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Timestamp: 2019-06-17 18:03:57
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Matched Legal Cases: ['ART 1', 'ART 2', 'ART 3', 'ART 4', 'ART 5', 'ART 6', 'ART 7', 'ART 8', 'ART 9']

Home > Handbook of Environmental Engineering
by: Rao Y. Surampalli, Ph.D., P.E., BCEE, Dist.M.ASCE, Tian C. Zhang, Ph.D., P.E., BCEE, F.ASCE, Satinder Kaur Brar, Ph.D., Krishnamoorthy Hegde, Ph.D., Rama Pulicharla, Ph.D., Mausam Verma, Ph.D.
Abstract: A complete guide to environmental regulations and remediation. This practical resource offers thorough coverage of current environmental issues and policies along with step-by-step remediation procedures. With contributions from dozens of industry-recognized experts, Handbook of Environmental Engineering features information on all segments of the market—including water and air quality and hazardous waste—and enables you to ensure compliance with all applicable regulations. You will get details about sensors, monitoring, and toxicity treatment and controls as well as waste management and safe disposal. Real-world examples demonstrate how to apply techniques and achieve compliance, while environmental impact assessments and measurement data enhance the book's utility. Coverage includes: • Environmental legislation • Environmental impact assessments • Air pollution control and management • Potable water treatment • Wastewater treatment and reuse • Solid waste management • Hazardous waste management • Emerging wastes in the environment • Environmental monitoring and measurements
A. PART 1: ENVIRONMENTAL LEGISLATION
1.0. ENVIRONMENTAL LEGISLATION
B. PART 2: ENVIRONMENTAL IMPACT ASSESSMENT
2.0. ENVIRONMENTAL IMPACT ASSESSMENT
C. PART 3: AIR POLLUTION CONTROL AND MANAGEMENT
3.1. INTRODUCTION TO AIR POLLUTION
3.2. AIR POLLUTION MONITORING INSTRUMENTATION
3.3. TECHNOLOGY FOR AIR POLLUTION CONTROL
3.4. AIR QUALITY VERSUS LIVING QUALITY
3.5. ROLE OF AIR POLLUTION IN CLIMATE CHANGE AND GLOBAL WARMING: PRESENT GLOBAL SCENARIO
D. PART 4: POTABLE WATER TREATMENT
4.1. WATER SOURCES AND GLOBAL ISSUES ON WATER SCARCITY
4.2. POTABLE WATER TREATMENT PROCESSES
4.3. OCCURRENCE AND TREATMENT OF EMERGING CONTAMINANTS IN DRINKING WATER
4.4. MEMBRANE PROCESSES FOR POTABLE WATER TREATMENT: OVERVIEW AND RECENT ADVANCES
E. PART 5: WASTEWATER TREATMENT AND REUSE
5.1. WASTEWATER TREATMENT PLANT DESIGN: TREATMENT PROCESSES AND RECENT ADVANCES
5.2. TECHNOLOGICAL DEVELOPMENTS IN INDUSTRIAL WASTEWATER MANAGEMENT
5.3. PHYSICOCHEMICAL PROCESSES IN WASTEWATER TREATMENT
5.4. CURRENT DEVELOPMENTS IN MANAGEMENT OF WASTEWATER TREATMENT RESIDUALS
5.5. TECHNOLOGICAL DEVELOPMENTS IN ANAEROBIC TREATMENT AND MANAGEMENT OF MUNICIPAL WASTEWATER
