Bøger af Huiming (Associate Professor Yin

The Inclusion-Based Boundary Element Method (iBEM) is an innovative numerical method for the study of the multi-physical and mechanical behaviour of composite materials, linear elasticity, potential flow or Stokes fluid dynamics. It combines the basic ideas of Eshelby's Equivalent Inclusion Method (EIM) in classic micromechanics and the Boundary Element Method (BEM) in computational mechanics. The book starts by explaining the application and extension of the EIM from elastic problems to the Stokes fluid, and potential flow problems for a multiphase material system in the infinite domain. It also shows how switching the Green's function for infinite domain solutions to semi-infinite domain solutions allows this method to solve semi-infinite domain problems. A thorough examination of particle-particle interaction and particle-boundary interaction exposes the limitation of the classic micromechanics based on Eshelby's solution for one particle embedded in the infinite domain, and demonstrates the necessity to consider the particle interactions and boundary effects for a composite containing a fairly high volume fraction of the dispersed materials. Starting by covering the fundamentals required to understand the method and going on to describe everything needed to apply it to a variety of practical contexts, this book is the ideal guide to this innovative numerical method for students, researchers, and engineers.

Building Integrated Photovoltaic Thermal Systems: Fundamentals, Designs and Applications presents various applications, system designs, manufacturing and installation techniques surrounding how to build integrated photovoltaics. The book provides a comprehensive understanding of all system components, long-term performance and testing, and the commercialization of BIPV systems. By addressing potential obstacles with current BIPV systems, such as photovoltaic efficiency bottlenecks and product heat harvesting, the authors not only cover fundamentals and design philosophy of current technology, but also introduce a hybrid system that looks at building integrated thermal electric roofing. Topics covered in this book are useful for scientists and engineers in the fields of photovoltaics, electrical and civil engineering, materials science, sustainable energy harvesting, solar energy, and renewable energy production. Contains system integration methods supported by industry developments Includes real-life examples and functional projects as case studies for comparison Covers system design challenges, offering unique solutions