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This book provides a comprehensive look at the science, methods, designs, and limitations of nonimaging optics. It begins with an in-depth discussion on thermodynamically efficient optical designs and how they improve the performance and cost effectiveness of solar concentrating and illumination systems. It then moves into limits to concentration, imaging devices and their limitations, and the theory of furnaces and its applications to optical design. Numerous design methods are discussed in detail followed by chapters of estimating the performance of a nonimaging design and pushing their limits of concentration. Exercises and worked examples are included throughout.
As our dependence on and need for abundant energy grows, it becomes increasingly important for engineers and managers to develop and maintain energy efficient systems and build effective energy management programs. Energy Management in Illuminating Systems presents the latest concepts, innovative methods, and state-of-the art technologies in commercial or industrial lighting systems and energy management. An effective energy management program comprises three essential elements: organization, technology, and economics. However, the success of any management program clearly must begin with an energy effective illuminating system, which in turn depends upon using sound engineering analysis and design principles during the projects early stages. In this book, the author-with long and unique experience in the field-provides the details of proven methods for achieving these goals. He presents: How to organize and operate the illumination energy management program The elements of designing energy effective illuminating systems-systems that can also increase worker productivity and reduce operating costs The latest in efficient system components, including light sources, ballasts, and luminaires How to evaluate energy efficiency, including discussion of the impact of energy efficient equipment on power quality, harmonics, the ""K"" factor, and lighting energy standards Energy Management in Illuminating Systems shows how to design and manage energy effective lighting systems for industrial or commercial facilities. With this book, designers, engineers, and managers finally have a complete, how-to guide for applying practical energy management principles to various systems of illumination.
This book brings together experts in the field who present material on a number of important and growing topics including lighting, displays, solar concentrators. The first chapter provides an overview of the field of nonimagin and illumination optics. Included in this chapter are terminology, units, definitions, and descriptions of the optical components used in illumination systems. The next two chapters provide material within the theoretical domain, including etendue, etendue squeezing, and the skew invariant. The remaining chapters focus on growing applications. This entire field of nonimaging optics is an evolving field, and the editor plans to update the technological progress every two to three years. The editor, John Koshel, is one of the most prominent leading experts in this field, and he is the right expert to perform the task.
The world's insatiable consumption of energy must be met with new technologies that offer alternative, environmentally conscious sources of light and power. The relatively young field of nonimaging optics is an ideal tool for designing optimized solar energy collectors and illumination optics and holds great promise in the development of solid stat
Now you can achieve optimum performance and efficiency in the design of electric systems for virtually any size or type of building or industrial facility utilizing the state-of-the-art methodologies detailed in this comprehensive handbook. Step-by-step guidelines take you through each phase of design, covering equipment selection, power distribution system analysis, conduit and conductor sizing, lighting system design, control systems, electronic instrumentation, protective relaying, energy management systems, power quality, variable speed drives, motor selection, and more. The latest codes (NEC 2008) as well as currently available equipment are referenced. Numerous examples and simulation exercises are included, along with detailed design examples. Fully illustrated with many useful diagrams and tables, this book is a practical guide for electrical engineers, plant and facility engineers, and other professionals responsible for implementing or overseeing the design of facility electrical systems.
Designing an efficient imaging system for biomedical optics requires a solid understanding of the special requirements of the optical systems for biomedical imaging and the optical components used in the systems. However, a lack of reference books on optical design (imaging and illumination) for biomedical imaging has led to some inefficient systems. This book fills the gap between biomedical optics and optical design by addressing the fundamentals of biomedical optics and optical engineering, and biomedical imaging systems. The first half provides a brief introduction to biomedical optics and then covers the fundamentals of optics, optical components, light sources, detectors, optical imaging system design, and illumination system design. This also includes important issues related to biomedical imaging, such as autofluorescence from optical materials. The second half of the text covers various biomedical imaging techniques and their optical systems, along with design examples.
With the increased concern for energy conservation in recent years, much attention has been focused on lighting energy consumption and methods for reducing it. Along with this concern for energy efficient lighting has come the realization that lighting has profound effects on worker productivity as well as important aesthetic qualities. This book presents an introduction to lighting design and energy efficiency which can be utilized while maintaining the quality of illumination. Topics include lighting energy management, selection of lamps, task lighting, lighting design, lighting control, reflectors, ballast selection, natural daylighting, wireless lighting control, and case studies.
The chemical & water sectors are 2 of the sectors that if attacked by terrorists could have a debilitating impact on the nation. There are 4,000 chemical mfg. facil. that produce, use, or store more than threshold amounts of chem. that pose the greatest risk to human health & the environ. There are 53,000 community water systems & more than 2,900 maritime facilities that are required to comply with security reg. This report provides info. about what fed. require. exist for the chem. & water sectors to secure their facil., what fed. efforts were taken by the agencies for these sectors to facilitate sectors' actions, what actions selected facil. within these sectors have taken & whether they reflect a risk mgmt. approach, & what obstacles they faced in implem. enhanc.
Efficient Use and Conservation of Energy is a component of Encyclopedia of Energy Sciences, Engineering and Technology Resources in the global Encyclopedia of Life Support Systems (EOLSS), which is an integrated compendium of twenty Encyclopedias. The volume on Efficient Use and Conservation Of Energy discusses matters of great relevance to our world such as: Efficient Use and Conservation of Energy in the Industrial Sector; Efficient Use and Conservation of Energy in Buildings; Efficient Use and Conservation of Energy in the Transportation Sector; Efficient Use and Conservation of Energy in the Agricultural Sector; Using Demand-Side Management to Select Energy Efficient Technologies and Programs . These two volumes are aimed at the following five major target audiences: University and College students Educators, Professional practitioners, Research personnel and Policy analysts, managers, and decision makers and NGOs.