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Consolidates information and technical calculations for a wide variety of environmental factors Operating a business facility of any size, especially a manufacturing location, requires environmental permits from a number of governmental regulatory agencies responsible for protecting human health and the environment. Environmental Calculations: A Multimedia Approach provides an essential, one-stop reference for the necessary technical calculations to obtain a broad range of such permits. Along with clear, concise, and factual explanations, the text also includes relevant equations, examples, and case studies to support and clarify the calculations. Filled with the rich experience from the author's years of work in environmental permitting, the coverage features: An introduction to the major concepts and practice in the permitting process Key concepts in environmental chemistry such as the ideal gas law, vapor pressure, reaction stoichiometry, and heat effects Air pollution control Water/wastewater Solid/hazardous waste Noise generation, propagation, and control Radiation/radioactive decay An all-around guide for environmental permitting in many contexts, Environmental Calculations: A Multimedia Approach is a must-have for anybody concerned with environmental assessment and compliance, as well as those reviewing, issuing, and monitoring environmental permits.
Regulatory Calculations Handbook addresses the environmental concerns of individuals by presenting the basic fundamentals of many environmental regulatory topics. Featuring an overview of the history of environmental problems, the current regulatory framework, and problems/solutions of practical problems in the field, this handbook comprehensively brings the potential calculations and information on regulations into one single-source reference. Provides 500 solved problems, which detail how to calculate the amount of pollutant that a facility is letting go into the environment Includes problems and solutions that can stand alone, offering material that develops the reader's understanding of regulatory matters Combines information that is otherwise spread-out and difficult to consolidate quickly
Environmental Health and Hazard Risk Assessment: Principles and Calculations explains how to evaluate and apply environmental health and hazard risk assessment calculations in a variety of real-life settings. Using a wealth of examples and case studies, the book helps readers develop both a theoretical understanding and a working knowledge of the principles of health, safety, and accident management. Learn the Fundamentals of Health, Safety, and Accident Management The book takes a pragmatic approach to risk assessment, identifying problems and outlining solutions. Organized into four parts, the text: Presents an overview of the history of environmental health and hazard problems, legal considerations, and emergency planning and response Tackles the broad subject of health risk assessment, discussing toxicology, exposure, and health risk characterization Examines hazard risk assessment in significant detail—from problem identification, probability, consequence, and characterization of hazards/accidents to the fundamentals of applicable statistics theory Uses case studies to demonstrate the applications and calculations of risk analysis for real systems Incorporate Health and Safety in Process Design The book assumes only a basic background in physics, chemistry, and mathematics, making it suitable for students and those new to the field. It is also a valuable reference for practicing engineers, scientists, technicians, technical managers, and others tasked with ensuring that plant and equipment operations meet applicable standards and regulations. A clear and comprehensive resource, this book offers guidance for those who want to reduce or eliminate the environmental health effects and accidents that can result in loss of life, materials, and property.
A Training Tool for the Environmental Risk ProfessionalEnvironmental Risk Analysis: Probability Distribution Calculations defines the role that probability distributions play in risk analysis, and gives direction on how to measure and compare the magnitude of risk more efficiently. Designed for the practicing environmental engineer and scientist, t
Because of the ubiquitous nature of environmental problems, a variety of scientific disciplines are involved in the development of environmental solutions. The Handbook of Chemical and Environmental Engineering Calculations provides approximately 600 real-world, practical solutions to environmental problems that involve chemical engineering, enabling engineers and applied scientists to meet the professional challenges they face day-to-day. The scientific and mathematical crossover between chemical and environmental engineering is the key to solving a host of environmental problems. Many problems included in the Handbook are intended to demonstrate this crossover, as well as the integration of engineering with current regulations and environmental media such as air, soil, and water. Solutions to the problems are presented in a programmed instructional format. Each problem contains a title, problem statement, data, and solution, with the more difficult problems located near the end of each problem set. The Handbook offers material not only to individuals with limited technical background but also to those with extensive industrial experience. Chapter titles include: Chemical Engineering Fundamentals Chemical Engineering Principles Air Pollution Control Equipment Solid Waste Water Quality and Wastewater Treatment Pollution Prevention Health, Safety, and Accident Management Ideal for students at the graduate and undergraduate levels, the Handbook of Chemical and Environmental Engineering Calculations is also a comprehensive reference for all plant and environmental engineers, particularly those who work with air, drinking water, wastewater, hazardous materials, and solid waste.
