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|a 9780070620995
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|a 0070620997
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|a TD745 2007
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|a 628.309 54
|2 23
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|a Arceivala, Sol J.,
|e author.
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|a Wastewater treatment for pollution control and reuse
|h [electronic resource] /
|c by Soli J Arceivala, Dr. Shyam R. Asolekar.
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250 |
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|a 3rd ed.
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260 |
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|a New York, N.Y. :
|b McGraw-Hill Education LLC.,
|c c2007.
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300 |
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|a xiv, 518 p. :
|b ill., figs., tables.
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504 |
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|a Includes bibliographical references and indexes.
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505 |
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|a A. Preface to the third edition -- B. Preface to the first edition -- 1. Ecosystem approach to pollution control -- Interaction of wastewater with the ecosystem -- Wastewater characteristics -- Wastewater management in india -- Some issues concerning wastewater disposal to the environment -- Environmental impact assessment -- Strategies for control of pollution -- References -- 2. Planning for wastewater collection and treatment -- Initial planning -- Newer approaches in wastewater collection system design -- Provision of sanitation in unsewered slums and shanty-towns -- Some wastewater treatment methods and their characteristics -- Factors in choice of waste treatment methods -- References -- 3. Principles of aerobic bio-reactor design -- Reaction order -- Flow patterns of reactors -- Ideal plug flow -- Ideal completely?mixed flow -- Dispersed flow -- The dispersion number, d/ul, and its estimation -- Multiple cells with series or parallel arrangements -- Effect of shock loads -- Estimation of wastewater temperature in large reactors -- Guidelines for choice of reactors -- References -- 4. Principles of aerobic biological treatment -- Microbial growth rates -- Treatment kinetics -- Handling of solids -- Sludge age and hydraulic retention time -- Food/micro-organism ratio -- Build-up of solids in the system -- Substrate removal efficiency -- Temperature effects -- Estimation of final effluent bod -- Oxygen requirements -- Nutrient requirements -- Phosphorus removal -- Nitrogen removal -- Choice of sludge age -- References -- 5. Principles of aeration -- Theory of aeration -- Factors affecting oxygen transfer -- Oxygenation and mixing requirements -- Types of aerators -- Use of renewable sources of energy -- References -- 6. Some aerobic biological treatment methods -- Suspended and attached growth systems -- Activated sludge -- Extended aeration -- Nitrification?denitrification systems -- Phosphorus precipitation -- Sequencing batch reactors -- Contact stabilization process -- Package plants -- Trickling filters -- Submerged media beds -- Rotating bio-disc systems -- References -- 7. The "uasb" and other anaerobic processes -- Background in india -- Typical arrangements -- Approach to design -- Useful parameters for design -- Sulphates and sulphides -- Gas production and cod balance -- Gas recovery -- Nutrients -- Toxicity -- Plant commissioning and operation -- Post-treatment requirements -- Some pros and cons in the use of uasb -- Other types of anaerobic units -- A possible new system -- References -- 8. Mechanically aerated lagoons -- Types of aerated lagoons -- Design of facultative aerated lagoons -- Design of aerobic flow-through type lagoons -- Design of dual-powered aerated lagoons -- Design of aerobic lagoons with recycling of solids (extended aeration lagoons) -- Optimization of lagoon and pond combinations -- Combinations of different processes -- A possible new system: a deep lagoon with small solar-powered aerators -- Construction features -- References.
