Mathematical Modelling of Heat Transfer Performance of Heat Exchanger using Nanofluids 1st Edition

Capture the cutting edge of thermal engineering with Mathematical Modelling of Heat Transfer Performance of Heat Exchanger using Nanofluids, 1st Edition by Prashant Maheshwary, Chandrahas C. Handa, Neetu Gyanchandani, and Pramod Belkhode. This authoritative volume blends rigorous theory with practical insight to illuminate how nanofluids transform heat exchanger performance across industry and research.

Discover clear, step-by-step mathematical models, supported by numerical simulation and comparative analysis, that explain enhanced convective heat transfer, altered thermal conductivity, and pressure-drop trade-offs. Carefully structured chapters guide readers from fundamental principles to advanced modeling techniques, making complex topics accessible for graduate students, R&D engineers, and plant designers.

Whether you work in HVAC, power generation, automotive cooling, chemical processing, or renewable-energy systems, this book equips you with tools to evaluate performance, optimize designs, and improve energy efficiency. Regional relevance is emphasized for emerging industrial markets in India and Asia while remaining globally applicable to engineering projects worldwide.

Written in a professional yet engaging voice, this edition balances mathematical rigor with real-world examples and case studies, helping readers translate models into measurable gains. Ideal for academics, consultants, and practicing engineers seeking to stay ahead in thermal-fluid innovation.

Order your copy today and bring advanced heat transfer modeling and practical nanofluid strategies into your next project — a valuable resource for innovation, design optimization, and sustainable thermal solutions.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.