Risk Management of Complex Inorganic Materials: A Practical Guide facilitates the risk assessment and management of complex inorganic materials around the world by providing accessible and specific guidance on their assessment. Inorganic complex materials, such as ores and concentrates, metal containing- glasses, ceramic and inorganic pigments, alloys, and UVCBs produced during the manufacturing of metals present specificities not addressed by most guidance documents. This book explains the main characteristics of inorganic complex materials affecting their hazard and risk assessment and management, including their source and main uses, also covering hazard and exposure assessment, risk characterization and risk management. It is an essential reference for regulators involved in risk assessment and risk management, industry experts charged of compliance with chemical management program requirements, consultants preparing chemicals management files for companies and regulators, and academics involved in research on complex inorganic materials. - Focuses on key information required to globally manage the risk of inorganic complex material - Includes user-friendly descriptions of methodologies and tools that facilitate chemicals management of such materials - Provides key messages to assist communication on risk assessment and risk management to audiences like regulators, workers and communities living around industrial sites
This is the first volume of the five-volume book series “Engineering Tools for Environmental Risk Management”, dealing with the following topics: • types and management of environmental deterioration, particularly pollution; • environmental toxicology as a versatile tool in monitoring and risk management; • risk assessment of chemical substances and contaminated land; • risk reduction measures, focusing on bio- and ecotechnologies; • case studies demonstrating the interaction between regulation, management and engineering and the individual application of engineering tools. The book series focuses on the state of knowledge concerning the environment and its conscious and structured application in environmental engineering, management, decision making and legislation. This first volume provides an overview of the behavior and function of the healthy environment and the capacity of the ecosystem to serve mankind and to compensate for adverse changes. The prime causes of these changes are production and use of chemical substances, abandoned and contaminated land, intensive agriculture, mining and the complex problem of waste. The first volume establishes the foundation of the holistic approach used in a progressive environmental protection by: • striking a balance between nature’s needs and engineering capabilities; • understanding the interaction between regulation, management and engineering; • applying novel technologies and innovative scientifi c and engineering tools. The aggregated information and knowledge disseminated in this volume provides a broad perspective for engineers to adjust their tools to the best management practices and for managers and decision makers to fi nd synergy between their goals and existing engineering solutions. This book series focuses on the state of knowledge about the environment and its conscious and structured application in environmental engineering, management and decision making.
This classic, definitive reference work for all those involved in environmental health is now available in its 19th edition. Significant changes include those made to chapters on food safety and hygiene, environmental protection, the organisation and management of environmental health in the UK, port health, and waste management. New chapters have been added on health development, an introduction to health and housing, contaminated land, and environmental health in emergency planning, as well as a new glossary of abbreviations and acronyms. New material on training and standards, IT, practical risk assessment, and investigatory powers is also included. Each chapter reflects the wider background against which the subjects must be studied and the new concepts and approaches that have emerged over the past few years.
At last – a second edition of this hugely important text that reflects the progress and experience gained in the last decade and aims at providing background and training material for a new generation of risk assessors. The authors offer an introduction to risk assessment of chemicals as well as basic background information on sources, emissions, distribution and fate processes for the estimation of exposure of plant and animal species in the environment and humans exposed via the environment, consumer products, and at the workplace. The coverage describes the basic principles and methods of risk assessment within their legislative frameworks (EU, USA, Japan and Canada).
Many engineers are faced daily with hazardous wastes, from the chemical and process industries, waste treatment system management and design to the clean-up of contaminated sites. This practical reference blends together theoretical explanations, techniques and case study examples.
Assessing Nanoparticle Risks to Human Health provides a systematic overview of nanoparticle risks and considers the limitations of this paradigm in a context where extreme uncertainties prevail. As well as exploring conventional risk assessment methodology, the contributing authors investigate several alternate approaches. The adequacy of current frameworks for risk management and regulatory oversights, including corporate approaches in the US and EU, are explored, and suggestions are made as to how these frameworks can be modified to make them more efficient and effective.Presenting a coherent framework for analysis of the available information, this book presents the latest scientific understanding of the toxicity and health effects of nanoparticles, the technical issues relating to exposure assessment and management, and the ways in which the current risk paradigm can be used/modified to deal with the challenges of nanoparticle risks.All chapters of this new edition have been thoroughly updated to reflect the many changes in the field since the first edition. Additions and updates in the second edition of the book include: - New exposure assessment strategies for nanomaterials including life cycle exposure assessment approaches and detailed information on nanoparticle exposure control and protection in the workplace. - A state-of-the-art scientific update on the hazard and risk assessment of nanomaterials: discussion of key additional publications on the toxicology and biokinetics of nanomaterials; available data and methods to characterize the health hazard and risk of exposure to nanomaterials in the workplace; additional examples of the use of such data and methods to develop occupational safety and health guidance; and discussion of progress to date, ongoing efforts, and remaining challenges in nanomaterials hazard and risk characterization. - New studies on the use of expert judgment in nanotechnology. - Quantitative data from Lawrence Berkeley National Laboratory's 4-phase study. - A description and evaluation of new CB tools and new ISO technical specifications. - A comprehensive update of the legal frameworks in the US and the EU. With the second edition of Assessing Nanoparticle Risks to Human Health Prof. Ramachandran provides researchers and practitioners producing or using nanoparticles, or those involved in nanomaterials risk assessments, technology, health science, policy, safety, environment and regulatory aspects an invaluable reference to adopt the right technologies and strategies and to comply to legal frameworks and regulations. For policy makers and advisory firms it provides the knowledge needed to advise on compliance with or development of new regulations on nanomaterials. - Makes essential reading for risk assessment professionals, companies working with nanoparticles, nanotechnology research groups and regulators - Explores the use of risk assessment methodologies in an occupational health setting, and their limitations - Provides a framework for evidence-based decision making in a context with many uncertainties