Overview

The book covers the various approaches to modeling the in-cylinder processes such as mixture formation, combustion and formation of exhaust emissions in diesel and gasoline engines. Due to their complexity, emphasis is put on multi-dimensional spray, combustion and emission formation models. However, phenomenological as well as zero-dimensional thermodynamic models, which are still widely used in engine development because of their computational efficiency, are addressed as well. Example calculations of each model type are compared with corresponding experimental data represented in diagrams as well as in images resulting from modern optical measuring techniques in order to discuss the capabilities of today's simulation models and the shortcomings that still exist either because of oversimplifying assumptions or insufficient knowledge. Readers achieve an overview of the most important simulation models describing the in-cylinder processes of internal combustion engines and gain insights into which modeling approach is appropriate for a specific problem.

Full Product Details

Author:   Gunnar Stiesch
Publisher:   Springer-Verlag Berlin and Heidelberg GmbH & Co. KG
Imprint:   Springer-Verlag Berlin and Heidelberg GmbH & Co. K
Edition:   2003 ed.
Dimensions:   Width: 15.50cm , Height: 1.70cm , Length: 23.50cm
Weight:   1.330kg
ISBN:  

9783540006824

ISBN 10:   3540006826
Pages:   282
Publication Date:   10 April 2003
Audience:   College/higher education ,  Professional and scholarly ,  Undergraduate ,  Postgraduate, Research & Scholarly
Format:   Hardback
Publisher's Status:   Active
Availability:   In Print  
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Table of Contents

Reviews

MECHANICAL ENGINEERING In this volume, the author covers the various approaches to modeling in-cylinder processes, such as mixture formation, combustion, and formation of exhaust emissions in diesel and gasoline engines. Due to their complexity, emphasis is put on multidimensional spray, combustion, and emission formation models. However, phenomenological and zero-dimensional thermodynamic models, which are still widely used in engine development, are addressed as well. Example calculations of each model type are compared with corresponding experimental data in order to discuss the capabilities of today's simulation models, as well as shortcomings that still exist. There is an overview of the most important simulation models describing the in-cylinder processes of internal combustion engines. In addition, suggestions are made about which modeling approach is appropriate for a specific type of problem.

MECHANICAL ENGINEERING In this volume, the author covers the various approaches to modeling in-cylinder processes, such as mixture formation, combustion, and formation of exhaust emissions in diesel and gasoline engines. Due to their complexity, emphasis is put on multidimensional spray, combustion, and emission formation models. However, phenomenological and zero-dimensional thermodynamic models, which are still widely used in engine development, are addressed as well. Example calculations of each model type are compared with corresponding experimental data in order to discuss the capabilities of today's simulation models, as well as shortcomings that still exist. There is an overview of the most important simulation models describing the in-cylinder processes of internal combustion engines. In addition, suggestions are made about which modeling approach is appropriate for a specific type of problem.

"MECHANICAL ENGINEERING ""In this volume, the author covers the various approaches to modeling in-cylinder processes, such as mixture formation, combustion, and formation of exhaust emissions in diesel and gasoline engines. Due to their complexity, emphasis is put on multidimensional spray, combustion, and emission formation models. However, phenomenological and zero-dimensional thermodynamic models, which are still widely used in engine development, are addressed as well. Example calculations of each model type are compared with corresponding experimental data in order to discuss the capabilities of today’s simulation models, as well as shortcomings that still exist. There is an overview of the most important simulation models describing the in-cylinder processes of internal combustion engines. In addition, suggestions are made about which modeling approach is appropriate for a specific type of problem."""

MECHANICAL ENGINEERING <p> In this volume, the author covers the various approaches to modeling in-cylinder processes, such as mixture formation, combustion, and formation of exhaust emissions in diesel and gasoline engines. Due to their complexity, emphasis is put on multidimensional spray, combustion, and emission formation models. However, phenomenological and zero-dimensional thermodynamic models, which are still widely used in engine development, are addressed as well. Example calculations of each model type are compared with corresponding experimental data in order to discuss the capabilities of todaya (TM)s simulation models, as well as shortcomings that still exist. There is an overview of the most important simulation models describing the in-cylinder processes of internal combustion engines. In addition, suggestions are made about which modeling approach is appropriate for a specific type of problem.

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