Optimal Configurations for Aerosol Monitoring with Multi-Rotor Small Unmanned Aerial Systems

Abstract

Applicability of aerosol sampling on multi-rotor unmanned aerial systems (UAS) platform was investigated. Multi-rotor UAS have impacts of wind speed, turbulence, and orientation possibly contributing to sampling bias. The SKC IMPACT sampler, Tecora C.A. Th. I .A., and modified three-dimensionally printed Universal Inlet for Airborne-Particle Size-Selective Sampling were selected based on particle size-selectivity and operational independence to wind. Airflow visualizations concluded that below UAS fuselage was optimal sampler placement. Tests were conducted with Arizona Road Dust in a still-air chamber, and aerosolized sugar in a wind tunnel. Inlet mounting was evaluated in, upright, upside-down, and horizontal orientations. Horizontal orientations of all inlets resulted in negative sampling bias compared to upright/upside down positions. Sampling bias of inlets mounted on the UAS were compared with and without motor employment. In wind tunnel tests, the IMPACT sampler averaged lowest count concentration bias while the 3D printed inlet resulted in the largest percent difference. Results suggests, UAS turbulence and low wind speed produced negative sampling bias. The 3D printed inlet was designed with Stokes scaling factor,and compared with the well-characterized IMPACT sampler. Three-dimensional printing bolstered a cost-effective and fast method of inlet design and construction. Iterative designs can optimize aerosol inlets suitable for mounting on multi-rotor UAS.

Document Details

Document Type

Technical Report

Publication Date

Mar 23, 2017

Accession Number

AD1051571

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