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Generation and characterization of diesel engine combustion emissions from petroleum diesel and soybean biodiesel fuels and application for inhalation exposure studies
Mutlu, E., David Nash, C. King, Todd Krantz, B. Preston, I. Kooter, M. Higuchi, D. DeMarini, Bill Linak, AND Ian Gilmour. Generation and characterization of diesel engine combustion emissions from petroleum diesel and soybean biodiesel fuels and application for inhalation exposure studies. INHALATION TOXICOLOGY. Informa Healthcare USA, New York, NY, 27(11):515-32, (2015).
Biodiesel made from the transesterification of plant- and anmal-derived oils is an important alternative fuel source for diesel engines. Although numerous studies have reported health effects associated with petroleum diesel emissions, information on biodiesel emissions are more limited. To this end, a program at the U.S. EPA assessed health effects of biodiesel emissions in rodent inhalation models. Commercially obtained soybean biodiesel (B100) and a 20% blend with petroleum diesel (B20) were compared to pure petroleum diesel (BO). Rats and mice were exposed independently for 4 h/day, 5 days/week for up to 6 weeks. Exposures were controlled by dilution air to obtain low (50 µg/m(3), medium (150 µg/m(3) and high (500 µg/m(3) diesel particulate mass (PM) concentrations, and compared to filtered air. This article provides details on facilities, fuels, operating conditions, emission factors and physico-chemical characteristics of the emissions used for inhalation exposures and in vitro studies. Initial engine exhaust PM concentrations for the B100 fuel (19.7 ± 0.7 mg/m(3) were 30% lovver than those of the BO fuel (28.0 ± 1.5 mg/m(3). When emissions were diluted with air to control equivalent PM mass concentrations, BO exposures had higher CO and slightly lower NO concentrations than B100. Organic/elemental carbon ratios and oxygenated methyl esters and organic acids were higher for the B100 than BO. Both the BO and B100 fuels produced unimodal-accumulation mode particle size distributions, with BO producing lower concentrations of slightly larger particles. Subsequent papers in this series will describe the effects of these atmospheres on cardiopumonary responses and in vitro genotoxicity studies.
This paper describes the faciity and technology associated with inhalation exposures to biodiesel emissions
Record Details:Record Type: DOCUMENT (JOURNAL/PEER REVIEWED JOURNAL)
Organization:U.S. ENVIRONMENTAL PROTECTION AGENCY
OFFICE OF RESEARCH AND DEVELOPMENT
NATIONAL HEALTH AND ENVIRONMENTAL EFFECTS RESEARCH LABORATORY
ENVIRONMENTAL PUBLIC HEALTH DIVISION
CARDIOPULMONARY AND IMMUNOTOXICOLOGY BRANCH