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This book introduces a variety of treatment technologies, such as physical, chemical, and biological methods for the treatment of gas emissions, wastewater, and solid waste. It provides a useful source of information for engineers and specialists, as well as for undergraduate and postgraduate students, in the areas of environmental science and engineering.
Technology: general issues --- adsorption --- chromium --- competition --- fluoride --- soil and water pollution --- municipal solid waste management --- life cycle assessment --- life cycle impacts --- life cycle stages --- eutrophication --- global warming --- human health --- acidification --- Harare --- Zimbabwe --- iron tailings --- ammonium sulfate roasting process --- reaction mechanism --- kinetics --- carbon footprint --- CiteSpace --- a visual analysis --- metronidazole --- porous carbon --- surface modification --- wastewater treatment --- membrane fouling --- molecular composition of foulant --- transparent exopolymer particles (TEP) --- fouling propensities --- waste incineration --- cyclone flue --- gas-solid separation --- numerical simulation --- polysaccharides --- microfiltration process --- calcium ion --- copper adsorption --- magnetized pine needle biochar --- isotherms --- FTIR and XRD studies --- VLE --- CO2 capture --- amine --- DEA-12-PD --- 12-HEPP --- porosity properties --- adsorption capacity --- carbon dioxide storage --- melamine Schiff bases --- surface area --- energy --- antimony --- mineral processing --- potentially toxic elements --- pollution characteristics --- solid waste --- cleaner production --- electronic waste --- recycling --- waste printed circuit boards --- waste EAF slag --- magnesium silicate hydrate --- radioactive waste --- stabilization/solidification --- strontium --- leaching --- membrane technologies --- biofouling --- composite membranes --- polymer blending --- wastewater treatment plants --- environmental costs --- PID control --- dynamic assessment of performance --- heavy metals --- hybrid materials --- functionalized --- Schiff base --- lead --- Langmuir and Freundlich --- carbon capture and storage (CCS) --- offshore gas field --- techno-economic analysis --- calcium oxide nanoparticles --- calcination --- blended cement paste --- mix design --- compressive strength --- bulk density --- transition metal dichalcogenides --- liquid exfoliation --- quenching --- waste collection route planning --- traveling salesman problem --- genetic algorithms --- steelmaking --- bentonite --- solid waste management --- sustainable materials --- biomass --- characterization --- lignocellulosic --- bioenergy --- water treatment --- nanomaterials --- functionalization --- lime --- mineral nitrogen --- soil pH --- organic carbon --- microbial biomass --- N2O --- batch pyrolysis --- business model --- South Africa --- waste tyres --- circular economy --- environmental sustainability --- mollusk shell --- porous concrete --- construction --- algal biomass --- gasification --- activation energy distribution --- household solid waste --- metal recovery value --- socio-economic benefits --- waste composition of Karachi-Pakistan --- waste management --- waste recycling --- ash-free coal --- CO2 gasification --- coal structure --- tri-high coal --- nanoparticles --- ZnO --- equilibrium --- kinetic --- thermodynamic --- phosphate --- aqueous solution --- sustainable synthetic slag production --- energy recovery --- metal spheres --- fixed bed regenerator --- waste and energy nexus --- antibiotics --- competitive sorption --- retention/release --- sorbents --- surface-flow constructed wetland --- nitrogen load --- nitrate --- ammonium --- organic nitrogen --- hydraulic load --- hydraulic residence time --- temperature --- denitrification --- biological uptake --- n/a
Choose an application
This book introduces a variety of treatment technologies, such as physical, chemical, and biological methods for the treatment of gas emissions, wastewater, and solid waste. It provides a useful source of information for engineers and specialists, as well as for undergraduate and postgraduate students, in the areas of environmental science and engineering.
