Advances In Heat Transfer by JP Abraham
- Publisher: ENGINEERING
- Availability: In Stock
- SKU: 48847
- Number of Pages: 1008
Rs.590.00
Rs.750.00
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Advances in Heat Transfer presents a comprehensive overview of recent developments in the field of heat transfer. Authored by JP Abraham, JM Gorman, and Minkowycz, this seminal work delves into various aspects of heat transfer phenomena, including conduction, convection, and radiation. Through meticulous research and analysis, the authors elucidate fundamental principles and explore cutting-edge techniques, making this book an indispensable resource for researchers, engineers, and students alike.
Key Points:
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Multiscale Heat Transfer:
Multiscale heat transfer phenomena have gained significant attention, encompassing processes occurring at different length and time scales. The book discusses the challenges and opportunities in understanding and modeling multiscale heat transfer phenomena. -
Nanofluid Heat Transfer:
The utilization of nanofluids, suspensions containing nanoparticles in base fluids, has emerged as a promising approach to enhance heat transfer properties. The authors explore the mechanisms underlying nanofluid heat transfer enhancement and its applications in various engineering systems. -
Heat Transfer in Porous Media:
Heat transfer in porous media finds applications in numerous industrial processes and environmental systems. This section addresses the complexities associated with heat transfer in porous structures, including theoretical models and experimental techniques. -
Heat Transfer Enhancement Techniques:
Various techniques have been developed to enhance heat transfer rates in different applications. The book highlights advancements in heat transfer enhancement techniques such as surface roughness modification, microchannel heat exchangers, and vortex generators. -
Heat Transfer in Electronics Cooling:
Efficient thermal management is crucial for the reliable operation of electronic devices. The authors discuss state-of-the-art cooling techniques and thermal management strategies employed in electronic systems to mitigate heat dissipation challenges. -
Phase Change Heat Transfer:
Phase change phenomena play a vital role in numerous engineering applications, from refrigeration and air conditioning to thermal energy storage. This section explores recent advancements in phase change heat transfer research, including nucleation, boiling, and condensation. -
Radiative Heat Transfer:
Understanding radiative heat transfer mechanisms is essential for designing energy-efficient systems and optimizing thermal processes. The book delves into the theoretical foundations of radiative heat transfer and explores practical applications in solar energy utilization and thermal insulation. -
Heat Transfer in Biological Systems:
Heat transfer in biological systems, such as human tissues and organs, presents unique challenges and opportunities. The authors examine heat transfer mechanisms in biological tissues and discuss their implications in biomedical engineering and thermal therapy. -
Heat Transfer in Energy Systems:
Energy systems, including fossil fuel-based power plants and renewable energy technologies, rely on efficient heat transfer processes for optimal performance. This section explores heat transfer aspects in various energy systems, addressing challenges and opportunities for improvement. -
Computational Heat Transfer:
Computational methods play a pivotal role in understanding and predicting heat transfer phenomena. The book provides insights into computational heat transfer techniques, including finite element analysis, computational fluid dynamics, and machine learning approaches, for solving complex heat transfer problems efficiently.
Advances in Heat Transfer offers a comprehensive exploration of the latest advancements and challenges in heat transfer research, providing invaluable insights for researchers, engineers, and students striving to push the boundaries of thermal science and engineering.
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Writer ✤ JP Abraham, JM Gorman , Minkowycz