Covers All Site Activities after DesignAbove Ground Storage Tanks: Practical Guide to Construction, Inspection, and Testing is an ideal guide for engineers involved in the mechanical construction of above ground storage tanks. This text details the construction of storage tanks in accordance with the American Petroleum Institute requirements for AP
The one reference devoted exclusively to ASTs, this book assembles the most critical information on the subject in a single convenient volume. The result is an ideal tool for chemical, environmental, and civil engineers, as well as management and government personnel and others concerned with the regulatory issues governing ASTs. Section by section, this complete reference thoroughly examines and clarifies various types of storage media and their applications; fundamental environmental engineering concerns; industrial codes and standards for ASTs; AST design considerations; the proper construction, fabrication, and erection of tanks; and the often-confusing requirements designed to keep ASTs environmentally sound.
A survey of manufacturing and installation methods, standards, and specifications of factory-made steel storage tanks and appurtenances for petroleum, chemicals, hydrocarbons, and other flammable or combustible liquids. It chronicles the trends towards aboveground storage tanks, secondary containment, and corrosion-resistant underground steel storage systems.
Trust NFPA 30's protocols to minimize the hazards of flammable and combustible liquids. Adopted by most states and enforceable under OSHA, NFPA 30: Flammable and Combustible Liquids Code presents the best guidance on the safe storage, handling, and use of dangerous liquids. It provides the criteria you need to design facilities for better protection, comply with sprinkler rules, and use safe operating practices. Changes and additions in the 2003 edition affect: * Siting of storage tanks * Spill control, normal breather vents, and emergency relief vents for storage tanks * Design of liquids storage cabinets, inside storage areas, and liquid warehouses * Sprinkler design rules for storage of all types of liquids * And more When you work with flammable and combustible liquids, even a seemingly minor oversight or mistake can have major repercussions. Don't compromises safety--insist on NFPA 30!
On August 29, 2005, Hurricane Katrina caused extensive damage to the coast along the Gulf of Mexico, resulting in an unprecedented relief, recovery, and reconstruction effort. This reconstruction presents a unique opportunity to rebuild the communities and public infrastructure using the latest hazard mitigation techniques proven to be more protective of lives and property. Critical facilities comprise all public and private facilities deemed by a community to be essential for the delivery of vital services, protection of special populations, and the provision of other services of importance for that community. This manual concentrates on a smaller group of facilities that are crucial for protecting the health and safety of the population: health care, educational, and emergency response facilities. The Design Guide for Improving Critical Facility Safety from Flooding and High Winds (FEMA 543) was developed with the support of the Federal Emergency Management Agency (FEMA) Region IV in the aftermath of Hurricane Katrina. This manual recommends incorporating hazard mitigation measures into all stages and at all levels of critical facility planning and design, for both new construction and the reconstruction and rehabilitation of existing facilities. It provides building professionals and decision makers with information and guidelines for implementing a variety of mitigation measures to reduce the vulnerability to damage and disruption of operations during severe flooding and high-wind events. The underlying theme of this manual is that by building more robust critical facilities that will remain operational during and after a major disaster, people's lives and the community's vitality can be better preserved and protected. The poor performance of many critical facilities in the affected areas was not unique to Hurricane Katrina. It was observed in numerous hurricanes dating back more than three decades. Several reasons may explain this kind of performance. In many cases the damaged facilities were quite old and were constructed well before the introduction of modern codes and standards. Some of the older facilities were damaged because building components had deteriorated as a result of inadequate maintenance. Many fa¬cilities occupy unsuitable buildings that were never intended for this type of use. Some newer facilities suffered damage as a result of deficiencies in design and construction or the application of inappropriate design criteria and standards. The primary objective of this manual is to assist the building design community and local officials and decision makers in adopting and implementing sound mitigation measures that will decrease the vulnerability of critical facilities to major disasters. The goals of this manual are to: Present and recommend the use of building design features and building materials and methods that can improve the performance of critical facilities in hazard-prone areas during and after flooding and high-wind events. m Introduce and provide guidelines for implementing flooding and high-wind mitigation best practices into the process of design, construction, and operation and maintenance of critical facilities; and To aid in the reconstruction of the Gulf Coast in the wake of Hurricane Katrina, this manual presents an overview of the principal planning and design considerations for improving the performance of critical facilities during, and in the aftermath of, flooding and high-wind events. It provides design guidance and practical recommendations for protecting critical facilities and their occupants against these natural hazards. It presents incremental approaches that can be implemented over time to decrease the vulnerability of buildings, but emphasizes the importance of incorporating the requirements for mitigation against flooding and high winds into the planning and design of critical facilities from the very beginning of the process.
Supply of oil and gas continues to increase as well as natural events such as hurricanes, while engineers and safety managers are not well trained on storage tank engineering and leak detection, one of the most vulnerable and least studied components of oil and gas storage equipment. Above Ground Storage Tank Oil and Chemical Spills gives engineers and researchers a training guide on tank design, tank failure modes and risk analysis. Bridging between research and application, this reference sends an integrated engineering approach backed by both corporate and academic contributors focused specifically on storage tanks, their spills, case histories, and technical aspects of leakage from storage tanks. Additional topics include regulations, differences between spills from storage tanks and other sources, and supported by extensive data and additional references. Above Ground Storage Tank Oil and Chemical Spills delivers a much-needed knowledge source for today's engineers and managers to keep supply and personnel safe. - Learn from both academic and corporate contributors, bridging between research and practical application - Understand lessons learned with case studies and extensive data - Know the differences between spills from storage tanks and other sources
Comprehensive in scope, this totally revamped edition of a bestseller is the ideal desk reference for anyone tasked with hazard control and safety management in the healthcare industry. Presented in an easy-to-read format, Healthcare Hazard Control and Safety Management, Third Edition examines hazard control and safety management as proactive functions of an organization. Like its popular predecessors, the book supplies a complete overview of hazard control, safety management, compliance, standards, and accreditation in the healthcare industry. This edition includes new information on leadership, performance improvement, risk management, organizational culture, behavioral safety, root cause analysis, and recent OSHA and Joint Commission Emergency Management requirements and regulatory changes. The book illustrates valuable insights and lessons learned by author James T. Tweedy, executive director of the International Board for Certification of Safety Managers. In the text, Mr. Tweedy touches on the key concepts related to safety management that all healthcare leaders need to understand. Identifies common factors that are often precursors to accidents in the healthcare industry Examines the latest OSHA and Joint Commission Emergency Management Requirements and Standards Covers facility safety, patient safety, hazardous substance safety, imaging and radiation safety, infection control and prevention, and fire safety management Includes references to helpful information from federal agencies, standards organizations, and voluntary associations Outlining a proactive hazard control approach based on leadership involvement, the book identifies the organizational factors that support accident prevention. It also examines organizational dynamics and supplies tips for improving organizational knowledge management. Complete with accompanying checklists and sample management plans that readers can immediately put to use, this text is currently the primary study reference for the Certified Healthcare Safety Professional Examination.
Objectives and overview of storage tanks -- Codes, standards, and regulations -- Tank design and construction features -- Fireground operations -- Firefighting foam, water supply and fire protection requirements -- Tactical response guidelines -- Glossary
Continuing its superiority in the health care risk management field, this sixth edition of The Risk Management Handbook for Health Care Organizations is written by the key practitioners and consultant in the field. It contains more practical chapters and health care examples and additional material on methods and techniques of risk reduction and management. It also revises the structure of the previous edition, and focuses on operational and organizational structure rather than risk areas and functions. The three volumes are written using a practical and user-friendly approach.