معرفی کتاب «مدلسازی ترموفلوید برای کاربردهای بهرهوری انرژی» (با عنوان لاتین Thermofluid Modeling for Energy Efficiency Applications) نوشتهٔ Hassan, N. M. S.; Khan, M. M. K، منتشرشده توسط نشر Academic Press is an imprint of Elsevier در سال 2015. این کتاب در فرمت pdf، زبان انگلیسی ارائه شده است.
__Thermofluid Modeling for Sustainable Energy Applications__ provides a collection of the most recent, cutting-edge developments in the application of fluid mechanics modeling to energy systems and energy efficient technology. Each chapter introduces relevant theories alongside detailed, real-life case studies that demonstrate the value of thermofluid modeling and simulation as an integral part of the engineering process. Research problems and modeling solutions across a range of energy efficiency scenarios are presented by experts, helping users build a sustainable engineering knowledge base. The text offers novel examples of the use of computation fluid dynamics in relation to hot topics, including passive air cooling and thermal storage. It is a valuable resource for academics, engineers, and students undertaking research in thermal engineering. * Includes contributions from experts in energy efficiency modeling across a range of engineering fields * Places thermofluid modeling and simulation at the center of engineering design and development, with theory supported by detailed, real-life case studies * Features hot topics in energy and sustainability engineering, including thermal storage and passive air cooling * Provides a valuable resource for academics, engineers, and students undertaking research in thermal engineering Content: Front-matter,Copyright,List of Contributors,PrefaceEntitled to full textChapter 1 - Performance Evaluation of Hybrid Earth Pipe Cooling with Horizontal Piping System, Pages 1-30, S.F. Ahmed, M.M.K. Khan, M.T.O. Amanullah, M.G. Rasul, N.M.S. Hassan Chapter 2 - Thermal Efficiency Modeling in a Subtropical Data Center, Pages 31-58, N.M.S. Hassan, M.M.K. Khan, M.G. Rasul Chapter 3 - Natural Convection Heat Transfer in the Partitioned Attic Space, Pages 59-72, Suvash C. Saha, Y.T. Gu, M.M.K. Khan Chapter 4 - Application of Nanofluid in Heat Exchangers for Energy Savings, Pages 73-101, M. Monjurul Ehsan, Shafi Noor, Sayedus Salehin, A.K.M. Sadrul Islam Chapter 5 - Effects of Perforation Geometry on the Heat Transfer Performance of Extended Surfaces, Pages 103-117, Md. Farhad Ismail, Suvash C. Saha, M.A. Rashid Sarkar Chapter 6 - Numerical Study of Flow Through a Reducer for Scale Growth Suppression, Pages 119-148, Prasanjit Das, M.M.K. Khan, Suvash C. Saha, M.G. Rasul Chapter 7 - Parametric Analysis of Thermal Comfort and Energy Efficiency in Building in Subtropical Climate, Pages 149-168, Ashfaque Ahmed Chowdhury, M.G. Rasul, M.M.K. Khan Chapter 8 - Residential Building Wall Systems: Energy Efficiency and Carbon Footprint, Pages 169-196, Fayez Aldawi, Firoz Alam Chapter 9 - Cement Kiln Process Modeling to Achieve Energy Efficiency by Utilizing Agricultural Biomass as Alternative Fuels, Pages 197-225, Azad Rahman, M.G. Rasul, M.M.K. Khan, S. Sharma Chapter 10 - Modeling and Simulation of Heat and Mass Flow by ASPEN HYSYS for Petroleum Refining Process in Field Application, Pages 227-257, A.K. Azad, M.G. Rasul, M.M.K. Khan, Sukanta Kumar Mondal, Rubayat Islam Chapter 11 - Modeling of Solid and Bio-Fuel Combustion Technologies, Pages 259-309, Arafat A. Bhuiyan, Md. Rezwanul Karim, Jamal Naser Chapter 12 - Ambient Temperature Rise Consequences for Power Generation in Australia, Pages 311-332, Iftekhar Khan, Firoz Alam Index, Pages 333-342
Thermofluid Modeling for Sustainable Energy Applications provides a collection of the most recent, cutting-edge developments in the application of fluid mechanics modeling to energy systems and energy efficient technology.
Each chapter introduces relevant theories alongside detailed, real-life case studies that demonstrate the value of thermofluid modeling and simulation as an integral part of the engineering process.
Research problems and modeling solutions across a range of energy efficiency scenarios are presented by experts, helping users build a sustainable engineering knowledge base.
The text offers novel examples of the use of computation fluid dynamics in relation to hot topics, including passive air cooling and thermal storage. It is a valuable resource for academics, engineers, and students undertaking research in thermal engineering.
- Includes contributions from experts in energy efficiency modeling across a range of engineering fields
- Places thermofluid modeling and simulation at the center of engineering design and development, with theory supported by detailed, real-life case studies
- Features hot topics in energy and sustainability engineering, including thermal storage and passive air cooling
- Provides a valuable resource for academics, engineers, and students undertaking research in thermal engineering
This book provides a collection of the most recent, cutting-edge developments in the application of fluid mechanics modeling to energy systems and energy efficient technology. Each chapter introduces relevant theories alongside detailed, real-life case studies that demonstrate the value of thermofluid modeling and simulation as an integral part of the engineering process. Research problems and modeling solutions across a range of energy efficiency scenarios are presented by experts, helping users build a sustainable engineering knowledge base. The text offers novel examples of the use of computation fluid dynamics in relation to hot topics, including passive air cooling and thermal storage. It is a valuable resource for academics, engineers, and students undertaking research in thermal engineering. -- Edited summary from book