbon Chapter chemical chloride coke combustion component composition compounds concentrate containing converting copper density determine dry air elements energy balance enthalpy change enthalpy of formation enthalpy of reaction equation example excess Figure flowsheet fuel oil furnace gibbsite given grams heat capacity heat losses hour hydrogen input J/mol kg-mols kg/hr kiln kilograms liquid magnesium magnetite material metal metric tonnes mixture molar sensible heat mole fraction mols molten Multiplying natural gas nitrogen off-gas output oxide oxygen percentages phase pig iron powder pressure problem produced pure react reactor recycle result Sankey diagram scrap sensible heat silica silicon slag slurry sodium solid solution Solving specific gravity standard cubic meters standard enthalpy standard-state steel stoichiometric sulfur tailings thermodynamic thermodynamic data thermodynamic tables TiCl4 titanium top gas Type unit variables volume water vapor zinc zirconia