Limiting of SO2 and NO  emission in worldwide coal-power production

Ellison, W.

doi:10.1016/0969-806x(94)00157-f

Cited by 7 publications

(3 citation statements)

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“…Hence, SO 2 removal from the flue gases will become increasingly necessary to meet environmental regulations. 2 Four main technology strategies for SO 2 emissions control have been pursued by the power generation industry:…”

Section: ' Introductionmentioning

confidence: 99%

“…However, fuel switching, cleaning, and/or blending will be insufficient as regulations are made even stricter. Hence, SO 2 removal from the flue gases will become increasingly necessary to meet environmental regulations …”

Section: Introductionmentioning

confidence: 99%

“…Several studies have been conducted that address the control of SO 2 emissions from the power generation sector. Ellison gave a broad overview of SO 2 emission regulation, as well as an overview of the diverse technologies available for the control and/or removal of SO 2 pollutant in coal firing. The logistics and trends in worldwide supply and use of diverse available steam coal resources are reviewed in relation to the need for continuing restraint and reduction in sulfurous emissions.…”

Section: Introductionmentioning

confidence: 99%

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A Multiperiod Mathematical Model for Integrating Planning and SO₂ Mitigation in the Power Generation Sector

Ba-Shammakh

2011

Energy Fuels

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The power generation sector contributes directly to SO 2 emissions, causing economic and environmental damage. These SO 2 emissions come mostly from the combustion of fossil fuels for power generation. A multiperiod mixed-integer nonlinear model for power generation planning with SO 2 consideration is presented in this paper. The objective of the model is to determine the optimal mix of energy supply sources and SO 2 emission mitigation options that meet a specified electricity demand and SO 2 emission targets at minimum cost. The model is written in a general format and it is illustrated in a case study from Ontario Power Generation (OPG), Canada. SO 2 emissions from power generation can be reduced through fuel balancing (which is simply to increase production from non-fossil-fuel power plants and decrease production from fossil-fuel power plants), fuel substitution or the use of low sulfur fuels, and conventional flue gas desulfurization. These options were considered in the model and the results, for the case study, show that if no SO 2 emissions reduction target is imposed, the model does not tend to apply any of the options considered. However, the model recommends building more power plants to meet the electricity demand for the coming 10 years. The electricity cost increases to ∼8.2 cents/kWh in year 2017. For another case study in which different SO 2 reduction targets are considered, the model shows that fuel balancing and fuel switching must be applied immediately in several plants.

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Section: ' Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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A Multiperiod Mathematical Model for Integrating Planning and SO₂ Mitigation in the Power Generation Sector

Ba-Shammakh

2011

Energy Fuels

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Current status of the application of ionizing radiation to environmental protection: III. Sewage sludge, gaseous and solid systems (A review)

Пикaeв

2000

High Energy Chem

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Comparative performance assessment of USC and IGCC power plants integrated with CO2 capture systems

Cau

Tola

Deiana

2014

Fuel

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Limiting of SO2 and NO emission in worldwide coal-power production

Cited by 7 publications

References 0 publications

A Multiperiod Mathematical Model for Integrating Planning and SO₂ Mitigation in the Power Generation Sector

A Multiperiod Mathematical Model for Integrating Planning and SO₂ Mitigation in the Power Generation Sector

Current status of the application of ionizing radiation to environmental protection: III. Sewage sludge, gaseous and solid systems (A review)

Comparative performance assessment of USC and IGCC power plants integrated with CO2 capture systems

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Limiting of SO2 and NO emission in worldwide coal-power production

Cited by 7 publications

References 0 publications

A Multiperiod Mathematical Model for Integrating Planning and SO2 Mitigation in the Power Generation Sector

A Multiperiod Mathematical Model for Integrating Planning and SO2 Mitigation in the Power Generation Sector

Current status of the application of ionizing radiation to environmental protection: III. Sewage sludge, gaseous and solid systems (A review)

Comparative performance assessment of USC and IGCC power plants integrated with CO2 capture systems

Contact Info

Product

Resources

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A Multiperiod Mathematical Model for Integrating Planning and SO₂ Mitigation in the Power Generation Sector

A Multiperiod Mathematical Model for Integrating Planning and SO₂ Mitigation in the Power Generation Sector