Karl-Erik Egebäck scite author profile

Karl-Erik Egebäck

4Publications

77Citation Statements Received

53Citation Statements Given

How they've been cited

286

How they cite others

Affiliations

Luleå University of Technology, Swedish Research Council, Studsvik (Sweden)

Publications

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Exhaust emissions from light- and heavy-duty vehicles: chemical composition, impact of exhaust after treatment, and fuel parameters.

Westerholm

Egebäck

1994

Environ Health Perspect

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This paper presents results from the characterization of vehicle exhaust that were obtained primarily within the Swedish Urban Air Project, "Tatortsprojektet." Exhaust emissions from both gasoline-and diesel-fueled vehicles have been investigated with respect to regulated pollutants (carbon monoxide [CO], hydrocarbon [HC], nitrogen oxides [NO ], and particulate), unregulated pollutants, and in bioassay tests (Ames test, TCDD receptor affinity tests). Unregulated pollutants present in both the particle-and the semi-volatile phases were characterized. Special interest was focused on the impact of fuel composition on heavy-duty diesel vehicle emissions. It was confirmed that there exists a quantifiable relationship between diesel-fuel variables of the fuel blends, the chemical composition of the emissions, and their biological effects. According to the results from the multivariate analysis, the most important fuel parameters are: polycyclic aromatic hydrocarbons (PAH) content, 90% distillation point, final boiling point, specific heat, aromatic content, density, and sulfur content. -Environ Health Perspect 102(Suppl 4): 13-23 (1994).

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Identification of polychlorinated dibenzofurans and dioxins in exhausts from cars run on leaded gasoline

et al. 1987

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Emissions of PCDDs and PCDFs in gasoline and diesel fueled cars

et al. 1990

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Exhaust Emissions from Light- and Heavy-Duty Vehicles: Chemical Composition, Impact of Exhaust after Treatment, and Fuel Parameters

Westerholm¹,

Egebäck²

1994

Environmental Health Perspectives

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This paper presents results from the characterization of vehicle exhaust that were obtained primarily within the Swedish Urban Air Project, "Tätortsprojektet." Exhaust emissions from both gasoline- and diesel-fueled vehicles have been investigated with respect to regulated pollutants (carbon monoxide [CO], hydrocarbon [HC], nitrogen oxides [NOx], and particulate), unregulated pollutants, and in bioassay tests (Ames test, TCDD receptor affinity tests). Unregulated pollutants present in both the particle- and the semi-volatile phases were characterized. Special interest was focused on the impact of fuel composition on heavy-duty diesel vehicle emissions. It was confirmed that there exists a quantifiable relationship between diesel-fuel variables of the fuel blends, the chemical composition of the emissions, and their biological effects. According to the results from the multivariate analysis, the most important fuel parameters are: polycyclic aromatic hydrocarbons (PAH) content, 90% distillation point, final boiling point, specific heat, aromatic content, density, and sulfur content.

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