5.6. TECHNOLOGICAL DEVELOPMENTS IN EFFLUENT TREATMENT PLANTS: RESOURCE RECOVERY
5.7. CURRENT STATUS OF RESOURCES/ENERGY RECOVERY FROM WASTEWATER AND ENVIRONMENTAL MANAGEMENT
5.8. ADVANCEMENTS IN WASTEWATER REUSE PRACTICES
F. PART 6: SOLID WASTE MANAGEMENT
6.1. SOLID WASTE MANAGEMENT: OVERVIEW
6.2. BIOTRANSFORMATION OF SOLID WASTES: ANAEROBIC DIGESTION AND COMPOSTING
6.3. INCINERATION TECHNOLOGY FOR SOLID WASTE MANAGEMENT
6.4. LANDFILL TECHNOLOGIES AND RECENT INNOVATIONS
6.5. LANDFILL LEACHATE: CHARACTERIZATION, TOXICITY ASSESSMENT, AND TREATMENT
6.6. CURRENT DEVELOPMENTS IN AGRICULTURAL WASTE MANAGEMENT
6.7. BIOREFINERY FRAMEWORK FOR WASTE VALORIZATION AND MANAGEMENT
G. PART 7: HAZARDOUS WASTE MANAGEMENT
7.1. SOURCES, CHARACTERIZATION, AND DISPOSAL/TREATMENT OF HAZARDOUS WASTE: OVERVIEW
7.2. SOIL: MAJOR SINK FOR CONTAMINANTS
7.3. REMEDIATION OF CONTAMINATED SITES: TECHNOLOGIES AND RECENT DEVELOPMENTS
7.4. BIOHAZARDOUS AND BIOMEDICAL WASTE MANAGEMENT
7.5. RADIOACTIVE WASTE MANAGEMENT: STORAGE/DISPOSAL AND IMPACT ON HUMAN/ECOSYSTEMS
7.6. ADVANCES IN REMEDIATION PROCESS OPTIMIZATION AND GREEN AND SUSTAINABLE REMEDIATION
H. PART 8: EMERGING WASTES IN THE ENVIRONMENT
8.1. CURRENT STATUS OF WATER TOXICITY CONTROL STRATEGIES
8.2. CURRENT STATUS OF NANOWASTE MANAGEMENT
8.3. IMPACT OF GROWING PHARMACEUTICAL POLLUTION ON AQUATIC ANIMALS
8.4. ELECTRONIC WASTE: ITS SOURCES, IMPACT, AND MANAGEMENT
8.5. IMPACT OF PESTICIDES ON ECOSYSTEMS, FOOD SUPPLY, AND HUMAN HEALTH
8.6. BIOFERTILIZERS: THEIR EFFECTS AND IMPACTS
8.7. MICROPLASTICS: AN EMERGING THREAT TO THE ENVIRONMENT
8.8. MINING ACTIVITIES AND IMPACTS MANAGEMENT
8.9. OIL SPILLAGE: IMPACTS ON ECOSYSTEMS AND CLEANUP APPROACHES
8.10. NEED AND ROLE OF SUSTAINABLE GREEN TECHNOLOGIES FOR THE POLLUTION-FREE ENVIRONMENT
I. PART 9: ENVIRONMENTAL MONITORING AND MEASUREMENTS
9.1. HUMAN EXPOSURE TO MAJOR ENVIRONMENTAL CONTAMINANTS: MONITORING TECHNOLOGIES AND EXPOSURE CONSEQUENCES
9.2. ADVANCES IN MOLECULAR TECHNOLOGIES AND THEIR APPLICATIONS IN ENVIRONMENTAL MONITORING AND MEASUREMENT
9.3. RECENT ADVANCES IN SENSOR TECHNOLOGY FOR ENVIRONMENTAL APPLICATIONS
9.4. IMPORTANCE OF ATMOSPHERIC AEROSOLS AND RELATED ANALYTICAL METHODS
9.5. MICROBIAL RISK ASSESSMENT IN WASTEWATER TREATMENT AND MANAGEMENT
9.6. IMBALANCE IN CARBON/NITROGEN DYNAMICS: EFFECT ON SOIL ECOSYSTEMS
THE NATIONAL ENVIRONMENTAL POLICY ACT—PUBLIC LAW 91-190 (AS AMENDED BY PL 94-83) IN DETAIL
NEPA AFTER 45 YEARS
NEPA AROUND THE WORLD
EMISSION INVENTORY AND ITS DEVELOPMENT
AIR QUALITY EMISSION MONITORING
EPA AIR MONITORING METHODS
TECHNIQUES WITH USE OF EMISSION CONTROL DEVICES
WHO AIR QUALITY GUIDELINES: PROTOCOL AND POLLUTANTS
