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Conveniently organized and packed with robust technical content and clear explanations of key principles Written by an architect who is the director of sustainability at a global architecture firm, Net Zero Energy Design is a practical guide for architects and related construction professionals who want to design and build net zero energy commercial architecture. It offers no-nonsense strategies, step-by-step technical analysis, and valuable examples, in addition to developed case studies. With a focus on application in a variety of building types and scales, the book also develops a broad-based understanding of all the integrated principles involved in achieving net zero energy. This book is an indispensable resource for anyone venturing into net zero energy design, construction, and operation, and it also serves as an excellent resource on a variety of sustainable design topics. Important features include: Organization based upon the commercial building delivery process Robust technical content for use in actual project applications Analysis examples that demonstrate key technical principles Plenty of design data for use as a valuable design resource Abundant and sophisticated information graphics and color illustrations and photographs A distinct design focus on the content that inspires adoption of principles into projects
In the Design Professional's Guide to Zero Net Energy Buildings, Charles Eley draws from over 40 years of his own experience, and interviews with other industry experts, to lay out the principles for achieving zero net energy (ZNE) buildings, which produce as much energy as they use over the course of a year. Eley emphasizes the importance of building energy use in achieving a sustainable future; describes how building energy use can be minimized through smart design and energy efficiency technologies; and presents practical information on how to incorporate renewable energy technologies to meet the lowered energy needs. The book shows the reader through examples and explanations that these solutions are viable and cost effective.
Makes energy-saving design strategies accessible to professionals by explaining them in non-technical language.
Energy Modeling in Architectural Design demonstrates how design elements can lead to energy savings, to help you reduce the energy footprint of your buildings. In addition to identifying climate opportunities, you’ll also learn fundamental passive design elements for software-agnostic energy modeling of your projects from conception. Using parametric models and testing each element during design will lead you to create beautiful and high-performance buildings. Illustrated with more than 100 color images, this book also includes a pattern guide for high-performance buildings, discusses energy and daylighting optimization, and has a glossary for easy reference.
The need to design energy efficient buildings arises from a variety of external pressures: legislation, emissions of greenhouse and ozone depleting gases, public awareness of our pollution of this planet, among others. Experts in their respective fields contribute articles ranging in scope from issues of basic competence to advanced design, enabling designers to obtain insight into the entire gamut of the subject and, at the same time, provide sufficient back up references for individuals to follow up areas of special interest.
"This guide explains why building owners and managers should be concerned about energy efficiency. The second in a series, the goal of this resource is to help the audience evaluate current building operations and also provides technical guidance on how to achieve energy efficiency in these buildings"--Provided by publisher.
Despite recent improvements in energy efficiency being made in new build, it is important that the existing commercial building sector also take action to meet emission reduction targets. The objectives and challenges of such action will reduce the risk of the sector becoming obsolete due to high energy use and poor environmental performance. This book presents a theory-based, practice-support methodology to deal with sustainable retrofitting opportunities for existing commercial buildings in warm climates using bioclimatic design as the basis. The book has four main parts, focusing on eco-design and renovation, bioclimatic retrofitting, technological and behavioural change and case studies of retrofitting exemplars. In the first part, the context of climate change effects on design and renovation at the city scale is discussed. The second part looks at bioclimatic retrofitting as a 'design guide' for existing buildings, highlighting the significance of architectural design and engineering systems for energy performance. The technological and behavioural contexts of the existing building sector – policies, modelling, monitoring and trend analysis in respect to energy and environmental performance – are covered in part three. The final part gives some case studies showing the effectiveness of strategies suggested for effective environmental performance. This book is a must-have guide for all involved in the design and engineering of retrofitting projects in warm climates.
The environmental systems used in a commercial building are a major determinant of architectural form. Buildings using conventional environmental systems have distinct form characteristics. Likewise, buildings utilizing natural lighting, heating, cooling, and ventilation techniques have another set of architectural form characteristics. This paper explores the architectural differences between these two approaches by using historical and current building examples. This information is then used to suggest a classification system for the range of possible solutions available to the designer today.
"This guide explains why building owners and managers should be concerned about energy efficiency. The first in a series, the goal of this resource is to help this audience evaluate current building operations and conduct the economic analysis necessary to make decisions to improve energy efficiency"--Provided by publisher.