Sarkar, S.
Fuels and Combustion 3rd ed.
CRC Press 2009.10
400 pp.(H)
ISBN 1-4398-2541-6
18,200円
Contents
1. Introduction/ 2. Definitions, Units and Measures/ 3. Solid Fuels/ 4. Processing of Solid Fuels/ 5. Liquid Fuels/ 6. Gaseous Fuels/ 7. Combustion Process (Stoichiometry and Thermodynamics)/ 8. Combustion Process (Kinetics)/ 9. Combustion Appliances/ Appendices/ Index/
* Fuels and Combustion is a systematic and comprehensive work on a subject that forms an integral part of the undergraduate degree courses in Chemical, Mechanical, Metallurgical and Aeronautical Engineering. While emphasizing the fundamental principles, the book provides a balanced treatment of energy resources, processing of fuels, fundamentals of combustion and combustion appliances. *
Schwarz, A. & Janicka, J. ed.
Combustion Noise
Springer-Verlag 2009.6
291 pp.(H)
ISBN 3-642-02037-2
16,400円
Contents
1.Numerical URANS/ 2.Swirl Burners with different Burner Exit Geometries/ 3.Large-Eddy Simulation/ 4.The equivalent source method/ 5.Correlation of Entropy Waves and Acoustic Emission in Combustion Chambers/ 6.Influence of boundary conditions on the noise emission of turbulent premixed swirl flames/ 7.Near Field of Premixed and Diffusion Flames/ 8.Wall Noise Interaction and Noise Propagation in Swirled Combustion Chamber Flows/ 9.Direct Numerical Simulation of the interaction between a flame and an acoustic wave/ Index/ *
Lieuwen, T. et al. ed.
Synthesis Gas Combustion
Fundamentals and Applications
CRC Press 2009.9
400 pp.(H)
ISBN 1-4200-8534-4
16,000円
Contents
1.Gasification Technology to Produce Synthesis Gas/ 2.Syngas Chemical Kinetics and Reaction Mechanisms/ 3.Laminar Flame Properties of H2/CO Mixtures/ 4.Fundamental Combustion Characteristics of Syngas/ 5.Turbulent Combustion Properties of Premixed Syngas/ 6.Pollutant Formation and Control/ 7.Syngas Utilization/ 8.Catalytic Combustion of Syngas/ 9.Operability Issues Associated with Steady Flowing Combustors/ 10.Combustion of Syngas in Internal Combustion Engines/ 11.Oxide Fuel Cells Using Syngas/ Index/
* Coal, still used to generate more than half of the electric power in the U.S., will likely be part of any future global energy plan. But this finite resource is also responsible for 80 percent of the CO2 emissions from power production, and its continued use will require improved processing techniques that are less damaging to the environment and less costly. One viable option is the use of "clean coal" energy conversion devices that rely on the combustion of gasified coal, referred to as synthesis gas, or syngas. *
Zhao, H. ed.
Advanced Direct Injection Combustion Engine Technologies and
Development Vol.1
Gasoline and Gas Engines
Woodhead Pub. 2009.12
312 pp.(H)
ISBN 1-84569-389-2
33,000円
Contents
1. Overview of gasoline direct injection engines/ 2. Stratified charge combustion in direct injection gasoline engines/ 3. The turbocharged direct injection spark-ignition engine/ 4. The lean boost combustion system for improved fuel economy/ 5. Exhaust gas recirculation boosted direct injection gasoline engines/ 6. Direct injection gasoline engines with autoignition combustion/ 7. Design and optimization of gasoline direct injection engines using computational fluid dynamics/ 8. Direct injection natural gas engines/ 9. Bio fuels for spark-ignition engines/ 10. Optical diagnostics for direct injection gasoline engine research and development/ Index/ *
Badeau, J.- P. & Levi , A. ed.
Biomass Gasification
Chemistry, Processes and Applications
Nova Science Pub. 2009.9
474 pp.(H)
ISBN 1-60741-461-9
17,900円
Contents
1.A global perspective on biomass gasification/ 2.Innovation on biomass wastes utilization through gasification and co-gasification. Stage of deployment and needs for further R&D/ 3.Biowastes-To-Biofuels Routes Via Gasification/ 4.Auto-Gasification Of Biomass/ 5.Biomass Gasification Systems Integrated With Fuel Cells And Microturbines/ 6.Allothermal Gasification: Review of Recent Developments/ 7.Modelling fixed-bed biomass gasifiers: A review/ 8.Upgrading of a biomass generated gas with commercial-like and home-made catalysts/ 9.The study on the performance of ‘mobile oxygen’ catalysts used for biomass gasification/ 10.Biomass production with fast-growing trees on agricultural land in cool-temperate regions: possibilities, limitations, challenges/ 11.Producer Gas and Vegetable Oils Operated Compression Ignition Engines for Rural Applications/ 12.Biomass gasifier based power projects under clean development mechanism in India: A preliminary assessment/ 13.Biomass Gasification in China: Some Recent Research and Demonstration/ Index/
* Biomass gasification means incomplete combustion of biomass resulting in the production of combustible gases consisting of carbon monoxide, hydrogen and methane. Amongst the renewable energies, the biomass is the most important energy source. Three types of biomass are available, one generated during the processing of wood in timber mills, another is energy plantation and third bio-residues generated during the processing of agricultural produce. Due to a booming population and increasing needs in life quality all over the world, energy demand is undergoing a great increase. To find alternative fuels and to increase the contribution of renewable energy to worldwide energy production, biomass wastes must be used for energy production. *
160-36 登録日 09.12.06
