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The importance of safety in any scientific endeavor is never in question. However, when cryogenic temperatures are involved, safety is especially important. In addition to observing the normal precautions, one must also take into account the variations of physical properties that occur at low temperatures. At these tempera tures, some properties not only exhibit large differences from their normal values but also can vary widely over a small temperature range. Before any cryogenic project is started, a thorough knowledge of the possible hazards is necessary. Only in this way can the safest operation be attained. Over the hundred-year history of cryogenic research, this has been shown to be the case. Keeping this requirement in mind is an essential ingredient in the quest for accident-free work. The past four or five decades have seen a great expansion of cryogenic technology. Cryogenic liquids, such as oxygen, nitrogen, hydrogen, and helium, have become commonly used in a number of different applications and are easily available in any part of the United States and, indeed, almost anywhere in the world. Not only are these liquids available, they have become less expensive and also available in ever larger quantities. As quantities increase, so also do the conse quences of mishaps. The future seems to hold promise of ever larger and more widespread use of the common cryogens. Thus, the importance of safety also increases as time progresses.
This book describes the current state of the art in cryogenic safety best practice, helping the reader to work with cryogenic systems and materials safely. It brings together information from previous texts, industrial and laboratory safety polices, and recent research papers. Case studies, example problems, and an extensive list of references are included to add to the utility of the text. It describes the unique safety hazards posed by cryogenics in all its guises, including issues associated with the extreme cold of cryogenics, the flammability of some cryogenic fluids, the displacement of oxygen by inert gases boiling off from cryogenic fluids, and the high pressures that can be formed during the volume expansion that occurs when a cryogenic fluid becomes a room temperature gas. A further chapter considers the challenges arising from the behavior of materials at cryogenic temperatures. Many materials are inappropriate for use in cryogenics and can fail, resulting in hazardous conditions. Despite these hazards, work at cryogenic temperatures can be performed safely. The book also discusses broader safety issues such as hazard analysis, establishment of a safe work culture and lessons learned from cryogenic safety in accelerator labs. This book is designed to be useful to everyone affected by cryogenic hazards regardless of their expertise in cryogenics.
In petroleum engineering, liquid nitrogen can be used to aid in fracturing the formation rock because of its extremely cryogenic temperature. With the development of new jet technology in recent years, liquid nitrogen is considered as a promising jet medium to exploit oil and gas. The first chapter of this book provides an impact pressure and parametric sensitivity analysis of the numerical simulation of liquid nitrogen. In the second chapter, the uses of liquid nitrogen in a completely different sphere are explored, particularly its use for the storage of human cells and tissues for transplantation. Finally, liquid nitrogen is one of the cryogenic fluids most used for cryopreservation of animal germoplasm; low temperature preservation of oocytes, sperm and embryos is a fundamental cornerstone of assisted reproductive technologies. The last chapter examines the mathematical prediction of cooling rates during cryopreservation of reproductive cells in liquid nitrogen.
Prudent Practices in the Laboratory-the book that has served for decades as the standard for chemical laboratory safety practice-now features updates and new topics. This revised edition has an expanded chapter on chemical management and delves into new areas, such as nanotechnology, laboratory security, and emergency planning. Developed by experts from academia and industry, with specialties in such areas as chemical sciences, pollution prevention, and laboratory safety, Prudent Practices in the Laboratory provides guidance on planning procedures for the handling, storage, and disposal of chemicals. The book offers prudent practices designed to promote safety and includes practical information on assessing hazards, managing chemicals, disposing of wastes, and more. Prudent Practices in the Laboratory will continue to serve as the leading source of chemical safety guidelines for people working with laboratory chemicals: research chemists, technicians, safety officers, educators, and students.
Cryogenics Safety Manual: A Guide to Good Practice, Third Edition promotes the safe application and development of low temperature engineering. The book also details the hazards involved in the operation, handling, and development of cryogenic devices. The text is divided into five chapters. Chapter 1 describes the health precautions and legislations involved in the field. Chapter 2 tackles the specific hazards and safety measures in handling and maintaining air separation plants. Chapter 3 discusses the precautions to be observed in the different procedures concerning natural gas, ethylene, and methane. Chapter 4 covers the proper safety measures and maintenance of plants and equipment designed to handle liquid and gas states of hydrogen at low temperatures, and Chapter 5 talks about the special precautions in handling helium, neon, krypton, and xenon. Chemists, physicists, engineers, and safety personnel involved in the field of cryogenics would benefit from this helpful guide.