Numerical Methods for Diffusion Phenomena in Building Physics
A Practical Introduction
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Beschreibung
This book is the second edition of Numerical methods for diffusion phenomena in building physics: a practical introduction originally published by PUCPRESS (2016). It intends to stimulate research in simulation of diffusion problems in building physics, by providing an overview of mathematical models and numerical techniques such as the finite difference and finite-element methods traditionally used in building simulation tools. Nonconventional methods such as reduced order models, boundary integral approaches and spectral methods are presented, which might be considered in the next generation of building-energy-simulation tools. In this reviewed edition, an innovative way to simulate energy and hydrothermal performance are presented, bringing some light on innovative approaches in the field.
This book is the second edition of Numerical methods for diffusion phenomena in building physics: a practical introduction originally published by PUCPRESS (2016). It intends to stimulate research in simulation of diffusion problems in building physics, by providing an overview of mathematical models and numerical techniques such as the finite difference and finite-element methods traditionally used in building simulation tools. Nonconventional methods such as reduced order models, boundary integral approaches and spectral methods are presented, which might be considered in the next generation of building-energy-simulation tools. In this reviewed edition, an innovative way to simulate energy and hydrothermal performance are presented, bringing some light on innovative approaches in the field.
Fulfils concisely traditional numerical methods that can be applied in the field of diffusion transport phenomena Presents advanced methods that are not yet applied in the field Gives an overview of research conducted in the field in the last 30 years
Autor*in
Nathan Mendes
Themen in »Numerical Methods for Diffusion Phenomena in Building Physics«
Building physics numerical methods building simulation simulation tools moisture prediction conduction loads mold growth finite differences advanced numerical methods non-traditional numerical methods