Thermodynamics and combustion modeling
Abstract
Modeling fluid phase phenomena blends the conservation equations of continuum mechanics with the property equations of thermodynamics. The thermodynamic contribution becomes especially important when the phenomena involve chemical reactions as they do in combustion systems. The successful study of combustion processes requires (1) the availability of accurate thermodynamic properties for both the reactants and the products of reaction and (2) the computational capabilities to use the properties. A discussion is given of some aspects of the problem of estimating accurate thermodynamic properties both for reactants and products of reaction. Also, some examples of the use of thermodynamic properties for modeling chemically reacting systems are presented. These examples include one-dimensional flow systems and the internal combustion engine.
- Publication:
-
NASA-Chinese Aeronautical Establishment (CAE) Symposium
- Pub Date:
- 1986
- Bibcode:
- 1986cae..symp..113Z
- Keywords:
-
- Combustion Physics;
- Combustion Products;
- Fuel Combustion;
- Internal Combustion Engines;
- One Dimensional Flow;
- Thermodynamic Properties;
- Thermodynamics;
- Conservation Equations;
- Estimates;
- Mathematical Models;
- Thermodynamics and Statistical Physics