Introductory technical guidance for civil and mechanical engineers, construction managers and plant managers interested in collection of oily wastewater. Here is what is discussed: 1. OBJECTIVES 2. SOURCES 3. DISCHARGE CRITERIA 4. POINT SOURCE CONTROL 5. DISPOSAL OF OIL 6 EMERGENCY CONTAINMENT AND CLEANUP 7. OILY WASTEWATER CHARACTERISTICS 8. COLLECTION AND TRANSFER.
Introductory technical guidance for civil and environmental engineers interested in oily wastewater collection and treatment. Here is what is discussed: 1. OBJECTIVES 2. SOURCES 3. DISCHARGE CRITERIA 4. POINT SOURCE CONTROL 5. DISPOSAL OF OIL 6. EMERGENCY CONTAINMENT AND CLEANUP 7. OILY WASTEWATER CHARACTERISTICS 8. COLLECTION AND TRANSFER 9. OILY WASTEWATER TREATMENT 10. DESIGN CRITERIA FOR OIL-WATER SEPARATORS AND APPURTENANCES.
Introductory technical guidance for civil engineers, environmental engineers, mechanical engineers and other professional engineers and construction managers interested in oily wastewater collection and treatment. Here is what is discussed: 1. OBJECTIVES, 2. SOURCES, 3. DISCHARGE CRITERIA, 4. POINT SOURCE CONTROL, 5. DISPOSAL OF OIL, 6. EMERGENCY CONTAINMENT AND CLEANUP, 7. OILY WASTEWATER CHARACTERISTICS, 8. COLLECTION AND TRANSFER, 9. OILY WASTEWATER TREATMENT, 10. DESIGN CRITERIA FOR OIL-WATER SEPARATORS AND APPURTENANCES.
Introductory technical guidance for civil and environmental engineers and other professional engineers and construction managers interested in domestic water treatment and wastewater collection and treatment. Here is what is discussed: 1. ACTIVATED SLUDGE WASTEWATER TREATMENT PLANTS 2. ADVANCED WASTEWATER TREATMENT 3. AREA DRAINAGE SYSTEMS 4. DOMESTIC WASTEWATER TREATMENT 5. DOMESTIC WATER DISTRIBUTION 6. DOMESTIC WATER TREATMENT 7. HYDRAULIC DESIGN DATA FOR CULVERTS 8. HYDRAULIC DESIGN OF SEWERS 9. LOW IMPACT DEVELOPMENT 10. OILY WASTEWATER COLLECTION AND TREATMENT 11. DRAINAGE PIPE STRENGTH, COVER AND BEDDING 12. PRELIMINARY WASTEWATER TREATMENT 13. PRIMARY WASTEWATER TREATMENT 14. PUMPING STATIONS FOR WATER SUPPLY SYSTEMS 15. SLUDGE HANDLING, TREATMENT AND DISPOSAL 16. SMALL FLOW WASTE TREATMENT SYSTEMS 17. TREATED WATER STORAGE 18. WASTEWATER COLLECTION AND PUMPING.
Introductory technical guidance for professional engineers and construction managers interested in industrial water treatment. Here is what is discussed: 1. CHEMICAL CLEANING OF INDUSTRIAL WATER SYSTEMS, 2. COOLING TOWER WATER TREATMENT, 3. MAKEUP WATER FOR INDUSTRIAL WATER SYSTEMS, 4. OILY WASTEWATER COLLECTION AND TREATMENT, 5. PRETREATMENT CONSIDERATIONS FOR WATER DESALINATION, 6. TREATMENT OF CLOSED INDUSTRIAL WATER SYSTEMS, 7. WATER SAMPLING AND TESTING, 8. TREATMENT OF STEAM BOILER WATER.
