Applied Thermodynamics in Unit Operations: Solved Examples on Energy, Exergy, and Economic Analyses of Processes
Autor Ali M. Nikbakht, Ahmad Piri, Azharul Karimen Limba Engleză Hardback – 28 dec 2023
Features:
- Combines the energy and exergy routines to analyze utilities and unit operations in a wide range of engineering scopes: nozzles, turbines, compressors, evaporators, HVAC, drying technology, steam handling, and power generation
- Offers a detailed procedure of finding economic wealth of energy in the operations
- Discusses basic concepts of thermal engineering and industrial operational insights through practiced examples, schematic illustrations, and software codes
- The only book to include practical problems of industrial operations solved in detail and complementary EES codes for the solutions
- Features examples selected from authors’ real-world experience in industrial projects
Preț: 869.23 lei
Preț vechi: 955.20 lei
-9% Nou
Puncte Express: 1304
Preț estimativ în valută:
166.40€ • 171.14$ • 138.05£
166.40€ • 171.14$ • 138.05£
Carte disponibilă
Livrare economică 29 ianuarie-12 februarie
Livrare express 14-18 ianuarie pentru 41.07 lei
Preluare comenzi: 021 569.72.76
Specificații
ISBN-13: 9781032543956
ISBN-10: 1032543957
Pagini: 322
Ilustrații: 53 Tables, black and white; 124 Line drawings, black and white; 2 Halftones, black and white; 126 Illustrations, black and white
Dimensiuni: 156 x 234 x 19 mm
Greutate: 0.75 kg
Ediția:1
Editura: CRC Press
Colecția CRC Press
ISBN-10: 1032543957
Pagini: 322
Ilustrații: 53 Tables, black and white; 124 Line drawings, black and white; 2 Halftones, black and white; 126 Illustrations, black and white
Dimensiuni: 156 x 234 x 19 mm
Greutate: 0.75 kg
Ediția:1
Editura: CRC Press
Colecția CRC Press
Public țintă
Postgraduate and Professional Practice & DevelopmentCuprins
Chapter 1. Introduction and Concepts. 1.1. A Short Review of Thermoynamics. Chapter 2. Mass Balance. 2.1. Mass Flow. 2.2. Volumetric Flow. 2.3. Mass Balance. 2.4. Material Balance. Chapter 3. Energy Balance. 3.1. Energy Balance. 3.2. Energy Balance of Closed Systems. 3.3. Thermophysical Properties. Chapter 4. Entropy. 4.1. Reversible and Irreversible Process. 4.2. Irreversibility Factors. 4.3. Internal and External Irreversibility. 4.4. Entropy. 4.5. Isentropic process. 4.6. Gibbs Equations. 4.7. Entropy Change of Liquids and Solids. 4.8. Isentropic Processes in Ideal Gases. 4.9. Mechanisms of entropy transfer. 4.10. Entropy balance. Chapter 5. Exergy. 5.1. Cycle. 5.2. Thermal engine. 5.3. Carnot Cycle. 5.4. Exergy of heat. 5.5. Exergy of work. 5.6. Exergy of mass. 5.7. Exergy of ideal gas. 5.8. Thermal and mechanical exergy of mass flow. 5.9. Cold and hot exergy. 5.10. Destruction of exergy. 5.11. Exergy balance. Chapter 6. thermodynamic analyses in unit operations. 6.1. Thermodynamic Analyses. 6.2. Energy Analysis. 6.3. Exergy Analysis. 6.4. System losses. 6.5. Application of tehrmodynamics in the food industry. 6.6. Thermophysical Properties of Agricultural Products and Food. 6.7. Energy analysis in unit operation. 6.8. Reversible work of steady flow. 6.9. Isentropic Efficiency of Steady Flow Equipment. 6.10. Case examples from the food industry. Chapter 7. Pschycrometry and Drying. 7.1. Mixture. 7.2. Gas Mixtures. 7.3. Properties of a Mixture of Ideal Gases. 7.4. Analysis of Humid Air. 7.5. Adiabatic Saturation Process. 7.6. Psychrometry Chart. 7.7. Thermodynamic Processes of Humid Air. 7.8. Cooling Tower. 7.9. Exergy of moist air. 7.10. Drying. Chapter 8. Exergy-Economic Analysis. 8.1. Concepts of exergy-economic analysis. 8.2. Heat exchanger. 8.3. Pump. 8.4. Mixing. 8.5. Evaporator. 8.6. Separator. 8.7. Throttling valve. References. Appendices
Notă biografică
Ali M. Nikbakht is an experienced engineer in energy storage systems. He has lectured and conducted industrial engaged research programs at Urmia University and Queensland University of Technology. Having worked in internal combustion engine test rooms, he obtained extensive experience in testing energy systems along with techno-economic assessment of thermal operations. He has presented workshops and seminars in thermal engineering, steam generation and distribution, HVAC and techno-economic evaluations in real-life industrial processes under the framework of 4E (energy, exergy, economy, and environment). He has commissioned the bio-energy laboratory, where solar collector simulator, fluid dynamics experimentation, biomass conversion technologies (pyrolysis and transesterification) are practiced. As a senior consultant in launching engine test room at Urmia University, he has presented novel and innovative approaches for testing, instrumentation and validation.
Broad Areas of Research:
Broad Areas of Research:
Broad Areas of Research:
Broad Areas of Research:
- Energy storage systems
- Techno-economic analysis of energy systems
- Computational fluid dynamics in energy systems
- Exergy and energy in unit operations and processing industry
Broad Areas of Research:
- Exergy and Thermodynamics
- Thermal engineering in fruit/food processing
- Steady-state simulation of processes in Hysys
Broad Areas of Research:
- Multi-scale and Physics Based Modelling in Drying
- Renewable Energies and Sustainable Processing
- Artificial Intelligence and Advanced Modelling in Agri-industrial Processes
- Nano fluid solar thermal storage
- Concentrating PV-thermal collector
- Thermal Storage
- Lean Manufacturing and Lean Healthcare System
Descriere
The growing demand of energy accounting is the main challenge for engineers working in chemical processing plants, food industries, and the energy sector. This book offers a clear contribution to the quantification of energy consumption in processes, while solving the economic aspects of energy that are vital in real-life industrial contexts.