Modeling and Optimization of Heat Transfer in Mechanical Installations
In Mechanical Installation Systems under Electromagnetic Fields and Complex Vibrations
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This book presents an advanced exploration of modeling and optimization techniques for heat transfer in mechanical installation systems, focusing on the complex interactions between thermal processes, electromagnetic fields, and mechanical vibrations. It provides a comprehensive framework that bridges theoretical foundations with practical engineering solutions, emphasizing how multimode heat transfer mechanisms can be predicted, controlled, and enhanced under coupled physical influences. Key chapters address the mathematical modeling of conductive, convective, and radiative heat transfer, as ...
This book presents an advanced exploration of modeling and optimization techniques for heat transfer in mechanical installation systems, focusing on the complex interactions between thermal processes, electromagnetic fields, and mechanical vibrations. It provides a comprehensive framework that bridges theoretical foundations with practical engineering solutions, emphasizing how multimode heat transfer mechanisms can be predicted, controlled, and enhanced under coupled physical influences. Key chapters address the mathematical modeling of conductive, convective, and radiative heat transfer, as well as optimization strategies for improving energy efficiency and structural reliability in modern infrastructures. The book also examines the role of electromagnetic fields in altering thermal pathways and the effect of vibrations on heat distribution and system performance. Designed for researchers, graduate students, and engineers, it combines rigorous analysis with real-world case studies, offering practical insights into sustainable thermal management in complex mechanical systems.
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