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505 |
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|a 9. Natural systems ? 1 classical algal ponds for treatment and resource recovery -- Types of ponds -- Typical flow-sheets -- Factors affecting pond ecosystems -- Algal growth dynamics -- Oxygen production in a pond -- Substrate removal rate in ponds -- Choice of flow pattern and pond detention time -- Pond depth -- Anaerobic activity in ponds -- Sulphide production in ponds -- Micro-organism removal in ponds -- Micro-organism reduction prior to reuse in irrigation -- Sludge accumulation -- Phosphorus removal in ponds -- Nitrogen removal in ponds -- Example of a pond design -- Pre-treatment in anaerobic units -- Ponds for animal wastes -- 'Complete' waste treatment -- Resource recovery based ponds -- Fish ponds after algal ponds -- Advanced integrated pond system -- Pond-enhanced treatment and operation (petro) system -- Construction, operation and maintenance of ponds -- References -- 10. Natural systems ? 2 hyacinth and duckweed ponds, fish ponds, natural and constructed wetlands, and vermiculture -- Hyacinth ponds -- Duckweed ponds -- Sewage-fed fish ponds -- Natural wetlands -- Constructed wetlands (reed beds) -- Vermiculture, earthworm technology -- References -- 11. Natural systems ? 3 wastewater irrigation -- Wastewater irrigation -- Aspects in planning an irrigation system -- The irrigation system and its layout -- Soil-crop-water system design and sustainability -- Operational and monitoring aspects -- Price charged to farmers for use of treated wastewaters -- Design of a municipal wastewater irrigation system -- Design of an industrial wastewater irrigation scheme -- References -- 12. Some physico-chemical methods and membrane technologies -- Removal of oil and grease -- Removal of fines using flotation technology -- Multimedia filtration -- Lime-soda and zeolite softening -- Ion exchange for removal of trace ionic pollutants -- Activated carbon adsorption systems -- Advanced oxidation processes -- Disinfection -- Membrane processes -- Combined biological and physico-chemical methods -- The "caaco" process -- References -- 13. Solids settling and sludge management -- Solids removal by screening -- Grit removal -- Primary sedimentation -- Chemically-aided sedimentation -- Secondary or final settling tanks -- Sludge thickeners -- Anaerobic digestion -- Aerobic digestion -- Sludge dewatering -- Design of sludge drying beds -- Rational method of estimating drying time -- Sludge lagoons -- Use of evaporation/evapotranspiration ponds -- Mechanized methods of sludge dewatering -- Sludge disposal -- References -- 14. Water conservation and reuse in industry and agriculture -- Types of reuse -- Reuses of urban wastewater in agriculture and horticulture from sewered areas -- Reuse of urban wastewater from polluted "nallahs" draining unsewered areas -- Reuse in industry and commerce to meet water shortages -- Reuse in commercial buildings using on-site sources of wastewater -- Reuse in large industries using off-site sources of wastewater -- Reuse in industries to meet various objectives in addition to water shortages -- Conclusion -- References.
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505 |
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|a 15. Wastewater reuse to augment public water supplies -- Reuse of treated wastewaters for augmenting public water supplies -- Supply of reclaimed water through a dual distribution system -- Supply of reclaimed water using membrane bio-reactors -- Groundwater recharge for reuse -- Reuse of wastewater to raise aquifer levels -- Reuse of wastewater to prevent sea water intrusion in coastal areas -- Use of reclaimed wastewater for recreational purposes -- Reuse of wastewater for supplementing evaporation losses from non-potable lakes in india -- Reuse of wastewater for supplementing potable water lakes -- Direct reuse of reclaimed water in south africa -- The indian situation of unwitting direct reuse -- Indirect reuse of reclaimed water for potable purposes -- Need for environmental impact assessment and follow-up monitoring -- References -- 16. Guidelines for planning and designing treatment plants and cetps -- Various considerations in site and process selection -- Overall planning for a plant -- The treatment system -- Other important requirements of plant design -- Commissioning and operation of plants -- Cost considerations and funding of projects -- Special requirements of common effluent treatment plants (cetps) -- References -- 17. The many facets of sustainable waste management -- Improving sustainability at the industry level -- Improving sustainability at the community level ? References.
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530 |
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|a Also issued in print and PDF version.
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588 |
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|a Description based on cover image and table of contents, viewed on Oct. 24, 2014.
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650 |
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|a Water
|x Purification.
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650 |
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0 |
|a Sewage
|x Purification.
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650 |
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|a Water reuse.
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700 |
1 |
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|a Asolekar, Shyam R.,
|e author.
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856 |
4 |
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|u https://accessengineeringlibrary.uam.elogim.com/content/book/9780070620995
|z Texto completo
|