Air Pollution Calculations introduces the equations and formulae that are most important to air pollution, but goes a step further. Most texts lack examples of how these equations and formulae apply to the quantification of real-world scenarios and conditions. The ample example calculations apply to current air quality problems, including emission inventories, risk estimations, biogeochemical cycling assessments, and efficiencies in air pollution control technologies. In addition, the book explains thermodynamics and fluid dynamics in step-by-step and understandable calculations using air quality and multimedia modeling, reliability engineering and engineering economics using practical examples likely to be encountered by scientists, engineers, managers and decision makers. The book touches on the environmental variables, constraints and drivers that can influence pollutant mass, volume and concentrations, which in turn determine toxicity and adverse outcomes caused by air pollution. How the pollutants form, move, partition, transform and find their fate are explained using the entire range of atmospheric phenomena. The control, prevention and mitigation of air pollution are explained based on physical, chemical and biological principles which is crucial to science-based policy and decision-making. Users will find this to be a comprehensive, single resource that will help them understand air pollution, quantify existing data, and help those whose work is impacted by air pollution. - Explains air pollution in a comprehensive manner, enabling readers to understand how to measure and assess risks to human populations and ecosystems actually or potentially exposed to air pollutants - Covers air pollution from a multivariate, systems approach, bringing in atmospheric processes, health impacts, environmental impacts, controls and prevention - Facilitates an understanding of broad factors, like climate and transport, that influence patterns and change in pollutant concentrations, both spatially and over time
This Task Committee report provides standardized equations for calculating reference evapotranspiration (ET) from weather data and procedures for quality assessment and control of weather data. The purpose of the standardized reference ET equation and calculation procedures is to bring commonality to the calculation of reference ET and to provide a standardized basis for determining or transferring crop coefficients for agriculture and landscape use. The basis of the standardized reference ET equation is the ASCE Penman-Monteith (ASCE-PM) method Manual 70. Along with applications for the ASCE-PM method, this report includes recommended calculations for vapor pressure, net radiation and wind speed adjustment, and guidelines on assessing weather data integrity and estimating values for missing data. The development of this standardized report by the Environmental and Water Resources Committee (EWRI) of ASCE, was made at the request of, and has been endorsed by, the Irrigation Association.
This book is published open access under a CC BY 4.0 license. This report transfers the Ecological Scarcity Method (ESM) to the EU and its 28 member states. It provides a powerful tool for unbiased environmental assessments in enterprises and surveys the current impacts and the targets published by environmental authorities, specifically the European Environment Agency. ESM assesses environmental impacts of manufacturing sites and production processes. Developed in 1990 in Switzerland, ESM has already gained regulatory status in proving entitlements for tax exemptions. The method assesses all important impacts in air, water, energy consumption, waste generation and freshwater consumption and also supports environmental investment decisions.
Assessing and Measuring Environmental Impact and Sustainability answers the question “what are the available methodologies to assess the environmental sustainability of a product, system or process?” Multiple well-known authors share their expertise in order to give a broad perspective of this issue from a chemical and environmental engineering perspective. This mathematical, quantitative book includes many case studies to assist with the practical application of environmental and sustainability methods. Readers learn how to efficiently assess and use these methods. This book summarizes all relevant environmental methodologies to assess the sustainability of a product and tools, in order to develop more green products or processes. With life cycle assessment as its main methodology, this book speaks to engineers interested in environmental impact and sustainability. Helps engineers to assess, evaluate, and measure sustainability in industry Provides workable approaches to environmental and sustainability assessment Readers learn tools to assess the sustainability of a process or product and to design it in an environmentally friendly way
Thoroughly revised and up-dated edition of a highly successful textbook.