Annual emissions and air-quality impacts of an urban area district-heating system: Boston case study

A district-heating system, based on thermal energy from power plants retrofitted to operate in the cogeneration mode, is expected to improve local air quality. This possibility has been examined by comparing the emissions of five major atmospheric pollutants, i.e., particulates, sulfur oxides, carbo...

Full description

Bibliographic Details
Main Authors: Bernow, S. S., McAnulty, D. R., Buchsbaum, S., Levine, E.
Format: Report
Language:English
Published: Argonne National Laboratory 1980
Subjects:
Air Quality
54 Environmental Sciences
Organic Compounds
Emission
Co-Generation
Dispersions
Massachusetts
Comparative Evaluations
Sols
290800 > Energy Planning & Policy > Heat Utilization > (1980-)
District Heating
Heating
Chalcogenides
Carbon Monoxide
Pollution Sources
North Atlantic Region
North America
Carbon Compounds
Nitrogen Compounds
290300 > Energy Planning & Policy > Environment
Health
& Safety
Heating Systems
Hydrocarbons
Carbon Oxides
Colloids
Aerosols
Sulfur Compounds
Steam Generation
500200 > Environment
Atmospheric > Chemicals Monitoring & Transport > (-1989)
Usa 320603* > Energy Conservation
Consumption
& Utilization > Municipalities & Community Systems > Public Utilities > (1980-)
Oxygen Compounds
Nitrogen Oxides
Power Generation
Sulfur Oxides
Oxides
Environmental Quality
Environmental Impacts
29 Energy Planning
Policy And Economy
32 Energy Conservation
And Utilization
Particles
Urban Areas
Deus
North Atlantic
Online Access:https://doi.org/10.2172/5227005
https://digital.library.unt.edu/ark:/67531/metadc1064530/
_version_ 1821654056906522624
author Bernow, S. S.
McAnulty, D. R.
Buchsbaum, S.
Levine, E.
author_facet Bernow, S. S.
McAnulty, D. R.
Buchsbaum, S.
Levine, E.
author_sort Bernow, S. S.
collection University of North Texas: UNT Digital Library
description A district-heating system, based on thermal energy from power plants retrofitted to operate in the cogeneration mode, is expected to improve local air quality. This possibility has been examined by comparing the emissions of five major atmospheric pollutants, i.e., particulates, sulfur oxides, carbon monoxide, hydrocarbons, and nitrogen oxides, from the existing heating and electric system in the City of Boston with those from a proposed district heating system. Detailed, spatial distribution of existing heating load and fuel mix is developed to specify emissions associated with existing heating systems. Actual electric-power-plant parameters and generation for the base year are specified. Additional plant fuel consumption and emissions resulting from cogeneration operation have been estimated. Six alternative fuel-emissions-control scenarios are considered. The average annual ground-level concentrations of sulfur oxides are calculated using a modified form of the EPA's Climatological Dispersion Model. This report describes the methodology, the results and their implications, and the areas for extended investigation. The initial results confirm expectations. Average sulfur oxides concentrations at various points within and near the city drop by up to 85% in the existing fuels scenarios and by 95% in scenarios in which different fuels and more-stringent emissions controls at the plants are used. These reductions are relative to concentrations caused by fuel combustion for heating and large commercial and industrial process uses within the city and Boston Edison Co. electric generation.
format Report
genre North Atlantic
genre_facet North Atlantic
id ftunivnotexas:info:ark/67531/metadc1064530
institution Open Polar
language English
op_collection_id ftunivnotexas
op_doi https://doi.org/10.2172/5227005
op_relation rep-no: ANL/CNSV-TM-36
grantno: W-31-109-ENG-38
doi:10.2172/5227005
osti: 5227005
https://digital.library.unt.edu/ark:/67531/metadc1064530/
ark: ark:/67531/metadc1064530
publishDate 1980
publisher Argonne National Laboratory
record_format openpolar
spelling ftunivnotexas:info:ark/67531/metadc1064530 2025-01-16T23:45:23+00:00 Annual emissions and air-quality impacts of an urban area district-heating system: Boston case study Bernow, S. S. McAnulty, D. R. Buchsbaum, S. Levine, E. 1980-02-01 106 pages Text https://doi.org/10.2172/5227005 https://digital.library.unt.edu/ark:/67531/metadc1064530/ English eng Argonne National Laboratory rep-no: ANL/CNSV-TM-36 grantno: W-31-109-ENG-38 doi:10.2172/5227005 osti: 5227005 https://digital.library.unt.edu/ark:/67531/metadc1064530/ ark: ark:/67531/metadc1064530 Air Quality 54 Environmental Sciences Organic Compounds Emission Co-Generation Dispersions Massachusetts Comparative Evaluations Sols 290800 -- Energy Planning & Policy-- Heat Utilization-- (1980-) District Heating Heating Chalcogenides Carbon Monoxide Pollution Sources North Atlantic Region North America Carbon Compounds Nitrogen Compounds 290300 -- Energy Planning & Policy-- Environment Health & Safety Heating Systems Hydrocarbons Carbon Oxides Colloids Aerosols Sulfur Compounds Steam Generation 500200 -- Environment Atmospheric-- Chemicals Monitoring & Transport-- (-1989) Usa 320603* -- Energy Conservation Consumption & Utilization-- Municipalities & Community Systems-- Public Utilities-- (1980-) Oxygen Compounds Nitrogen Oxides Power Generation Sulfur Oxides Oxides Environmental Quality Environmental Impacts 29 Energy Planning Policy And Economy 32 Energy Conservation And Utilization Particles Urban Areas Deus Report 1980 ftunivnotexas