Introductory technical guidance for civil engineers, environmental engineers and other professional engineers and construction managers interested in industrial water treatment. Here is what is discussed: 1. CHEMICAL CLEANING OF INDUSTRIAL WATER SYSTEMS, 2. COOLING TOWER WATER TREATMENT, 3. MAKEUP WATER FOR INDUSTRIAL WATER SYSTEMS, 4. OILY WASTEWATER COLLECTION AND TREATMENT, 5. PRETREATMENT CONSIDERATIONS FOR WATER DESALINATION, 6. TREATMENT OF CLOSED INDUSTRIAL WATER SYSTEMS, 7. WATER SAMPLING AND TESTING, 8. TREATMENT OF STEAM BOILER WATER.
Introductory technical guidance for civil, mechanical and petroleum engineers interested in design, construction and operation of petroleum fuel handling facilities. Here is what is discussed: 1. AIRCRAFT FUELING FACILITIES 2. ATMOSPHERIC STORAGE TANKS 3. BULK FUEL STORAGE 4. GENERAL DESIGN INFORMATION 5. MARINE FUELING FACILITIES 6. PIPELINES AND GROUND FUELING FACILITIES 7. PIPING SYSTEMS 8. OPERATION AND MAINTENANCE. 9. OILY WASTEWATER COLLECTION AND TREATMENT
Introductory technical guidance for mechanical engineers, civil engineers, environmental engineers, construction managers and plant operators interested in treatment of oily wastewater. Here is what is discussed: 1. GENERAL 2. TREATMENT REQUIREMENTS 3. SULFIDE CONTROL 4. DESIGN CRITERIA FOR OIL-WATER SEPARATORS AND APPURTENANCES.
HANDBOOK of WATER POLLUTION Handbook of Water Pollution discusses a wide range of contaminants heavily affecting our environment and water bodies. The chapters discuss heavy metals, metalloids, pesticides, explosives, toxic chemicals, dyes, plastics, e-wastes, fertilizers, detergents, nitrates/nitrites, phosphates, hydrocarbons, and fecal wastes, along with their sources of action against our environment, their methods of analysis, and finally, their treatments are all presented in detail. Our environment is heavily affected due to extreme human activities. Environmental pollution is a major concern worldwide. Within this, water pollution is one of the major challenges that puts the total ecology at risk. Water pollution is alarming everywhere; many governing authorities believe it is also an unavoidable result of human activity. However, the economic cost of water pollution far outweighs the benefits of skimping on its cause. Water pollution is not just merely related to financial cost but related to all living beings. Toxic waste is getting into the water bodies in various regions, causing many illnesses in humans and poisoning other living things. The destruction of any single component of our ecosystem can have a devastating effect on our biodiversity. Therefore, it is necessary to understand the causes of pollution, their nature and mechanism, and, at the same time, study the remedies. The major causes of water pollution are industrial waste, sewage, plastics, oil leakage, biological organisms, toxic chemicals and radioactive waste, and so on. A tremendous amount of research work is going on around the world to understand the causes, their mechanism, and solutions. Many new works are published every day, therefore it’s important to gather some of the most relevant findings in one place. This will serve as a link between collected knowledge and current advancements, while also facilitating future thinking.
Advances in Oil-Water Separation: A Complete Guide for Physical, Chemical, and Biochemical Processes discusses a broad variety of chemical, physical and biochemical processes, including skimming, membrane separation, adsorption, onsite chemical reactions, burning and usage of suitable microbial strains for onsite degradation of oil. It critically reviews all current developments in oil-water separation processes and technologies, identifies gaps and illuminates the scope for future research and development in the field. This book provides researchers, engineers and environmental professionals working in oil recovery and storage with solutions for disposal of waste oil and separation of oil from water in a sustainable, environmentally-friendly way. As the book provides a complete state-of-art overview on oil-water separation technologies, it will also ease literature searches on oil-water separation technologies. - Provides a comprehensive overview of state-of-the-art developments in oil-water separation methods - Discusses the pros and cons of established processes - Guides the reader towards the selection of the right technique/process for each oil-water separation problem - Presents current developments on adsorbent based oil-water separation