adsorption --- chromium --- competition --- fluoride --- soil and water pollution --- municipal solid waste management --- life cycle assessment --- life cycle impacts --- life cycle stages --- eutrophication --- global warming --- human health --- acidification --- Harare --- Zimbabwe --- iron tailings --- ammonium sulfate roasting process --- reaction mechanism --- kinetics --- carbon footprint --- CiteSpace --- a visual analysis --- metronidazole --- porous carbon --- surface modification --- wastewater treatment --- membrane fouling --- molecular composition of foulant --- transparent exopolymer particles (TEP) --- fouling propensities --- waste incineration --- cyclone flue --- gas-solid separation --- numerical simulation --- polysaccharides --- microfiltration process --- calcium ion --- copper adsorption --- magnetized pine needle biochar --- isotherms --- FTIR and XRD studies --- VLE --- CO2 capture --- amine --- DEA-12-PD --- 12-HEPP --- porosity properties --- adsorption capacity --- carbon dioxide storage --- melamine Schiff bases --- surface area --- energy --- antimony --- mineral processing --- potentially toxic elements --- pollution characteristics --- solid waste --- cleaner production --- electronic waste --- recycling --- waste printed circuit boards --- waste EAF slag --- magnesium silicate hydrate --- radioactive waste --- stabilization/solidification --- strontium --- leaching --- membrane technologies --- biofouling --- composite membranes --- polymer blending --- wastewater treatment plants --- environmental costs --- PID control --- dynamic assessment of performance --- heavy metals --- hybrid materials --- functionalized --- Schiff base --- lead --- Langmuir and Freundlich --- carbon capture and storage (CCS) --- offshore gas field --- techno-economic analysis --- calcium oxide nanoparticles --- calcination --- blended cement paste --- mix design --- compressive strength --- bulk density --- transition metal dichalcogenides --- liquid exfoliation --- quenching --- waste collection route planning --- traveling salesman problem --- genetic algorithms --- steelmaking --- bentonite --- solid waste management --- sustainable materials --- biomass --- characterization --- lignocellulosic --- bioenergy --- water treatment --- nanomaterials --- functionalization --- lime --- mineral nitrogen --- soil pH --- organic carbon --- microbial biomass --- N2O --- batch pyrolysis --- business model --- South Africa --- waste tyres --- circular economy --- environmental sustainability --- mollusk shell --- porous concrete --- construction --- algal biomass --- gasification --- activation energy distribution --- household solid waste --- metal recovery value --- socio-economic benefits --- waste composition of Karachi-Pakistan --- waste management --- waste recycling --- ash-free coal --- CO2 gasification --- coal structure --- tri-high coal --- nanoparticles --- ZnO --- equilibrium --- kinetic --- thermodynamic --- phosphate --- aqueous solution --- sustainable synthetic slag production --- energy recovery --- metal spheres --- fixed bed regenerator --- waste and energy nexus --- antibiotics --- competitive sorption --- retention/release --- sorbents --- surface-flow constructed wetland --- nitrogen load --- nitrate --- ammonium --- organic nitrogen --- hydraulic load --- hydraulic residence time --- temperature --- denitrification --- biological uptake --- n/a
Choose an application
This book introduces a variety of treatment technologies, such as physical, chemical, and biological methods for the treatment of gas emissions, wastewater, and solid waste. It provides a useful source of information for engineers and specialists, as well as for undergraduate and postgraduate students, in the areas of environmental science and engineering.
Technology: general issues --- adsorption --- chromium --- competition --- fluoride --- soil and water pollution --- municipal solid waste management --- life cycle assessment --- life cycle impacts --- life cycle stages --- eutrophication --- global warming --- human health --- acidification --- Harare --- Zimbabwe --- iron tailings --- ammonium sulfate roasting process --- reaction mechanism --- kinetics --- carbon footprint --- CiteSpace --- a visual analysis --- metronidazole --- porous carbon --- surface modification --- wastewater treatment --- membrane fouling --- molecular composition of foulant --- transparent exopolymer particles (TEP) --- fouling propensities --- waste incineration --- cyclone flue --- gas-solid separation --- numerical simulation --- polysaccharides --- microfiltration process --- calcium ion --- copper adsorption --- magnetized pine needle biochar --- isotherms --- FTIR and XRD studies --- VLE --- CO2 capture --- amine --- DEA-12-PD --- 12-HEPP --- porosity properties --- adsorption capacity --- carbon dioxide storage --- melamine Schiff bases --- surface area --- energy --- antimony --- mineral processing --- potentially toxic elements --- pollution characteristics --- solid waste --- cleaner production --- electronic waste --- recycling --- waste printed circuit boards --- waste EAF slag --- magnesium silicate hydrate --- radioactive waste --- stabilization/solidification --- strontium --- leaching --- membrane technologies --- biofouling --- composite membranes --- polymer blending --- wastewater treatment plants --- environmental costs --- PID control --- dynamic assessment of performance --- heavy metals --- hybrid materials --- functionalized --- Schiff base --- lead --- Langmuir and Freundlich --- carbon capture and storage (CCS) --- offshore gas field --- techno-economic analysis --- calcium oxide nanoparticles --- calcination --- blended cement paste --- mix design --- compressive strength --- bulk density --- transition metal dichalcogenides --- liquid exfoliation --- quenching --- waste collection route planning --- traveling salesman problem --- genetic algorithms --- steelmaking --- bentonite --- solid waste management --- sustainable materials --- biomass --- characterization --- lignocellulosic --- bioenergy --- water treatment --- nanomaterials --- functionalization --- lime --- mineral nitrogen --- soil pH --- organic carbon --- microbial biomass --- N2O --- batch pyrolysis --- business model --- South Africa --- waste tyres --- circular economy --- environmental sustainability --- mollusk shell --- porous concrete --- construction --- algal biomass --- gasification --- activation energy distribution --- household solid waste --- metal recovery value --- socio-economic benefits --- waste composition of Karachi-Pakistan --- waste management --- waste recycling --- ash-free coal --- CO2 gasification --- coal structure --- tri-high coal --- nanoparticles --- ZnO --- equilibrium --- kinetic --- thermodynamic --- phosphate --- aqueous solution --- sustainable synthetic slag production --- energy recovery --- metal spheres --- fixed bed regenerator --- waste and energy nexus --- antibiotics --- competitive sorption --- retention/release --- sorbents --- surface-flow constructed wetland --- nitrogen load --- nitrate --- ammonium --- organic nitrogen --- hydraulic load --- hydraulic residence time --- temperature --- denitrification --- biological uptake
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