Airborne Dust Cloud Measurements at the INL National Security Test Range | |
Michael L. Abbott ; Norm Stanley ; Larry Radke ; Charles Smeltzer | |
关键词: S; AIR QUALITY; AIRCRAFT; CLOUDS; CONSULTANTS; DESIGN; DUSTS; ENVIRONMENTAL IMPACTS; FALLOUT; GROUND LEVEL; MONITORS; NATIONAL SECURITY; PARTICULATES; POLLUTANTS; SAND; SOILS; US EPA dust cloud; environmental impact assessment; e; | |
DOI : 10.2172/920410 RP-ID : INL/EXT-07-13173 PID : OSTI ID: 920410 Others : TRN: US200818%%77 |
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学科分类:环境科学(综合) | |
美国|英语 | |
来源: SciTech Connect | |
【 摘 要 】
On July 11, 2007, a surface, high-explosive test (<20,000 lb TNT-equivalent) was carried out at the National Security Test Range (NSTR) on the Idaho National Laboratory (INL) Site. Aircraft-mounted rapid response (1-sec) particulate monitors were used to measure airborne PM-10 concentrations directly in the dust cloud and to develop a PM-10 emission factor that could be used for subsequent tests at the NSTR. The blast produced a mushroom-like dust cloud that rose approximately 2,500â3,000 ft above ground level, which quickly dissipated (within 5 miles of the source). In general, the cloud was smaller and less persistence than expected, or that might occur in other areas, likely due to the coarse sand and subsurface conditions that characterize the immediate NSTR area. Maximum short time-averaged (1-sec) PM-10 concentrations at the center of the cloud immediately after the event reached 421 Âľg m-3 but were rapidly reduced (by atmospheric dispersion and fallout) to near background levels (~10 Âľg m-3) after about 15 minutes. This occurred well within the INL Site boundary, about 8 km (5 miles) from the NSTR source. These findings demonstrate that maximum concentrations in ambient air beyond the INL Site boundary (closest is 11.2 km from NSTR) from these types of tests would be well within the 150 Âľg m-3 24-hour National Ambient Air Quality Standards for PM-10. Aircraft measurements and geostatistical techniques were used to successfully quantify the initial volume (1.64E+9 m3 or 1.64 km3) and mass (250 kg) of the PM-10 dust cloud, and a PM-10 emission factor (20 kg m-3 crater soil volume) was developed for this specific type of event at NSTR. The 250 kg of PM-10 mass estimated from this experiment is almost seven-times higher than the 36 kg estimated for the environmental assessment (DOE-ID 2007) using available Environmental Protection Agency (EPA 1995) emission factors. This experiment demonstrated that advanced aircraft-mounted instruments operated by experienced atmospheric research groups, such as the INL and Airborne Research Consultants LLC team, can safely and effectively assess difficult air pollutant questions at the INL Site and elsewhere that cannot be otherwise answered. This site-specific, measurement-based assessment provides valuable input to stakeholders in judging the risks associated with these types of events and NSTR project staff in the development of future experimental design and environmental impact assessments.
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