HYBRID NANOFLUIDS AND ITS MODEL APPLICATIONS

Authors

Sharidan Shafie (ed)
Lim Yeou Jiann (ed)

Synopsis

Conventional heat transfer fluids like water, oil, and ethylene glycol, commonly used in manufacturing and engineering, often lose energy during the heat transfer process, compromising the overall performance of processes. Nanoparticles enhance heat transfer in conventional fluids, forming heat transfer nanofluids. A hybrid nanofluid is a fluid containing more than one type of nanoparticle, believed to have better thermal performance than regular nanofluids due to synergistic effects. This book discusses recent developments and mathematical studies on nanofluids and hybrid nanofluids across various configurations, emphasising the necessity of theoretical investigations to guide experimental design due to the high cost of experimentation. The book begins by elucidating the fundamental principles of heat transfer and the role of nanoparticles in augmenting thermal performance. It discusses how nanoparticles, when dispersed in conventional fluids, create heat transfer nanofluids that exhibit enhanced heat transfer properties. Building upon this foundation, the concept of hybrid nanofluids is introduced, wherein multiple types of nanoparticles are combined to leverage synergistic effects for even greater thermal efficiency. By focusing on practical applications, it underscores the relevance of hybrid nanofluids in real-world scenarios, offering valuable insights for researchers, engineers, and professionals in manufacturing, engineering, and thermal sciences. What sets this book apart is its comprehensive coverage, practical approach, and emphasis on the synergistic effects of hybrid nanofluids. By bridging the gap between theory and application, it serves as an invaluable resource for individuals seeking to stay at the forefront of advancements in heat transfer fluids and harness the potential of hybrid nanofluids to optimise thermal performance in industrial processes.

Chapters

  • CHAPTER 1
    THE EVOLUTION AND EMERGING TRENDS IN HYBRID NANOFLUID RESEARCH
    Sharidan Shafie, Lim Yeou Jiann
    CHAPTER 1
  • CHAPTER 2
    MAGNETOHYDRODYNAMICS CU˗TIO2 HYBRID NANOFLUID WITH VISCOUS DISSIPATION
    Rahimah Jusoh, Zulkhibri Ismail, Muhammad Khairul Anuar Mohamed, Nooraini Zainuddin
    CHAPTER 2
  • CHAPTER 3
    UNSTEADY SEPARATED HYBRID STAGNATION NANOFLUID FLOW
    Nurul Amira Zainal, Roslinda Nazar, Ioan Pop, Kohilavani Naganthran
    CHAPTER 3
  • CHAPTER 4
    Hanifa Hanif, Rahimah Mahat, Arfan Hyder, Sharidan Shafie
    CHAPTER 4
  • CHAPTER 5
    ATANGANA-BALEANU CASSON HYBRID NANOFLUID ON RIGA PLATE
    Ridhwan Reyaz, Ahmad Qushairi Mohamad, Noraihan Afiqah Rawi, Wan Rukaida Wan Abdullah
    CHAPTER 5
  • CHAPTER 6
    THIN-FILM HYBRID NANOFLUID
    Nur Ilyana Kamis, Lim Yeou Jiann, Rahimah Mahat, Noraihan Afiqah Rawi
    CHAPTER 6

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Published

18 November 2024

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Copyright (c) 2024 Sharidan Shafie, Lim Yeou Jiann