Viability of Current and Emerging Technologies for Domestic Solid Waste Treatment and Disposal : Implications on Dioxin and Furan Emissions
This study was undertaken to identify and assess the technologies available worldwide for treatment and disposal of municipal solid waste (MSW), and to make a general assessment of the applicability of these technologies to various waste management...
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| Format: | Other Environmental Study |
| Language: | English en_US |
| Published: |
Washington, DC
2013
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| Subjects: | |
| Online Access: | http://documents.worldbank.org/curated/en/2011/05/16426370/viability-current-emerging-technologies-domestic-solid-waste-treatment-disposal-implications-dioxin-furan-emissions http://hdl.handle.net/10986/12803 |
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okr-10986-12803 |
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| recordtype |
oai_dc |
| repository_type |
Digital Repository |
| institution_category |
Foreign Institution |
| institution |
Digital Repositories |
| building |
World Bank Open Knowledge Repository |
| collection |
World Bank |
| language |
English en_US |
| topic |
ABSENCE OF OXYGEN AIR AIR EMISSIONS AIR POLLUTANTS AIR POLLUTION AIR POLLUTION CONTROL AIR SPACE ANAEROBIC DIGESTION ASH ATMOSPHERE BACK YARD BACTERIA BIODEGRADATION BIOGAS BIOGENIC SOURCES BIOLOGICAL DECOMPOSITION BIOLOGICAL PROCESSES BIOREACTOR LANDFILL BOTTOM LINER CARBON CARBON DIOXIDE CARBON DIOXIDE GAS CARBON NEUTRAL CH4 CHEMICAL PROCESS CHEMICALS CLIMATE CLIMATE CHANGE COAL COLLECTED GAS COLLECTED WASTE COLLECTION SYSTEMS COMBUSTION COMBUSTION EMISSIONS COMBUSTION WASTE COMPACTION COMPOST COMPOST MATERIAL COMPOST PRODUCT COMPOST PRODUCTION COMPOSTING COMPOSTING FACILITIES CONSTRUCTION COOLING COVER MATERIAL DIESEL DIESEL FUEL DIOXINS DISPOSAL COSTS DISPOSAL OF WASTE DOMESTIC SOLID WASTE DOMESTIC SOLID WASTE TREATMENT ELECTRIC POWER ELECTRICITY EMISSION EMISSION CONTROLS EMISSION OF METHANE EMISSIONS EMISSIONS OF METHANE ENERGY COSTS ENERGY RECOVERY ENVIRONMENTAL BENEFITS ENVIRONMENTAL CONTROLS ENVIRONMENTAL GROUPS ENVIRONMENTAL MANAGEMENT ENVIRONMENTAL PROTECTION ETHANOL FIRES FOOD WASTE FOSSIL FUEL FOSSIL FUELS FUELS GARBAGE GAS COLLECTION GAS COLLECTION SYSTEM GAS COMBUSTION GAS CONTROL GAS PRODUCTION GASIFICATION GASIFIER GENERATION RATE GHG GLASS GREENHOUSE GREENHOUSE GAS GREENHOUSE GAS ABATEMENT GREENHOUSE GAS EMISSIONS GREENHOUSE GASES HEAT HEAVY EQUIPMENT HEAVY METALS HUMAN HEALTH HYDROGEN HYDROGEN SULFIDE INCOME INTEGRATED SOLID WASTE MANAGEMENT LAND APPLICATION LAND USE LANDFILL LANDFILL CELL LANDFILL CLOSURE LANDFILL CONTAINMENT LANDFILL DESIGN LANDFILL DISPOSAL LANDFILL EMISSIONS LANDFILL FACILITY LANDFILL GAS LANDFILL GAS EMISSIONS LANDFILL LEACHATE LANDFILL OPERATIONS LANDFILL SITE LANDFILL SPACE LANDFILL SURFACE LANDFILL TECHNOLOGY LANDFILL WASTE LANDFILLING LANDFILLS LARGE