M. Strosher scite author profile

M. Strosher

5Publications

30Citation Statements Received

0Citation Statements Given

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Direct Measurement of Fugitive Emissions of Hydrocarbons from a Refinery

Chambers¹,

Strosher²,

Wootton³

et al. 2008

Journal of the Air & Waste Management Association

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Refineries are a source of emissions of volatile hydrocarbons that contribute to the formation of smog and ozone. Fugitive emissions of hydrocarbons are difficult to measure and quantify. Currently these emissions are estimated based on standard emission factors for the type and use of equipment installed. Differential absorption light detection and ranging (DIAL) can remotely measure concentration profiles of hydrocarbons in the atmosphere up to several hundred meters from the instrument. When combined with wind speed and direction, downwind vertical DIAL scans can be used to calculate mass fluxes of the measured gas leaving the site. Using a mobile DIAL unit, a survey was completed at a Canadian refinery to quantify fugitive emissions of methane, C 2ϩ hydrocarbons, and benzene and to apportion the hydrocarbon emissions to the various areas of the refinery. Refinery fugitive emissions as measured with DIAL during this demonstration study were 1240 kg/hr of C 2ϩ hydrocarbons, 300 kg/hr of methane, and 5 kg/hr of benzene. Storage tanks accounted for over 50% of the total emissions of C 2ϩ hydrocarbons and benzene. The coker area and cooling towers were also significant sources. The C 2ϩ hydrocarbons emissions measured during the demonstration amounted to 0.17% of the mass of the refinery hydrocarbon throughput for that period. If the same loss were repeated throughout the year, the lost product would represent a value of US$3.1 million/yr (assuming US$40/bbl). The DIAL-measured hourly emissions of C 2ϩ hydrocarbons were 15 times higher than the emission factor estimates and gave a different perspective on which areas of the refinery were the main source of emissions. Methods, such as DIAL, that can directly measure fugitive emissions would improve the effectiveness of efforts to reduce emissions, quantify the reduction in emissions, and improve the accuracy of emissions data that are reported to regulators and the public.

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Ambient air quality in the AOSERP study area, 1977

Strosher¹

1978

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The assimilative capacity of the Athabasca River for organic compounds

Wallis¹,

Baker²,

Peake³

et al. 1980

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Background air quality in the AOSERP study area March 1977 to March 1980

Strosher¹

1981

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Meteorological factors affecting ambient SO2 concentrations near an oil sands extraction plant

Peters¹,

Strosher²

1980

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M. Strosher

Direct Measurement of Fugitive Emissions of Hydrocarbons from a Refinery

Ambient air quality in the AOSERP study area, 1977

The assimilative capacity of the Athabasca River for organic compounds

Background air quality in the AOSERP study area March 1977 to March 1980

Meteorological factors affecting ambient SO2 concentrations near an oil sands extraction plant

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