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Electrical Safety Engineering, Third Edition covers the scientific principles, legislation, guidelines, and standards of electrical safety. This book is organized into six parts encompassing 20 chapters. Part 1 considers the nature of electrical injuries, the mechanical causes of electrical failures, and electrical insulation failure. Parts 2 and 3 describe the mechanism of breakdown and failure of electrical equipment, as well as the concept of circuit protection, with emphasis on the earthing principles and double insulation. Parts 4 and 5 explore the principles and application of electronic and solid-state control systems, fires, and explosion hazards. Part 6 focuses on the industrial supply and distribution of current and voltage. This book will prove useful to electrical engineers, electricians, and technicians.
Electrical Safety and the Law describes the hazards and risks from the use of electricity, explaining with the help of case studies and accident statistics the types of accidents that occur and how they can be prevented by the use of safe installations, equipment and working practices. It describes the British legislation on the safety of electrical systems and electrotechnical machinery control systems, much of which stems from European Directives and which will therefore be affected by the UK’s decision to leave the EU (Brexit), and the main standards and guidance that can be used to secure compliance with the law. There are detailed descriptions covering the risks and preventive measures associated with electrical installations, construction sites, work near underground cables and overhead power lines, electrical equipment and installations in explosive atmospheres, electrical testing and electrotechnical control systems. Duty holders’ responsibilities for designing, installing, and maintaining safe systems are explained, as well as their responsibilities for employing competent staff. The fifth edition has been substantially updated to take account of considerable changes to the law, standards and guidance; it has been expanded to include: a new chapter on the Corporate Manslaughter and Corporate Homicide Act; a new chapter describing landlords’ legal responsibilities for electrical safety in private rented properties and social housing; a new chapter on the Electricity Safety Quality and Continuity Regulations; new information on offences, penalties, sentencing guidelines, and relevant case law; a description of the main requirements of BS 7671:2008 and other principal standards, many of which have been amended in recent years; new cases studies to illustrate the hazards and risks; information on changes to GB’s health and safety system.
This comprehensive resource is designed to guide professionals in product compliance and safety in order to develop more profitable products, contribute to customer satisfaction, and reduce the risk of liability. This book analyzes the principles and methods of critical standards, highlighting how they should be applied in the field. It explores the philosophy of electrical product safety and analyzes the concepts of compliance and safety, perception of risk, failure, normal and abnormal conditions, and redundancy. Professionals find valuable information on power sources, product construction requirements, markings, compliance testing, and manufacturing of safe electrical products.
Principles of Electrical Safety discusses current issues in electrical safety, which are accompanied by series’ of practical applications that can be used by practicing professionals, graduate students, and researchers. . • Provides extensive introductions to important topics in electrical safety • Comprehensive overview of inductance, resistance, and capacitance as applied to the human body • Serves as a preparatory guide for today’s practicing engineers
Electrical Safety Engineering of Renewable Energy Systems A reference to designing and developing electrical systems connected to renewable energies Electrical Safety Engineering of Renewable Energy Systems is an authoritative text that offers an in-depth exploration to the safety challenges of renewable systems. The authors—noted experts on the topic—cover a wide-range of renewable systems including photovoltaic, wind, and cogeneration and propose a safety-by-design approach. The book clearly illustrates safe behavior in complex real-world renewable energy systems using practical approaches. The book contains a review of the foundational electrical engineering topics and highlights how safety engineering links to the renewable energies. Designed as an accessible resource, the text discusses the most relevant and current topics supported by rigorous analytical, theoretical and numerical analyses. The authors also provide guidelines for readers interested in practical applications. This important book: Reviews of the major electrical engineering topics Shows how safety engineering links to the renewable energies Discusses the most relevant current topics in the field Provides solid theoretical and numerical explanations Written for students and professional electrical engineers, Electrical Safety Engineering of Renewable Energy Systems explores the safety challenges of renewable systems and proposes a safety-by-design approach, which is currently missing in current literature.
UP-TO-DATE, ON-THE-JOB ELECTRICAL SAFETY ESSENTIALS Covering every major electrical standard, including NEC, NESC, NFPA, 70E, IEEE 1584, and OSHA, Electrical Safety Handbook, Fourth Edition is a practical, illustrated source of life-saving information designed for specific work environments. This must-have guide provides the most current safety strategies for use in industrial, commercial, and home-office electrical systems in an easy-to-use format. Written by experts in electrical operations, maintenance, engineering, construction, and safety, this fully revised edition delivers complete details on: Hazards of electricity Basic physics of electrical hazards Electrical safety equipment Safety procedures and methods Grounding and bonding of electrical systems and equipment Electrical maintenance and its relationship to safety Regulatory and legal safety requirements and standards Accident prevention, accident investigation, rescue, and first aid Low-voltage safety Medium- and high-voltage safety Human factors in electrical safety Safety management and organizational structure Safety training methods and systems
Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product. Find all the information you need to minimize accident rates and ensurelow-voltage system safety Electrical Safety of Low-Voltage Systems offers you a comprehensive safety regimen, based on thefundamental characteristics of low-voltage electrical systems.Fully explaining the grounding and bonding of low-voltage systemsas they relate to article 250 of the National ElectricalCode®, this essential safety tool provides an analytical approachto accident control to replace the haphazard rules of thumb currentlyin use.
Electric power engineering education traditionally covers safety of the power equipment and systems. Little attention, if any, is given to the safety of people. When they reach professional status, most power engineers are not familiar with electric safety issues such as practices governing site works or grounding techniques of dwellings, hospitals, and factories. Designed for both electrical engineering student and practicing power engineers, Electric Safety: Practice and Standards provides the knowledge and analysis they need to be well versed in electric safety. Features: Includes techniques to assess safety practices at worksites and provides remedies to correct safety problems Addresses the elusive stray voltage problem and provides techniques to mitigate its impact in dwellings as well as in sensitive installations such as hospitals and dairy farms Provides approximate, yet accurate, analyses and techniques that can be used to assess electric safety without the need for extensive computation or elaborate programs Includes several case studies from real events and examples demonstrating how variations in electric safety procedure implementation influence safety levels Based on the authors’ years of experience as an expert witness and electric safety training instructor, the book covers the analysis of electric safety practices as well as the interpretations of various safety codes. Including homework problems and a solutions manual, this book is a comprehensive guide to recognize and eliminate hazards of electric shocks for professionals working on electric power equipment, as well as people such as the general public in commonly used places, farms workers and animals, and hospital patients.
Safety Professionals know that the best solution to preventing accidents in the workplace boils down to engineering out the hazards. If there isn't any hazard or exposure, there can't be any accident. If you accept the premise that the ultimate method for protecting workers on the job requires the removal or engineering-out of hazards in the workplace, this text is for you. The Handbook of Safety Engineering: Principles and Applications provides instruction in basic engineering principles, the sciences, cyber operations, math operations, mechanics, fire science (water hydraulics, etc.), electrical safety, and the technical and administrative aspects of the safety profession in an accessible and straightforward way. It serves students of safety and practitioners in the field_especially those studying for professional certification examinations_by placing more emphasis on engineering aspects and less on regulatory and administrative requirements. This practical handbook will serve as an important reference guide for students, professors, industrial hygienists, senior level undergraduate and graduate students in safety and industrial engineering, science and engineering professionals, safety researchers, engineering designers, human factor specialists, and all other safety practitioners.