LANDFILLS LEACHATE LEACHATE COLLECTION LEAKS LIQUID FUELS MERCURY MERCURY EMISSIONS METALS METHANE METHANE GAS METHANE PRODUCTION MOISTURE CONTENT MRF MSW MUNICIPAL SOLID MUNICIPAL SOLID WASTE MUNICIPAL SOLID WASTE MANAGEMENT MUNICIPAL WASTE MUNICIPAL WASTE COLLECTION NUISANCE POTENTIAL ODOR PROBLEMS ODORS OPEN BURNING OPEN DUMPS ORGANIC ACIDS ORGANIC COMPOUNDS ORGANIC MATERIAL ORGANIC MATERIALS ORGANIC MATTER ORGANIC WASTE OXYGEN PARTICULATE PARTICULATE MATTER PASSIVE VENTING PATHOGENS PE PIPING PLANT MATTER PLASTICS POLLUTION CONTROL POST-CLOSURE POST-CLOSURE CARE PYROLYSIS RAIN RAINWATER RDF RECYCLABLE MATERIALS RECYCLING REFUSE RENEWABLE ENERGY RESIDUES RESOURCE RECOVERY RUNOFF SANITARY LANDFILL SANITARY LANDFILLS SCAVENGING SOIL AMENDMENT SOLID WASTE SOLID WASTE GENERATION SOLID WASTE MANAGEMENT STORM WATER STORM WATER DISCHARGE SURFACE WATERS TEMPERATURE TOXIC SUBSTANCES URBAN CENTERS WASTE COMBUSTION WASTE COMPONENTS WASTE COMPOSITION WASTE DECOMPOSITION WASTE DISPOSAL WASTE DIVERSION WASTE GENERATION RATE WASTE MANAGEMENT POLICY WASTE MANAGEMENT PRACTICES WASTE MATERIALS WASTE MINIMIZATION WASTE PREVENTION WASTE TREATMENT TECHNOLOGIES WASTE WATER WASTES WASTEWATER WASTEWATER DISCHARGE WATER CONSUMPTION WELLS WORMS WTE YARD WASTE |
| spellingShingle |
ABSENCE OF OXYGEN AIR AIR EMISSIONS AIR POLLUTANTS AIR POLLUTION AIR POLLUTION CONTROL AIR SPACE ANAEROBIC DIGESTION ASH ATMOSPHERE BACK YARD BACTERIA BIODEGRADATION BIOGAS BIOGENIC SOURCES BIOLOGICAL DECOMPOSITION BIOLOGICAL PROCESSES BIOREACTOR LANDFILL BOTTOM LINER CARBON CARBON DIOXIDE CARBON DIOXIDE GAS CARBON NEUTRAL CH4 CHEMICAL PROCESS CHEMICALS CLIMATE CLIMATE CHANGE COAL COLLECTED GAS COLLECTED WASTE COLLECTION SYSTEMS COMBUSTION COMBUSTION EMISSIONS COMBUSTION WASTE COMPACTION COMPOST COMPOST MATERIAL COMPOST PRODUCT COMPOST PRODUCTION COMPOSTING COMPOSTING FACILITIES CONSTRUCTION COOLING COVER MATERIAL DIESEL DIESEL FUEL DIOXINS DISPOSAL COSTS DISPOSAL OF WASTE DOMESTIC SOLID WASTE DOMESTIC SOLID WASTE TREATMENT ELECTRIC POWER ELECTRICITY EMISSION EMISSION CONTROLS EMISSION OF METHANE EMISSIONS EMISSIONS OF METHANE ENERGY COSTS ENERGY RECOVERY ENVIRONMENTAL BENEFITS ENVIRONMENTAL CONTROLS ENVIRONMENTAL GROUPS ENVIRONMENTAL MANAGEMENT ENVIRONMENTAL PROTECTION ETHANOL FIRES FOOD WASTE FOSSIL FUEL FOSSIL FUELS FUELS GARBAGE GAS COLLECTION GAS COLLECTION SYSTEM GAS COMBUSTION GAS CONTROL GAS PRODUCTION GASIFICATION GASIFIER GENERATION RATE GHG GLASS GREENHOUSE GREENHOUSE GAS GREENHOUSE GAS ABATEMENT GREENHOUSE GAS EMISSIONS GREENHOUSE GASES HEAT HEAVY EQUIPMENT HEAVY METALS HUMAN HEALTH HYDROGEN HYDROGEN SULFIDE INCOME INTEGRATED SOLID WASTE MANAGEMENT LAND APPLICATION LAND USE LANDFILL LANDFILL CELL LANDFILL CLOSURE LANDFILL CONTAINMENT LANDFILL DESIGN LANDFILL DISPOSAL LANDFILL EMISSIONS LANDFILL FACILITY LANDFILL GAS LANDFILL GAS EMISSIONS LANDFILL LEACHATE LANDFILL OPERATIONS LANDFILL SITE LANDFILL SPACE LANDFILL SURFACE LANDFILL TECHNOLOGY LANDFILL