Fundamentals Of Thermodynamics With Technical Notes For Engineers
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Fundamentals of Thermodynamics (with Technical Notes for Engineers)
Author: Nikhilesh Mukherjee
language: en
Publisher: Allied Publishers
Release Date: 2025-03-26
The book has two parts: the first part covers core topics of fundamental thermodynamics commonly sought after by professionals, while the second part explores about 30 broad categories of different aspects related to various areas of thermodynamics, encompassing over 300 typical subjects in the form of notes for the benefit of readers. These notes provide answers to numerous technical questions that may come to mind. This comprehensive book is designed to benefit both students and professionals alike. For students, it offers a solid foundation by covering core topics of fundamental thermodynamics and provides answers to common technical questions. For professionals, it serves as a valuable resource with in-depth exploration of various thermodynamic aspects across different industries, enhancing their understanding and knowledge in the field. The author humbly believes providing both fundamentals and relevant technical notes can offer a well-rounded and comprehensive learning experience for individuals and the book has the potential to be a lifelong resource that will greatly benefit both students and professionals in various ways.
Fundamentals of Thermodynamics and Applications
Author: Ingo Müller
language: en
Publisher: Springer Science & Business Media
Release Date: 2009-03-12
Thermodynamics is the much abused slave of many masters • physicists who love the totally impractical Carnot process, • mechanical engineers who design power stations and refrigerators, • chemists who are successfully synthesizing ammonia and are puzzled by photosynthesis, • meteorologists who calculate cloud bases and predict föhn, boraccia and scirocco, • physico-chemists who vulcanize rubber and build fuel cells, • chemical engineers who rectify natural gas and distil f- mented potato juice, • metallurgists who improve steels and harden surfaces, • - trition counselors who recommend a proper intake of calories, • mechanics who adjust heat exchangers, • architects who construe – and often misconstrue – ch- neys, • biologists who marvel at the height of trees, • air conditioning engineers who design saunas and the ventilation of air plane cabins, • rocket engineers who create supersonic flows, et cetera. Not all of these professional groups need the full depth and breadth of ther- dynamics. For some it is enough to consider a well-stirred tank, for others a s- tionary nozzle flow is essential, and yet others are well-served with the partial d- ferential equation of heat conduction. It is therefore natural that thermodynamics is prone to mutilation; different group-specific meta-thermodynamics’ have emerged which serve the interest of the groups under most circumstances and leave out aspects that are not often needed in their fields.
Fundamentals of Heat Engines
Summarizes the analysis and design of today’s gas heat engine cycles This book offers readers comprehensive coverage of heat engine cycles. From ideal (theoretical) cycles to practical cycles and real cycles, it gradually increases in degree of complexity so that newcomers can learn and advance at a logical pace, and so instructors can tailor their courses toward each class level. To facilitate the transition from one type of cycle to another, it offers readers additional material covering fundamental engineering science principles in mechanics, fluid mechanics, thermodynamics, and thermochemistry. Fundamentals of Heat Engines: Reciprocating and Gas Turbine Internal-Combustion Engines begins with a review of some fundamental principles of engineering science, before covering a wide range of topics on thermochemistry. It next discusses theoretical aspects of the reciprocating piston engine, starting with simple air-standard cycles, followed by theoretical cycles of forced induction engines, and ending with more realistic cycles that can be used to predict engine performance as a first approximation. Lastly, the book looks at gas turbines and covers cycles with gradually increasing complexity to end with realistic engine design-point and off-design calculations methods. Covers two main heat engines in one single reference Teaches heat engine fundamentals as well as advanced topics Includes comprehensive thermodynamic and thermochemistry data Offers customizable content to suit beginner or advanced undergraduate courses and entry-level postgraduate studies in automotive, mechanical, and aerospace degrees Provides representative problems at the end of most chapters, along with a detailed example of piston-engine design-point calculations Features case studies of design-point calculations of gas turbine engines in two chapters Fundamentals of Heat Engines can be adopted for mechanical, aerospace, and automotive engineering courses at different levels and will also benefit engineering professionals in those fields and beyond.