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Machines increasingly pervade the mining industry, reducing manual labor and raising production. While the use of new technologies such as remote control, vision enhancement technologies, continuous haulage, and automated equipment has grown, so has the potential for new health and safety risks. Written by leading experts from Australia and North America, Human Factors for the Design, Operation, and Maintenance of Mining Equipment covers the impact of new mining technology on human work performance and safety. Ergonomics experts Tim John Horberry, Robin Burgess-Limerick, and Lisa J. Steiner draw on their personal experience to provide up-to-date research, case studies, and examples, making the book useful, accurate, informative, and easy to read. They set the scene with a general, yet fundamental review of human factors information related to equipment. They then examine the physical environment and the importance of key concerns such as vibration, noise, heat, and dust in maintaining and operating mining equipment. The authors expand their scope by examining wider organizational and task factors related to mining equipment, including the long-standing issues of operator fatigue and stress as well as newer concerns such as distraction and information overload. A synthesis of available human factors knowledge and research, the book describes human factors principles applied to mining equipment from a multidisciplinary perspective and combines it into one volume. The authors combine their in-the-trenches experience and academic expertise to present a treatment that balances breadth with depth. The book supplies a much-needed overview of the human element in the journey to optimal equipment design of mining equipment.
The consideration of human factors issues is vital to the mining industry. As in other safety-critical domains, human performance problems constitute a significant threat to system safety, making the study of human factors an important field for improving safety in mining operations. The primary purpose of this book is to provide the reader with a much-needed overview of human factors within the mining industry, in particular to understand the role of human error in mine safety, explaining contemporary risk management and safety systems approaches. The approach taken is multidisciplinary and holistic, based on a model of the systems of work in the mining industry domain. The ingredients in this model include individual operators, groups/teams, technology/equipment, work organisation and the physical environment. Throughout the book, topics such as human error and safety management are covered through the use of real examples and case studies, allowing the reader to see the practical significance of the material presented while making the text rigorous, useful and enjoyable. Understanding Human Error in Mine Safety is written for professionals in the field, researchers and students of mining engineering, safety or human factors.
Focuses on how work poses risk of injury to the musculoskeletal system of the worker and emphasizes designs that reduce human error and injury. Gives advice, information resources, referrals and links to publications and bibliographic databases.
From its origins in the malachite mines of ancient Egypt, mining has grown to become a global industry which employs many hundreds of thousands of people. Today, the mining industry makes use of various types of complex and sophisticated equipment, for which reliability, maintainability and safety has become an important issue. Mining Equipment Reliability, Maintainability and Safety is the first book to cover these three topics in a single volume. Mining Equipment Reliability, Maintainability and Safety will be useful to a range of individuals from administrators and engineering professionals working in the mining industry to students, researchers and instructors in mining engineering, as well as design engineers and safety professionals. All topics covered in the book are treated in such a manner that the reader requires no previous knowledge to understand the contents. Examples, solutions and test problems are also included to aid reader comprehension.
Mine Safety combines detailed information on safety in mining with methods and mathematics that can be used to preserve human life. By compiling various recent research results and data into one volume, Mine Safety eliminates the need to consult many diverse sources in order to obtain vital information. Chapters cover a broad range of topics, including: human factors and error in mine safety, mining equipment safety, safety in offshore industry and programmable electronic mining system safety. They are written in such a manner that the reader requires no previous knowledge to understand their contents. Examples and solutions are given at appropriate places, and there are numerous problems to test the reader’s comprehension. Mine Safety will prove useful for many individuals, including engineering and safety professionals working in the mining industry, researchers, instructors, and undergraduate and graduate students in the field of mining engineering.
Machines increasingly pervade the mining industry, reducing manual labor and raising production. While the use of new technologies such as remote control, vision enhancement technologies, continuous haulage, and automated equipment has grown, so has the potential for new health and safety risks. Written by leading experts from Australia and North A
Human Factors in the Chemical and Process Industries: Making it Work in Practice is a comprehensive overview of human factors within this sector, focusing on the practical application. It has been written by acknowledged industry experts from the Keil Centre, which is a leading practice of chartered ergonomics and human factors specialists, chartered safety specialists, registered occupational psychologists, and registered clinical psychologists The book was inspired by the international human factors training course run by the Keil Centre with the IChemE(http://www.icheme.org/human-factors), which has reached four continents across the world. The book is written for those who want a comprehensive overview of the subject, focusing on the practical application of human factors. It has been written for safety professionals, engineers and operational disciplines within industry, and those aspiring to these disciplines, who either deal with human factors issues or any aspect of the 'human element' in their core role. The book explains what 'human factors' is about and how human factors issues are best managed from a practical perspective. It will help readers develop a greater understanding of the area and how to establish more effective solutions for human factors related issues. - Provides comprehensive coverage of the most relevant human factors within this sector, with succinct overviews of each topic - Uses case studies and practical examples to illustrate topics and explains the material in a fully accessible, easy to understand style - Written by a single team of eleven industry practitioners, drawing on the combined expertise of different human factors specialisms which are rarely comprehensively combined in a single resource
Applied Human Factors in Medical Device Design describes the contents of a human factors toolbox with in-depth descriptions of both empirical and analytical methodologies. The book begins with an overview of the design control process, integrating human factors as directed by AAMI TIR 59 and experienced practice. It then explains each method, describing why each method is important, its potential impact, when it's ideal to use, and related challenges. Also discussed are other barriers, such as communication breakdowns between users and design teams. This book is an excellent reference for professionals working in human factors, design, engineering, marketing and regulation. - Focuses on meeting agency requirements as it pertains to the application of human factors in the medical device development process in both the US and the European Union (EU) - Explains technology development and the application of human factors throughout the development process - Covers FDA and MHRA regulations - Includes case examples with each method