WASTE LANDFILLING LANDFILLS LARGE LANDFILLS LEACHATE LEACHATE COLLECTION LEAKS LIQUID FUELS MERCURY MERCURY EMISSIONS METALS METHANE METHANE GAS METHANE PRODUCTION MOISTURE CONTENT MRF MSW MUNICIPAL SOLID MUNICIPAL SOLID WASTE MUNICIPAL SOLID WASTE MANAGEMENT MUNICIPAL WASTE MUNICIPAL WASTE COLLECTION NUISANCE POTENTIAL ODOR PROBLEMS ODORS OPEN BURNING OPEN DUMPS ORGANIC ACIDS ORGANIC COMPOUNDS ORGANIC MATERIAL ORGANIC MATERIALS ORGANIC MATTER ORGANIC WASTE OXYGEN PARTICULATE PARTICULATE MATTER PASSIVE VENTING PATHOGENS PE PIPING PLANT MATTER PLASTICS POLLUTION CONTROL POST-CLOSURE POST-CLOSURE CARE PYROLYSIS RAIN RAINWATER RDF RECYCLABLE MATERIALS RECYCLING REFUSE RENEWABLE ENERGY RESIDUES RESOURCE RECOVERY RUNOFF SANITARY LANDFILL SANITARY LANDFILLS SCAVENGING SOIL AMENDMENT SOLID WASTE SOLID WASTE GENERATION SOLID WASTE MANAGEMENT STORM WATER STORM WATER DISCHARGE SURFACE WATERS TEMPERATURE TOXIC SUBSTANCES URBAN CENTERS WASTE COMBUSTION WASTE COMPONENTS WASTE COMPOSITION WASTE DECOMPOSITION WASTE DISPOSAL WASTE DIVERSION WASTE GENERATION RATE WASTE MANAGEMENT POLICY WASTE MANAGEMENT PRACTICES WASTE MATERIALS WASTE MINIMIZATION WASTE PREVENTION WASTE TREATMENT TECHNOLOGIES WASTE WATER WASTES WASTEWATER WASTEWATER DISCHARGE WATER CONSUMPTION WELLS WORMS WTE YARD WASTE World Bank Viability of Current and Emerging Technologies for Domestic Solid Waste Treatment and Disposal : Implications on Dioxin and Furan Emissions |
| geographic_facet |
Latin America & Caribbean |
| description |
This study was undertaken to identify
and assess the technologies available worldwide for
treatment and disposal of municipal solid waste (MSW), and
to make a general assessment of the applicability of these
technologies to various waste management
'settings' within the Latin American and Caribbean
(LAC) Region. Each technology was evaluated for a number of
key attributes, including demonstrated commercial viability,
economics, institutional factors, sustainability metrics,
and environmental attributes, including emissions of dioxins
and furans. The study focused on the waste treatment
technologies that have been commercially demonstrated
worldwide; however, selected alternative and emerging
technologies were also considered. After profiling the
available waste management technologies, an assessment was
then made of the general applicability of these technologies
to various characteristic settings found within the LAC
region. Technology applicability assessment at specific
locations within the LAC region will require detailed,
site-specific evaluation. Such site specific evaluations of
applicable technologies would be the subject of subsequent studies. |
| format |
Economic & Sector Work :: Other Environmental Study |
| author |
World Bank |
| author_facet |
World Bank |
| author_sort |
World Bank |
| title |
Viability of Current and Emerging Technologies for Domestic Solid Waste Treatment and Disposal : Implications on Dioxin and Furan Emissions |