CALCULATION OF GREENHOUSE GAS EQUIVALENCIES
SHORT-LIVED VERSUS LONG-LIVED CLIMATE POLLUTANTS
CONVENTIONAL SOURCES OF POTABLE WATER PRODUCTION
ENVIRONMENTAL AND ECONOMIC CONSEQUENCES OF WATER SCARCITY
ASSESSMENT OF WATER SCARCITY
ECS AND TRANSFORMATION PRODUCTS
REMOVAL OF ECS IN DRINKING WATER TREATMENT
OVERVIEW OF MEMBRANE PROCESSES FOR POTABLE WATER TREATMENT
RECENT ADVANCES IN MEMBRANE TECHNOLOGY FOR POTABLE WATER TREATMENT
ENERGY CONSUMPTION/COST: TRENDS AND FUTURE PERSPECTIVES
ESTABLISHED CONVENTIONAL WASTEWATER TREATMENT TECHNOLOGY
RECENT ADVANCES IN WASTEWATER TREATMENT PROCESSES AND WWTP DESIGN
IMPORTANT CONSIDERATIONS FOR WWTP UPGRADING AND DESIGN
INDUSTRIAL WASTEWATERS: THEIR CHARACTERISTICS AND MAJOR TREATMENT PROCESSES
NEW TECHNOLOGICAL DEVELOPMENTS IN INDUSTRIAL WASTEWATER TREATMENT/MANAGEMENT
FUTURE ASPECTS AND CHALLENGES
PHYSICAL UNIT OPERATIONS FOR PRELIMINARY/PRIMARY/SECONDARY TREATMENT
CHEMICAL UNIT PROCESSES FOR WASTEWATER TREATMENT
PHYSICOCHEMICAL PROCESSES FOR ADVANCED WASTEWATER TREATMENT
APPLICATIONS OF PHYSICOCHEMICAL PROCESSES IN OTHER SETTINGS
SLUDGE REUSE AND DISPOSAL
ANAEROBIC TREATMENT COUPLED WITH MEMBRANE
THE ANAEROBIC OXIDATION OF AMMONIUM (ANAMMOX)
MICROALGAL TECHNOLOGY
CHEMICAL TREATMENT OF MUNICIPAL WASTEWATER: APPLICATIONS AND CHALLENGES
AGENDA FOR WASTEWATER RESOURCE RECOVERY AND WASTEWATER MANAGEMENT
ADVANCES IN WASTEWATER RESOURCES/ENERGY RECOVERY
ADVANCES IN ENERGY RECOVERY VIA OTHER ENVIRONMENTAL MANAGEMENT PRACTICES
FACTORS AFFECTING WASTEWATER TREATMENT AND RESOURCES RECOVERY
ADVANCEMENTS IN WASTEWATER REUSE OPTIONS
ADVANCEMENTS IN WASTEWATER TREATMENT FOR REUSE
ADVANCEMENTS IN ADSORPTION TECHNOLOGY FOR WASTEWATER TREATMENT AND REUSE
RISK ASSESSMENT AND MANAGEMENT: EVOLUTION AND THEIR RELATIONSHIP
RISK ASSESSMENT AND WASTE ANALYSIS
MECHANISMS OF WASTE INCINERATION
SOLID WASTE INCINERATION SYSTEM
SOLID WASTE INCINERATION TECHNOLOGY
SOLID WASTE INCINERATION PARAMETERS
INCINERATION POLLUTANTS
OPERATIONS AND DESIGNED COMPONENTS OF LANDFILLS
BASIC BIOCHEMICAL PROCESSES IN LANDFILLS
ENVIRONMENTAL ISSUES RELATED TO LANDFILLS
RECENT INNOVATIONS IN LANDFILL TECHNOLOGY
LEACHATE GENERATION, COLLECTION, AND CHARACTERIZATION
TOXICITY ASSESSMENT OF LANDFILL LEACHATE
HAZARDOUS WASTE DISPOSAL/TREATMENT
INORGANIC GASEOUS EMISSIONS
PHYSICAL-CHEMICAL REMEDIATION PROCESSES
RECENT DEVELOPMENTS IN REMEDIATION TECHNIQUES
SELECTION OF REMEDIATION TECHNIQUES
IMPORTANCE OF BIOHAZARDOUS WASTE MANAGEMENT
SOURCES, GENERATION RATE, AND COMPOSITION OF BHW
EXPOSURES TO BIOMEDICAL WASTE
RISKS ASSOCIATED WITH HAZARDOUS BIOMEDICAL WASTE
CURRENT PRACTICES TOWARD BHW MANAGEMENT
STORAGE AND TREATMENT OF RADIOACTIVE WASTE
DEVELOPMENTS IN DISPOSAL STRATEGIES FOR RADIOACTIVE WASTE
