Combustion
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the modelling part will be mainly addressed. | the modelling part will be mainly addressed. | ||
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== Reaction mechanisms == | == Reaction mechanisms == |
Revision as of 09:37, 18 September 2005
Contents |
What is combustion -- Physics versus modelling
Combustion phenomena consists of many physical and chemical processes with broad range of time scales. Mathematical description of combustion is not always trivial. Analytical solutions exists only for basic situations of laminar flame and because of its assumptions it is often restricted to few problems solved usually in zero or one-dimensional space.
Problems solved today concern mainly turbulent flows, gas as well as liquid fuels, pollution issues (products of combustion as well as for example noise pollution). These problems require not only extensive experimental work, but also numerical modelling. All combustion models must be validated against the experiments as each one has its own drawbacks and limits. However here the modelling part will be mainly addressed.
Reaction mechanisms
Infinitely fast chemistry
Turbulent flame speed model
Eddy Break-Up model
Equilibrium chemistry models
Finite chemistry
Full reaction mechanism model
Reduced scheme models
- Flamelet model
- Other reaction progress variable models