| Title | Final report: the use of LIDAR to characterize aircraft initial plume characteristics |
|---|---|
| Record ID | 47529 |
| Personal Name Creator |
Wayson, Roger L.; Fleming, Gregg G.; Kim, Brian; Eberhard, Wynn L.; Brewe, W. Alan |
| Source | 35p. in various pagings |
| Corporate Creator | John A. Volpe National Transportation Systems Center (U.S.); United States. National Oceanic and Atmospheric Administration |
| Corporate Contributor |
United States. Department of Transportation. Federal Aviation Administration. Office of Environment and Energy |
| Publisher | John A. Volpe National Transportation Systems Center (U.S.) |
| Publication Date | 20040228 |
| Language | English |
| Abstract | Aircraft emissions are a growing concern for the FAA, airports, and the community. U.S. and international air quality models were previously unable to accurately predict initial plume dispersion and the resulting pollutant concentrations because the characteristics of the initial plume behavior were virtually unknown. These data are needed as input to dispersion models, such as the FAA?s Emissions and Dispersion Modeling System (EDMS), for use in complying with air quality requirements. Since very little research had been done in this area, input values previously used were primarily based on the best available information and good engineering judgment. The Volpe National Transportation Systems Center, FAA?s Office of Environment and Energy (AEE), the National Oceanic and Atmospheric Administration (NOAA), and the Los Angeles International Airport (LAX), teamed up to conduct a study of aerosol plume behavior from jet exhaust using LIght Detection And Ranging or LIDAR. LIDAR has been used for previous measurements to study wing-tip vortices and some pollutant evaluations near airports, and was concluded to be appropriate for this application. In support of AEE, the John A. Volpe National Transportation Systems Center initiated action to conduct the research. Volpe enlisted the assistance of the NOAA, based on their large amount of experience with LIDAR. NOAA has several LIDAR units and the flexibility to reengineer the units and associated software on a project-by-project basis making them the perfect fit for this team. Setup and measurements occurred from May 14 through 24, 2001. The results of the measurements have exceeded expectations allowing quantification of aircraft plume rise and initial dispersion parameters (standard deviations) at this major urban airport. This paper will summarize the methodology, results and conclusion of this project. |
| Rosap ID | dot:9916 |
| Rosap URL | https://rosap.ntl.bts.gov/view/dot/9916 |
| TRT Terms | Laser radar; Plumes; Exhaust gases; Aircraft exhaust gases; Air quality management |
| Classification | NTL - AVIATION - Aviation Energy and Environment; NTL - ENERGY AND ENVIRONMENT - Air Quality; NTL - ENERGY AND ENVIRONMENT - Aviation Energy and Environment |
| Geographical Coverage |
United States |
| Report Number | FAA-AEE-04-01; DTS-34-FA34T-LR3 |
| Availability | Volpe National Transportation Systems Center, Technical Reference Center |
| Resource type | Research Paper |
| URL | https://ntlrepository.blob.core.windows.net/lib/47000/47500/47529/2004-dts-34-fa34t-lr3.pdf |
| Format | |
| Database | NTL Digital Repository |