| title_short |
Viability of Current and Emerging Technologies for Domestic Solid Waste Treatment and Disposal : Implications on Dioxin and Furan Emissions |
| title_full |
Viability of Current and Emerging Technologies for Domestic Solid Waste Treatment and Disposal : Implications on Dioxin and Furan Emissions |
| title_fullStr |
Viability of Current and Emerging Technologies for Domestic Solid Waste Treatment and Disposal : Implications on Dioxin and Furan Emissions |
| title_full_unstemmed |
Viability of Current and Emerging Technologies for Domestic Solid Waste Treatment and Disposal : Implications on Dioxin and Furan Emissions |
| title_sort |
viability of current and emerging technologies for domestic solid waste treatment and disposal : implications on dioxin and furan emissions |
| publisher |
Washington, DC |
| publishDate |
2013 |
| url |
http://documents.worldbank.org/curated/en/2011/05/16426370/viability-current-emerging-technologies-domestic-solid-waste-treatment-disposal-implications-dioxin-furan-emissions http://hdl.handle.net/10986/12803 |
| _version_ |
1764421331403669504 |
| spelling |
okr-10986-128032021-04-23T14:03:04Z Viability of Current and Emerging Technologies for Domestic Solid Waste Treatment and Disposal : Implications on Dioxin and Furan Emissions World Bank ABSENCE OF OXYGEN AIR AIR EMISSIONS AIR POLLUTANTS AIR POLLUTION AIR POLLUTION CONTROL AIR SPACE ANAEROBIC DIGESTION ASH ATMOSPHERE BACK YARD BACTERIA BIODEGRADATION BIOGAS BIOGENIC SOURCES BIOLOGICAL DECOMPOSITION BIOLOGICAL PROCESSES BIOREACTOR LANDFILL BOTTOM LINER CARBON CARBON DIOXIDE CARBON DIOXIDE GAS CARBON NEUTRAL CH4 CHEMICAL PROCESS CHEMICALS CLIMATE CLIMATE CHANGE COAL COLLECTED GAS COLLECTED WASTE COLLECTION SYSTEMS COMBUSTION COMBUSTION EMISSIONS COMBUSTION WASTE COMPACTION COMPOST COMPOST MATERIAL COMPOST PRODUCT COMPOST PRODUCTION COMPOSTING COMPOSTING FACILITIES CONSTRUCTION COOLING COVER MATERIAL DIESEL DIESEL FUEL DIOXINS DISPOSAL COSTS DISPOSAL OF WASTE DOMESTIC SOLID WASTE DOMESTIC SOLID WASTE TREATMENT ELECTRIC POWER ELECTRICITY EMISSION EMISSION CONTROLS EMISSION OF METHANE EMISSIONS EMISSIONS OF METHANE ENERGY COSTS ENERGY RECOVERY ENVIRONMENTAL BENEFITS ENVIRONMENTAL CONTROLS ENVIRONMENTAL GROUPS ENVIRONMENTAL MANAGEMENT ENVIRONMENTAL PROTECTION ETHANOL FIRES FOOD WASTE FOSSIL FUEL FOSSIL FUELS FUELS GARBAGE GAS COLLECTION GAS COLLECTION SYSTEM GAS COMBUSTION GAS CONTROL GAS PRODUCTION GASIFICATION GASIFIER GENERATION RATE GHG GLASS GREENHOUSE GREENHOUSE GAS GREENHOUSE GAS ABATEMENT GREENHOUSE GAS EMISSIONS GREENHOUSE GASES HEAT HEAVY EQUIPMENT HEAVY METALS HUMAN HEALTH HYDROGEN HYDROGEN SULFIDE INCOME INTEGRATED SOLID WASTE MANAGEMENT LAND APPLICATION LAND USE LANDFILL LANDFILL CELL LANDFILL CLOSURE LANDFILL CONTAINMENT LANDFILL DESIGN LANDFILL DISPOSAL LANDFILL EMISSIONS LANDFILL FACILITY LANDFILL GAS LANDFILL GAS EMISSIONS LANDFILL LEACHATE LANDFILL OPERATIONS LANDFILL SITE LANDFILL SPACE