| Title: | Field verification of sound attenuation modeling and air emission testing in support of missile motor disposal activities |
| Author(s): | McFarland MJ; Palmer GR; Rasmussen SL; Kordich MM; Pollet DA; Jensen JA; Lindsay MH; |
| Address: | "Department of Civil and Environmental Engineering, Utah State University, Logan, UT 84322-4110, USA. farlandm@msn.com" |
| DOI: | 10.1080/10473289.2006.10464510 |
| ISSN/ISBN: | 1096-2247 (Print) 1096-2247 (Linking) |
| Abstract: | "The U.S. Department of Defense-approved activities conducted at the Utah Test and Training Range (UTTR) include both operational readiness test firing of intercontinental ballistic missile (ICBM) motors, as well as the destruction of obsolete or otherwise unusable ICBM motors through open burn/open detonation (OB/OD). Within the Utah Division of Air Quality, these activities have been identified as having the potential to generate unacceptable noise levels, as well as significant amounts of volatile organic compounds (VOCs). Hill Air Force Base, UT, has completed a series of field tests at the UTTR in which sound-monitoring surveillance of OB/OD activities was conducted to validate the Sound Intensity Prediction System (SIPS) model. Using results generated by the SIPS model to support the decision to detonate, the UTTR successfully disposed of missile motors having an aggregate net explosive weight (NEW) of 81,374 lb without generating adverse noise levels within populated areas. In conjunction with collecting noise-monitoring data, air emissions were collected to support the development of air emission factors for both static missile motor firings and OB/OD activities. Through the installation of 15 ground-based air samplers, the generation of combustion-fixed gases, VOCs, and chlorides was monitored during the 81,374-lb NEW detonation event. Comparison of field measurements to predictions generated from the US Navy energetic combustion pollutant formation model, POLU4WN, indicated that, as the detonation fire ball expanded, organic compounds, as well as CO, continued to oxidize as the combustion gases mixed with ambient air. VOC analysis of air samplers confirmed the presence of chloromethane, vinyl chloride, benzene, toluene, and 2-methyl-1-propene. Qualitative chloride analysis indicated that gaseous HCl was generated at low concentrations, if at all" |
| Keywords: | "Air Pollutants/*analysis Environmental Monitoring Gases/analysis Hydrocarbons/analysis Hydrochloric Acid/analysis Manufactured Materials Models, Theoretical *Noise *Refuse Disposal Utah;" |
| Notes: | "MedlineMcFarland, Michael J Palmer, Glenn R Rasmussen, Steve L Kordich, Micheal M Pollet, Dean A Jensen, James A Lindsay, Mitchell H eng Research Support, U.S. Gov't, Non-P.H.S. 2006/08/02 J Air Waste Manag Assoc. 2006 Jul; 56(7):1041-51. doi: 10.1080/10473289.2006.10464510" |