IMPACT OF RADIATION/RADIOACTIVE WASTE ON ECOSYSTEMS
SOURCES OF TOXIC CHEMICALS IN WATER
INTERVENTIONS TO REDUCE WATER POLLUTION
DETECTION OF TOXIC POLLUTANTS
REMOVAL METHODS FOR TOXIC POLLUTANTS
BACKGROUND OF NMS/NANOPRODUCTS AND IMPACTS/MANAGEMENT OF NWs
CURRENT STATE OF NANOWASTE MANAGEMENT
LIFE CYCLE ASSESSMENT OF NW MANAGEMENT
REGULATIONS AND POLICY RELATED TO NANOWASTE MANAGEMENT
MAIN SOURCES AND PATHWAYS OF PHARMACEUTICALS IN THE AQUATIC ENVIRONMENT
EFFECTS OF PHARMACEUTICALS ON INVERTEBRATES
EFFECTS OF PHARMACEUTICALS ON VERTEBRATES
BACKGROUND OF ELECTRONIC WASTE GENERATION AND MANAGEMENT
CATEGORIES AND SOURCES OF E-WASTE
BIODYNAMIC MANURES
BENEFITS AND IMPACTS OF BIOFERTILIZERS
BIOFERTILIZER AND CARBON SEQUESTRATION
SOURCES, TYPES, AND APPLICATIONS OF MICROPLASTICS
FATE AND TRANSPORT OF MICROPLASTICS IN THE ENVIRONMENT
IMPACT ON ECOSYSTEM AND ORGANISMS
DETECTION METHODS AND PREVENTIVE MEASURES
POLICY AND REGULATIONS ON WATER QUALITY WITH RESPECT TO MINING ACTIVITIES
ACID MINE DRAINAGE AND CONTAMINANT LEACHING
APPROACHES AND METHODS FOR IMPACTS REDUCTION
OIL SPILLAGE IN TERRESTRIAL ECOSYSTEMS AND ASSOCIATED CLEANUP TECHNIQUES
OIL SPILLAGE IN AQUATIC ECOSYSTEMS AND ASSOCIATED CLEANUP TECHNIQUES
GREEN TECHNOLOGY: INTRODUCTION
GREEN TECHNOLOGY FOR POLLUTION-FREE ENVIRONMENT
CURRENT TRENDS AND FUTURE OUTLOOK IN GREEN TECHNOLOGY
MONITORING METHODOLOGIES FOR MAJOR CONTAMINANTS/INDICATORS IN ENVIRONMENTS
CONSEQUENCES OF HUMAN EXPOSURE TO MAJOR ENVIRONMENTAL CONTAMINANTS
CELL- AND ANTIBODY-BASED METHODS FOR RISK ASSESSMENT
ADVANCES IN ENVIRONMENTAL MOLECULAR DIAGNOSTICS AND THEIR APPLICATIONS
ADVANCES IN OMICS TECHNOLOGIES AND THEIR APPLICATIONS
ADVANCES IN SENSING TECHNOLOGIES
DEVELOPMENT OF INTELLIGENT SENSORS AND SENSOR NODES
IMPROVEMENTS IN NETWORKING AND COMMUNICATION
IMPROVED DATA ANALYSIS AND PROCESSING
ENVIRONMENTAL AND HEALTH EFFECTS OF ATMOSPHERIC AEROSOLS
ANALYTICAL METHODS FOR CHEMICAL CHARACTERIZATION OF ATMOSPHERIC ORGANIC AEROSOLS
GAPS, PROBLEMS AND CURRENT STRATEGIES RELATED TO WASTEWATER TREATMENT
EFFECT OF DYNAMIC C/N BALANCE IN ECOSYSTEM STABILIZATION
C/N INTERACTIONS IN BACTERIAL, YEAST, AND ANIMAL SYSTEMS
GENETIC ANALYSES TO STUDY C/N BALANCE RESPONSE
Title: Handbook of Environmental Engineering
ISBN: 9781259860225
Rao Y. Surampalli, Ph.D., P.E., BCEE, Dist.M.ASCE is President and CEO of the Global Institute for Energy, Environment and Sustainability. He has contributed to over 600 publications, is editor of ASCE's Journal of Hazardous, Toxic, and Radioactive Waste and past vice-chair of the editorial bBoard of WEF's Water Environment Research Journal, and serves on numerous industry committees and boards.