https://doi.org/10.2172/5227005 2021-03-27T23:08:03Z A district-heating system, based on thermal energy from power plants retrofitted to operate in the cogeneration mode, is expected to improve local air quality. This possibility has been examined by comparing the emissions of five major atmospheric pollutants, i.e., particulates, sulfur oxides, carbon monoxide, hydrocarbons, and nitrogen oxides, from the existing heating and electric system in the City of Boston with those from a proposed district heating system. Detailed, spatial distribution of existing heating load and fuel mix is developed to specify emissions associated with existing heating systems. Actual electric-power-plant parameters and generation for the base year are specified. Additional plant fuel consumption and emissions resulting from cogeneration operation have been estimated. Six alternative fuel-emissions-control scenarios are considered. The average annual ground-level concentrations of sulfur oxides are calculated using a modified form of the EPA's Climatological Dispersion Model. This report describes the methodology, the results and their implications, and the areas for extended investigation. The initial results confirm expectations. Average sulfur oxides concentrations at various points within and near the city drop by up to 85% in the existing fuels scenarios and by 95% in scenarios in which different fuels and more-stringent emissions controls at the plants are used. These reductions are relative to concentrations caused by fuel combustion for heating and large commercial and industrial process uses within the city and Boston Edison Co. electric generation. Report North Atlantic University of North Texas: UNT Digital Library
spellingShingle Air Quality
54 Environmental Sciences
Organic Compounds
Emission
Co-Generation
Dispersions
Massachusetts
Comparative Evaluations
Sols
290800 -- Energy Planning & Policy-- Heat Utilization-- (1980-)
District Heating
Heating
Chalcogenides
Carbon Monoxide
Pollution Sources
North Atlantic Region
North America
Carbon Compounds
Nitrogen Compounds
290300 -- Energy Planning & Policy-- Environment
Health
& Safety
Heating Systems
Hydrocarbons
Carbon Oxides
Colloids
Aerosols
Sulfur Compounds
Steam Generation
500200 -- Environment
Atmospheric-- Chemicals Monitoring & Transport-- (-1989)
Usa 320603* -- Energy Conservation
Consumption
& Utilization-- Municipalities & Community Systems-- Public Utilities-- (1980-)
Oxygen Compounds
Nitrogen Oxides
Power Generation
Sulfur Oxides
Oxides
Environmental Quality
Environmental Impacts
29 Energy Planning
Policy And Economy
32 Energy Conservation
And Utilization
Particles
Urban Areas
Deus
Bernow, S. S.
McAnulty, D. R.
Buchsbaum, S.
Levine, E.
Annual emissions and air-quality impacts of an urban area district-heating system: Boston case study
title Annual emissions and air-quality impacts of an urban area district-heating system: Boston case study
title_full Annual emissions and air-quality impacts of an urban area district-heating system: Boston case study
title_fullStr Annual emissions and air-quality impacts of an urban area district-heating system: Boston case study
title_full_unstemmed Annual emissions and air-quality impacts of an urban area district-heating system: Boston case study
title_short Annual emissions and air-quality impacts of an urban area district-heating system: Boston case study
title_sort annual emissions and air-quality impacts of an urban area district-heating system: boston case study
topic Air Quality
54 Environmental Sciences
Organic Compounds
Emission
Co-Generation
Dispersions
Massachusetts
Comparative Evaluations
Sols
290800 -- Energy Planning & Policy-- Heat Utilization-- (1980-)
District Heating
Heating
Chalcogenides
Carbon Monoxide
Pollution Sources
North Atlantic Region
North America
Carbon Compounds
Nitrogen Compounds
290300 -- Energy Planning & Policy-- Environment
Health
& Safety
Heating Systems
Hydrocarbons
Carbon Oxides
Colloids
Aerosols
Sulfur Compounds
Steam Generation
500200 -- Environment
Atmospheric-- Chemicals Monitoring & Transport-- (-1989)
Usa 320603* -- Energy Conservation
Consumption
& Utilization-- Municipalities & Community Systems-- Public Utilities-- (1980-)
Oxygen Compounds
Nitrogen Oxides
Power Generation
Sulfur Oxides
Oxides
Environmental Quality
Environmental Impacts
29 Energy Planning
Policy And Economy
32 Energy Conservation
And Utilization
Particles
Urban Areas
Deus
topic_facet Air Quality
54 Environmental Sciences
Organic Compounds
Emission
Co-Generation
Dispersions
Massachusetts
Comparative Evaluations
Sols
290800 -- Energy Planning & Policy-- Heat Utilization-- (1980-)
District Heating
Heating
Chalcogenides
Carbon Monoxide
Pollution Sources
North Atlantic Region
North America
Carbon Compounds
Nitrogen Compounds
290300 -- Energy Planning & Policy-- Environment
Health
& Safety
Heating Systems
Hydrocarbons
Carbon Oxides
Colloids
Aerosols
Sulfur Compounds
Steam Generation
500200 -- Environment
Atmospheric-- Chemicals Monitoring & Transport-- (-1989)
Usa 320603* -- Energy Conservation
Consumption
& Utilization-- Municipalities & Community Systems-- Public Utilities-- (1980-)
Oxygen Compounds
Nitrogen Oxides
Power Generation
Sulfur Oxides
Oxides
Environmental Quality
Environmental Impacts
29 Energy Planning
Policy And Economy
32 Energy Conservation
And Utilization
Particles
Urban Areas
Deus
url https://doi.org/10.2172/5227005
https://digital.library.unt.edu/ark:/67531/metadc1064530/

Similar Items