Language : English
Published : 2017-11-16
Pages : 584
Renewable Energy: Power for a Sustainable Future 4th Edition
The provision of sustainable energy supplies for an expanding and increasingly productive world is one of the major issues facing civilisation today. Renewable Energy examines both the practical and economic potential of the renewable energy sources to meet this challenge. The underlyingphysical and technological principles behind deriving power from direct solar (solar thermal and photovoltaics), indirect solar (biomass, hydro, wind and wave) and non-solar (tidal and geothermal) energy sources are explained, within the context of their environmental impacts, their economics andtheir future prospects.Renewable Energy provides both perspective and detail on the relative merits and state of progress of technologies for utilizing the various ‘renewables’. The analysis considers emissions, sustainability, cost implications and energy security, as political and economic pressures move societytowards a low-carbon future. From an overview of basic energy conversion processes, through a discussion of the individual renewable sources, to a concluding examination of the prospects for their integration into national and international networks and the outlook for renewable energy, this bookprovides a valuable insight into prospects for the renewables.Online Resource Centre:Renewable Energy is accompanied by an Online Resource Centre which features: For students:* Auto- marked multiple choice questions to accompany each chapter* Curated links to further information and up-to-date energy statistics. For registered adopters of the book:* Figures from the book: available to download for use in lectures
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Infrared spectroscopy is generally understood to mean the science of spectra relating to infrared radiation, namely electromagnetic waves, in the wavelength region occurring intermediately between visible light and microwaves. Measurements of infrared spectra have been providing useful information, for a variety of scientific research and industrial studies, for over half a century; this is set to continue in the foreseeable future.
Introduction to Experimental Infrared Spectroscopy is intended to be a handy guide for those who have no, or limited, experience in infrared spectroscopic measurements but are utilising infrared-related methods for their research or in practical applications.
Written by leading researchers and experienced practitioners, this work consists of 22 chapters and presents the basic theory, methodology and practical measurement methods, including ATR, photoacoustic, IR imaging, NIR, 2D-COS, and VCD. The six Appendices will aid readers in understanding the concepts presented in the main text.
Written in an easy-to-understand way this book is suitable for students, researchers and technicians working with infrared spectroscopy and related methods.
This book helps students broaden their necessary skills to actively participate in any science course. An accessible, lively and comprehensive resource, it can be used in the classroom and as a reference.
This most widely used textbook in the field has been thoroughly revised and updated to reflect changes in the health care industry and the renewed focus on health care information technology initiatives. Two new chapters cover Federal efforts to enhance quality of patient care through the use of health care information technology and strategy considerations. Additionally, reflecting the increased focus on global health, the book features an international perspective on health care information technology. Case studies of organizations experiencing management-related information system challenges have been updated and several new cases have been added. These reality-based cases are designed to stimulate discussion among students and enable them to apply concepts in the book to real-life scenarios. The book’s companion Web site features lecture slides, a test bank, and other materials to enhance students’ understanding.
Forensic scientists apply scientific analysis in a legal context and play a vital role in solving crimes. Sometimes the collection of forensic evidence is the only way to establish or exclude an association between suspect and victim or crime scene, or to establish a likely order of events. Profiting from recent scientific developments and the advancement of technological equipment, forensic science is a rapidly evolving discipline that encompasses many sciences and the law. This dictionary covers in over 1300 entries the key concepts within forensic science, including a wide array of relevant specialist terms from areas such as chemistry, biology, anthropology, art, engineering, firearms, toolmarks, trace evidence, crime scene investigation, case history, biographies of investigators and criminals, as well as forensic computing. Ranging from crime scene to fibers and fluorescence to RAM, this new dictionary is the most up-to-date of its kind and is international in scope. Entry-level web links to online resources are listed and regularly updated on a companion website, expanding the scope of the dictionary and pointing to more in-depth supplementary material. Many entries are complemented by case examples (Dr Crippen, Mary Ann Cotton, etc.), figures, and photographs, which makes this A to Z an ideal reference for students of forensic science, as well as professionals and those with an interest in forensics.