Cyclopedia of Diesel Engineering (Six-Volume Set)
Condition: SECONDHAND
This is a secondhand book. The jacket image is a photograph of the exact copy we have in stock. This image shows the condition of this book. Further condition remarks are below.
Author: James Howard E. Degler, L. H. Morrison, Stanton E. Winston, Edgar J. Kates, L. R. Drinkall, Tom C. Plumridge, R. E. Doubt, J. Ralph Dalzell
Binding: Hardback
Published: American Technical Society, 1943
Condition:
Book: Fair
Jacket: No dust jacket - cloth/board in good condition
Pages: Yellowed
Markings: Previous owner
Condition remarks: Some insect damage on endpapers.
A foundational text for mechanical and automotive engineering, Cyclopedia Of Diesel Engineering: Diesel Engine Design presents a comprehensive technical overview of diesel engine mechanics and construction. This authoritative volume details the intricate principles governing internal combustion, from fundamental thermodynamics to advanced component integration. It instructs readers on the practical application of engineering theories, offering a rigorous examination suitable for both students and seasoned professionals in the field. The text illustrates various design methodologies and operational considerations crucial for understanding and optimizing diesel power systems. An essential reference, it compiles critical knowledge necessary for mastering the complexities of modern diesel technology.
Author: James Howard E. Degler, L. H. Morrison, Stanton E. Winston, Edgar J. Kates, L. R. Drinkall, Tom C. Plumridge, R. E. Doubt, J. Ralph Dalzell
Binding: Hardback
Published: American Technical Society, 1943
Condition:
Book: Fair
Jacket: No dust jacket - cloth/board in good condition
Pages: Yellowed
Markings: Previous owner
Condition remarks: Some insect damage on endpapers.
A foundational text for mechanical and automotive engineering, Cyclopedia Of Diesel Engineering: Diesel Engine Design presents a comprehensive technical overview of diesel engine mechanics and construction. This authoritative volume details the intricate principles governing internal combustion, from fundamental thermodynamics to advanced component integration. It instructs readers on the practical application of engineering theories, offering a rigorous examination suitable for both students and seasoned professionals in the field. The text illustrates various design methodologies and operational considerations crucial for understanding and optimizing diesel power systems. An essential reference, it compiles critical knowledge necessary for mastering the complexities of modern diesel technology.