Tian C. Zhang, Ph.D., P.E., BCEE, F.ASCE is Professor of Environmental Engineering at the University of Nebraska—Lincoln. He has published more than 120 peer-reviewed journal papers, 72 book chapters, and 14 books since 1994. Dr. Zhang is the associate editor of the Journal of Environmental Engineering (since 2007) and the Journal of Hazardous, Toxic, and Radioactive Waste (since 2006), and the managing editor of Water Environment Research Journal (since 2008).
Satinder Kaur Brar, Ph.D. is a professor at the Institut National de la Recherche Scientifique (Centre Eau Terre Environnement; INRS-ETE) in Quebec City, Quebec, Canada. She is editor-in-chief of the journal Nanotechnology for Environmental Engineering and associate editor of two journals of international repute. Dr. Brar has more than 350 research publications, including 5 books, 40 book chapters, and 190 original research journal papers.
Krishnamoorthy Hegde, Ph.D. is a researcher at the Institut National de la Recherche Scientifique (Centre Eau Terre Environnement; INRS-ETE) in Quebec City, Quebec, Canada. His research interests lie in the development of advanced biosensors for environmental applications, treatment of emerging contaminants in wastewater and drinking water, microbial/biocatalytic degradation of petroleum crude wastes (bioremediation), green synthesis of functionalized polymers, and conversion of biomass waste and industrial waste into biofuels and other value-added products.
Rama Pulicharla, Ph.D. is a researcher at the Institut National de la Recherche Scientifique (Centre Eau Terre Environnement; INRS-ETE) in Quebec City, Quebec, Canada. Her research interests include development and application of hybrid advanced bio/chemical oxidation treatments for degradation of emerging contaminants in wastewater and wastewater sludge.
Mausam Verma, Ph.D. is working as a scientist-engineer at CO2 Solutions Inc. in Quebec City, Quebec, Canada. He has been involved in developing economical processes for the production of biofuels, fermentation, and high-value biomolecules from various biomass feedstocks; the treatment of textile wastewater; and the application of phytoremediation and bioremediation techniques for the cleaning of contaminated sites. Dr. Verma has more than 150 research publications, including 3 books, 30 book chapters, and 120 original research journal papers.
Description: A complete guide to environmental regulations and remediation. This practical resource offers thorough coverage of current environmental issues and policies along with step-by-step remediation procedures. With contributions from dozens of industry-recognized experts, Handbook of Environmental Engineering features information on all segments of the market—including water and air quality and hazardous waste—and enables you to ensure compliance with all applicable regulations. You will get details about sensors, monitoring, and toxicity treatment and controls as well as waste management and safe disposal. Real-world examples demonstrate how to apply techniques and achieve compliance, while environmental impact assessments and measurement data enhance the book's utility. Coverage includes: • Environmental legislation • Environmental impact assessments • Air pollution control and management • Potable water treatment • Wastewater treatment and reuse • Solid waste management • Hazardous waste management • Emerging wastes in the environment • Environmental monitoring and measurements