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Characterization of pm, pahs and gaseous pollutants emitted from sintering process and electric arc furnace
Tang Wei Chen, Jyh Cherng Chen, Zhen Shu Liu, Kai Hsien Chi,
Moo Been Chang
環境監測技術聯合中心
土木工程學系
環境工程研究所
研究成果
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雜誌貢獻
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期刊論文
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同行評審
6
引文 斯高帕斯(Scopus)
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深入研究「Characterization of pm, pahs and gaseous pollutants emitted from sintering process and electric arc furnace」主題。共同形成了獨特的指紋。
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Keyphrases
Electric Arc Furnace
100%
Gaseous Pollutants
100%
Sintering Process
100%
Nitrogen Oxides
50%
Polycyclic Aromatic Hydrocarbons
50%
Air Pollution Control Devices
50%
Sulfur Oxides
50%
Steelmaking Process
30%
Carbon Dioxide
20%
Particulate Matter
20%
Air Pollutants
20%
Emission Factor
20%
Particulate Matter Concentration
20%
Oxide-oxide
20%
Sulfur-nitrogen
20%
BaPeq
20%
Removal Efficiency
10%
Operating Conditions
10%
Economic Development
10%
Particulate Matter 2.5 (PM2.5)
10%
Flue Gas Desulfurization
10%
Emission Characteristics
10%
Device Characteristics
10%
Steel Industry
10%
Selective Catalytic Reduction
10%
Air Pollutant Concentration
10%
Air Pollutant Emissions
10%
Hydrocarbon Removal
10%
Filterable Particulate Matter
10%
Condensable Particulate Matter
10%
Carbon Monoxide Emission
10%
Total Toxicity
10%
Filterable
10%
Polycyclic Aromatic Carbon
10%
Toxicity Equivalency
10%
Exhaust Volume
10%
Iron Industry
10%
Earth and Planetary Sciences
Gaseous Pollutant
100%
Sintering
100%
Air Pollution
50%
Pollution Control
50%
Nitrogen Oxide
50%
Sulfur Oxide
50%
Polycyclic Aromatic Hydrocarbon
50%
Atmospheric Aerosol
40%
Air Pollutant
40%
Emissions
20%
Carbon Monoxide
20%
Emission Factor
20%
Particular Matter 2.5
10%
Carbon Monoxide Emission
10%
Flue Gas
10%
Desulphurisation
10%
Iron and Steel Industry
10%
Economic developments
10%
Engineering
Electric Arc Furnace
100%
Sintering Process
100%
Aromatics
50%
Air Pollution Control
50%
Pollution Control Device
50%
Atmospheric Aerosol
40%
Steel Making
30%
Emission Factor
20%
Removal Efficiency
10%
Particular Matter 2.5
10%
Selective Catalytic Reduction
10%
Flue Gas Desulfurisation
10%
Process Result
10%
Chemical Engineering
Polycyclic Aromatic Hydrocarbon
100%
Nitrogen Oxide
100%
Atmospheric Aerosol
80%
Particular Matter 2.5
20%
Flue Gas Desulfurisation
20%