Applied CombustionCRC Press, 24/02/1993 - 600 من الصفحات This text provides an introduction to the engineering principles of chemical energy conversion, examining combustion science and technology, thermochemical engineering data and design formulation of basic performance relationships. The book supplies SI and English engineers' dimensions and units, helping readers save time and avoid conversion errors. The text contains over 250 end-of-chapter problems, more than 50 examples and a useful solutions manual. |
المحتوى
INTRODUCTION TO APPLIED COMBUSTION | 1 |
COMBUSTION AND ENERGY | 23 |
COMBUSTION AND ENTROPY | 63 |
SOLID FUELS | 105 |
LIQUID FUELS | 155 |
GASEOUS FUELS | 205 |
FLUID MECHANICS | 243 |
CHEMICAL KINETICS | 279 |
GAS TURBINE ENGINE COMBUSTION | 465 |
APPENDIXES | 503 |
Standard State Heats of Formation and Combustion | 512 |
Thermochemical Properties of Methane | 518 |
Thermochemical Properties of Acetylene | 524 |
Thermochemical Properties of Methanol | 530 |
Thermochemical Properties of Nitric Oxide | 536 |
Properties of Saturated Water | 552 |
COMBUSTION ENGINE TESTING | 325 |
SPARKIGNITION ENGINE COMBUSTION | 365 |
COMPRESSIONIGNITION ENGINE COMBUSTION | 421 |
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طبعات أخرى - عرض جميع المقتطفات
عبارات ومصطلحات مألوفة
analysis atom balance brake Btu/lb mole Btu/lbm burn burner cal kcal cal/g mole calculate carbon chemical CO₂ coal combustor complete combustion compression ratio cylinder detonation diesel distillation emissions energy Equation equilibrium excess air exhaust gas Figure flame ft³ fuel consumption fuel-air fuel-engine g mole gas turbine gaseous fuels gases gasoline H₂ H₂O heat addition heat transfer higher heating value hydrocarbon hydrogen ideal ignition intake internal combustion engine isentropic JANAF kcal kinetic kJ/kg mole lb mole liquid fuel mass flow rate mean effective pressure methane methanol mixture molar mole fuel molecular molecule N₂ natural gas O₂ octane Otto cycle oxidation oxygen P₁ P₂ piston pressure reactants reaction solid fuels spark-ignition specific gravity speed steam stoichiometric sulfur T₁ T₂ temperature thermal efficiency Thermochemical thermodynamic tion unit V₁ vapor velocity volume volumetric volumetric flow rate