Chemical Kinetic Modeling of Combustion of Practical Hydrocarbon Fuels
Title | Chemical Kinetic Modeling of Combustion of Practical Hydrocarbon Fuels PDF eBook |
Author | Charles K. Westbrook |
Publisher | |
Pages | 14 |
Release | 1989 |
Genre | Chemical kinetics |
ISBN |
Chemical Kinetic Modeling of Combustion of Automotive Fuels
Title | Chemical Kinetic Modeling of Combustion of Automotive Fuels PDF eBook |
Author | W. J. Pitz |
Publisher | |
Pages | 10 |
Release | 2006 |
Genre | |
ISBN |
The objectives of this report are to: (1) Develop detailed chemical kinetic reaction models for components of fuels, including olefins and cycloalkanes used in diesel, spark-ignition and HCCI engines; (2) Develop surrogate mixtures of hydrocarbon components to represent real fuels and lead to efficient reduced combustion models; and (3) Characterize the role of fuel composition on production of emissions from practical automotive engines.
Chemical Kinetics of the Gas Phase Combustion of Fuels
Title | Chemical Kinetics of the Gas Phase Combustion of Fuels PDF eBook |
Author | Francis Westley |
Publisher | |
Pages | 146 |
Release | 1976 |
Genre | Chemical kinetics |
ISBN |
Work supported by the Office of Standard Reference Data, National Bureau of Standards, Naval Sea Systems Command, Department of the Navy, and Division of Conservation, Research and Technology, Energy Research and Development Administration.
Summary Report on the Workshop on High Temperature Chemical Kinetics, Applications to Combustion Research
Title | Summary Report on the Workshop on High Temperature Chemical Kinetics, Applications to Combustion Research PDF eBook |
Author | National Measurement Laboratory (U.S.) |
Publisher | |
Pages | 100 |
Release | 1978 |
Genre | Chemical kinetics |
ISBN |
Fundamental and Semi-global Kinetic Mechanisms of Hydrocarbon Combustion. Annual Report, October 1, 1977--September 30, 1978
Title | Fundamental and Semi-global Kinetic Mechanisms of Hydrocarbon Combustion. Annual Report, October 1, 1977--September 30, 1978 PDF eBook |
Author | |
Publisher | |
Pages | |
Release | 1978 |
Genre | |
ISBN |
Aimed at understanding practical combustion environments, present modeling efforts have been hampered by difficulties related to coupling combustion chemistry to the complex fluid mechanics present. In an attempt to circumvent such difficulties the present research program is aimed at the development of simplified chemical kinetic models (usually termed global models) to represent the combustion chemistry. Initially aimed at simple hydrocarbon fuels the program is progressing to studies of more complex aliphatics as well as important alternative fuels. The objective of this research is multifold: (a) to determine mechanistic oxidation routes of hydrocarbons derived from crudes and alternate sources, so that efficient and environmentally clean power plants based on internal and external combustion processes can be designed; (b) to develop and validate actual simplified (global) reaction rates for these hydrocarbons so that these power plants can be modelled; and (c) to develop an understanding of particulate (soot) formation to permit the rapid and successful introduction of the inexpensive, heavy, highly aromatic fuels. Studies of paraffin, olefin and alcohol hydrocarbons are reviewed. Appropriate global models are presented and compared with experimental data. The results clearly demonstrate that the turbulent flow reactor facility can be used to develop accurate global models for a variety of important fuels.
Evaluated Kinetic Data for High Temperature Reactions
Title | Evaluated Kinetic Data for High Temperature Reactions PDF eBook |
Author | |
Publisher | |
Pages | |
Release | 1972 |
Genre | Chemical kinetics |
ISBN | 9780408703468 |
Chemical Kinetics of Hydrocarbon Ignition in Practical Combustion Systems
Title | Chemical Kinetics of Hydrocarbon Ignition in Practical Combustion Systems PDF eBook |
Author | |
Publisher | |
Pages | |
Release | 2000 |
Genre | |
ISBN |
Chemical kinetic factors of hydrocarbon oxidation are examined in a variety of ignition problems. Ignition is related to the presence of a dominant chain branching reaction mechanism that can drive a chemical system to completion in a very short period of time. Ignition in laboratory environments is studied for problems including shock tubes and rapid compression machines. Modeling of the laboratory systems are used to develop kinetic models that can be used to analyze ignition in practical systems. Two major chain branching regimes are identified, one consisting of high temperature ignition with a chain branching reaction mechanism based on the reaction between atomic hydrogen with molecular oxygen, and the second based on an intermediate temperature thermal decomposition of hydrogen peroxide. Kinetic models are then used to describe ignition in practical combustion environments, including detonations and pulse combustors for high temperature ignition, and engine knock and diesel ignition for intermediate temperature ignition. The final example of ignition in a practical environment is homogeneous charge, compression ignition (HCCI) which is shown to be a problem dominated by the kinetics intermediate temperature hydrocarbon ignition. Model results show why high hydrocarbon and CO emissions are inevitable in HCCI combustion. The conclusion of this study is that the kinetics of hydrocarbon ignition are actually quite simple, since only one or two elementary reactions are dominant. However, there are many combustion factors that can influence these two major reactions, and these are the features that vary from one practical system to another.