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General information. Electricity. Electrical systems. Electrical conductor (Wiring). Electric service to building. Electrical wiring design.
Design a complete mechanical system for a residential, commercial, or industrial building with ease by learning how to integrate Autodesk® Building Systems functionality with your Autodesk Architectural Desktop software! New from Autodesk Press, Designing Mechanical Systems Using Autodesk Building Systems contains easy-to-understand examples and carefully engineered exercises to lead readers through the entire design process, taking full advantage of the productivity-enhancing features of this new Autodesk Architectural Desktop add-on. No prior experience is required! All-inclusive coverage spans the spectrum, from how Autodesk Building Systems objects differ from Architectural Desktop objects and AutoCAD entities through posting of completed drawings to the Internet for remote access by building contractors, electrical engineers, suppliers, and others! Ideal for novices, this how-to and reference manual also includes an entire chapter for power users and CAD managers that will propel them to successful completion of high-end drafting tasks, such as: working with multiple floors, creating custom fittings and catalogs, modifying a layer standard, and more!
Buildings can breathe naturally, without the use of mechanical systems, if you design the spaces properly. This accessible and thorough guide shows you how in more than 260 color diagrams and photographs illustrating case studies and CFD simulations. You can achieve truly natural ventilation, by considering the building's structure, envelope, energy use, and form, as well as giving the occupants thermal comfort and healthy indoor air. By using scientific and architectural visualization tools included here, you can develop ventilation strategies without an engineering background. Handy sections that summarize the science, explain rules of thumb, and detail the latest research in thermal and fluid dynamics will keep your designs sustainable, energy efficient, and up-to-date.
Mechanical and electrical systems in architecture, engineering, and construction is intended for everyone involved in the construction industry. The book contains materials for those interested in the design of building electrical, lighting, plumbing, HVAC, fire protection, and telecommunications systems to those who must understand building mechanical and electrical materials and equipment in order to successfully envision, design, draw, construct, or operate a building or project.
Air-Conditioning in Modern American Architecture, 1890–1970, documents how architects made environmental technologies into resources that helped shape their spatial and formal aesthetic. In doing so, it sheds important new light on the ways in which mechanical engineering has been assimilated into the culture of architecture as one facet of its broader modernist project. Tracing the development and architectural integration of air-conditioning from its origins in the late nineteenth century to the advent of the environmental movement in the early 1970s, Joseph M. Siry shows how the incorporation of mechanical systems into modernism’s discourse of functionality profoundly shaped the work of some of the movement’s leading architects, such as Dankmar Adler, Louis Sullivan, Frank Lloyd Wright, Ludwig Mies van der Rohe, Gordon Bunshaft, and Louis Kahn. For them, the modernist ideal of functionality was incompletely realized if it did not wholly assimilate heating, cooling, ventilating, and artificial lighting. Bridging the history of technology and the history of architecture, Siry discusses air-conditioning’s technical and social history and provides case studies of buildings by the master architects who brought this technology into the conceptual and formal project of modernism. A monumental work by a renowned expert in American modernist architecture, this book asks us to see canonical modernist buildings through a mechanical engineering–oriented lens. It will be especially valuable to scholars and students of architecture, modernism, the history of technology, and American history.
* Each title provides the architectural and design professional with a comprehensive reference of more than 1100 equations illustrated with both a large and small building example. * Trademarked "no math menus" and shortcut "recipes" allow any building element to be sized quickly and efficiently * Provide guidance on structural systems, materials, plumbing, electricity, illumination, and acoustics * CD-ROM allows quick and error-free calculations
Using a qualitative rather than a quantitative approach, presents detailed information based on concepts, rules, guidelines, intuition, and experience for architects in the areas of heating, cooling, and lighting at the schematic design stage. The data explored supports a three-tiered approach--load avoidance, using natural energy sources, and mechanical equipment. Among the topics covered are shading, thermal envelope, passive heating and cooling, electric lighting, and HVAC. Case studies illustrate how certain buildings use techniques at all three tiers for heating, cooling, and lighting. An appendix lists some of the more appropriate computer programs available to the architect for analysis at the schematic design stage.
Designed to bridge the ever-widening gap between textbooks and the realities that confront engineering, and construction professionals, this text provides an overview of the principles and applications of all basic mechanical and electrical systems with a focus on what, why, and basic design data examples. It explores emerging technology and environmental issues, and makes reference to essential engineering calculations and condensed data to illustrate principles.
This is the digital version of the printed book (Copyright © 2000). Derek Hatley and Imtiaz Pirbhai—authors of Strategies for Real-Time System Specification—join with influential consultant Peter Hruschka to present a much anticipated update to their widely implemented Hatley/Pirbhai methods. Process for System Architecture and Requirements Engineering introduces a new approach that is particularly useful for multidisciplinary system development: It applies equally well to all technologies and thereby provides a common language for developers in widely differing disciplines. The Hatley-Pirbhai-Hruschka approach (H/H/P) has another important feature: the coexistence of the requirements and architecture methods and of the corresponding models they produce. These two models are kept separate, but the approach fully records their ongoing and changing interrelationships. This feature is missing from virtually all other system and software development methods and from CASE tools that only automate the requirements model. System managers, system architects, system engineers, and managers and engineers in all of the diverse engineering technologies will benefit from this comprehensive, pragmatic text. In addition to its models of requirements and architecture and of the development process itself, the book uses in-depth case studies of a hospital monitoring system and of a multidisciplinary groundwater analysis system to illustrate the principles. Compatibility Between the H/H/P Methods and the UML: The Hatley/Pirbhai architecture and requirements methods—described in Strategies for Real-Time System Specification—have been widely used for almost two decades in system and software development. Now known as the Hatley/Hruschka/Pirbhai (H/H/P) methods, they have always been compatible with object-oriented software techniques, such as the UML, by defining architectural elements as classes, objects, messages, inheritance relationships, and so on. In Process for System Architecture and Requirements Engineering, that compatibility is made more specific through the addition of message diagrams, inheritance diagrams, and new notations that go with them. In addition, state charts, while never excluded, are now specifically included as a representation of sequential machines. These additions make definition of the system/software boundary even more straightforward, while retaining the clear separation of requirements and design at the system levels that is a hallmark of the H/H/P methods—not shared by most OO techniques. Once the transition to software is made, the developer is free to continue using the H/H/P methods, or to use the UML or any other software-specific technique.