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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
:
雜誌貢獻
›
期刊論文
›
同行評審
10
引文 斯高帕斯(Scopus)
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Keyphrases
Air Pollutant Concentration
10%
Air Pollutant Emissions
10%
Air Pollutants
20%
Air Pollution Control Devices
50%
BaPeq
20%
Carbon Dioxide
20%
Carbon Monoxide Emission
10%
Condensable Particulate Matter
10%
Device Characteristics
10%
Economic Development
10%
Electric Arc Furnace
100%
Emission Characteristics
10%
Emission Factor
20%
Exhaust Volume
10%
Filterable
10%
Filterable Particulate Matter
10%
Flue Gas Desulfurization
10%
Gaseous Pollutants
100%
Hydrocarbon Removal
10%
Iron Industry
10%
Nitrogen Oxides
50%
Operating Conditions
10%
Oxide-oxide
20%
Particulate Matter
20%
Particulate Matter 2.5 (PM2.5)
10%
Particulate Matter Concentration
20%
Polycyclic Aromatic Carbon
10%
Polycyclic Aromatic Hydrocarbons
50%
Removal Efficiency
10%
Selective Catalytic Reduction
10%
Sintering Process
100%
Steel Industry
10%
Steelmaking Process
30%
Sulfur Oxides
50%
Sulfur-nitrogen
20%
Total Toxicity
10%
Toxicity Equivalency
10%
Earth and Planetary Sciences
Air Pollutant
40%
Air Pollution
50%
Atmospheric Aerosol
40%
Carbon Monoxide
20%
Carbon Monoxide Emission
10%
Desulphurisation
10%
Economic developments
10%
Emission Factor
20%
Emissions
20%
Flue Gas
10%
Gaseous Pollutant
100%
Iron and Steel Industry
10%
Nitrogen Oxide
50%
Particular Matter 2.5
10%
Pollution Control
50%
Polycyclic Aromatic Hydrocarbon
50%
Sintering
100%
Sulfur Oxide
50%
Engineering
Air Pollution Control
50%
Aromatics
50%
Atmospheric Aerosol
40%
Electric Arc Furnace
100%
Emission Factor
20%
Flue Gas Desulfurisation
10%
Iron
10%
Particular Matter 2.5
10%
Pollution Control Device
50%
Process Result
10%
Removal Efficiency
10%
Selective Catalytic Reduction
10%
Sintering Process
100%
Steel Making
30%
Chemical Engineering
Atmospheric Aerosol
80%
Flue Gas Desulfurisation
20%
Nitrogen Oxide
100%
Particular Matter 2.5
20%
Polycyclic Aromatic Hydrocarbon
100%