LANDFILL SURFACE LANDFILL TECHNOLOGY LANDFILL WASTE LANDFILLING LANDFILLS LARGE LANDFILLS LEACHATE LEACHATE COLLECTION LEAKS LIQUID FUELS MERCURY MERCURY EMISSIONS METALS METHANE METHANE GAS METHANE PRODUCTION MOISTURE CONTENT MRF MSW MUNICIPAL SOLID MUNICIPAL SOLID WASTE MUNICIPAL SOLID WASTE MANAGEMENT MUNICIPAL WASTE MUNICIPAL WASTE COLLECTION NUISANCE POTENTIAL ODOR PROBLEMS ODORS OPEN BURNING OPEN DUMPS ORGANIC ACIDS ORGANIC COMPOUNDS ORGANIC MATERIAL ORGANIC MATERIALS ORGANIC MATTER ORGANIC WASTE OXYGEN PARTICULATE PARTICULATE MATTER PASSIVE VENTING PATHOGENS PE PIPING PLANT MATTER PLASTICS POLLUTION CONTROL POST-CLOSURE POST-CLOSURE CARE PYROLYSIS RAIN RAINWATER RDF RECYCLABLE MATERIALS RECYCLING REFUSE RENEWABLE ENERGY RESIDUES RESOURCE RECOVERY RUNOFF SANITARY LANDFILL SANITARY LANDFILLS SCAVENGING SOIL AMENDMENT SOLID WASTE SOLID WASTE GENERATION SOLID WASTE MANAGEMENT STORM WATER STORM WATER DISCHARGE SURFACE WATERS TEMPERATURE TOXIC SUBSTANCES URBAN CENTERS WASTE COMBUSTION WASTE COMPONENTS WASTE COMPOSITION WASTE DECOMPOSITION WASTE DISPOSAL WASTE DIVERSION WASTE GENERATION RATE WASTE MANAGEMENT POLICY WASTE MANAGEMENT PRACTICES WASTE MATERIALS WASTE MINIMIZATION WASTE PREVENTION WASTE TREATMENT TECHNOLOGIES WASTE WATER WASTES WASTEWATER WASTEWATER DISCHARGE WATER CONSUMPTION WELLS WORMS WTE YARD WASTE This study was undertaken to identify and assess the technologies available worldwide for treatment and disposal of municipal solid waste (MSW), and to make a general assessment of the applicability of these technologies to various waste management 'settings' within the Latin American and Caribbean (LAC) Region. Each technology was evaluated for a number of key attributes, including demonstrated commercial viability, economics, institutional factors, sustainability metrics, and environmental attributes, including emissions of dioxins and furans. The study focused on the waste treatment technologies that have been commercially demonstrated worldwide; however, selected alternative and emerging technologies were also considered. After profiling the available waste management technologies, an assessment was then made of the general applicability of these technologies to various characteristic settings found within the LAC region. Technology applicability assessment at specific locations within the LAC region will require detailed, site-specific evaluation. Such site specific evaluations of applicable technologies would be the subject of subsequent studies. 2013-03-20T22:18:48Z 2013-03-20T22:18:48Z 2011-05 http://documents.worldbank.org/curated/en/2011/05/16426370/viability-current-emerging-technologies-domestic-solid-waste-treatment-disposal-implications-dioxin-furan-emissions http://hdl.handle.net/10986/12803 English en_US CC BY 3.0 IGO http://creativecommons.org/licenses/by/3.0/igo/ World Bank Washington, DC Economic & Sector Work :: Other Environmental Study Economic & Sector Work Latin America & Caribbean |