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Title: Natural Gas Fugitive Leak Detection Using an Unmanned Aerial Vehicle: Measurement System Description and Mass Balance Approach

Journal Article · · Atmosphere (Basel)
DOI:https://doi.org/10.3390/atmos9100383· OSTI ID:1613645
 [1];  [1];  [2];  [3];  [2];  [3];  [4];  [3]
  1. Univ. of Houston, TX (United States)
  2. Physical Sciences Inc., Andover, MA (United States)
  3. Princeton Univ., NJ (United States)
  4. Heath Consultants Inc., Houston, TX (United States)
+ Show Author Affiliations

Natural gas is an abundant resource across the United States, of which methane (CH4) is the main component. About 2% of extracted CH4 is lost through leaks. The Remote Methane Leak Detector (RMLD)-Unmanned Aerial Vehicle (UAV) system was developed to investigate natural gas fugitive leaks in this study. The system is composed of three major technologies: miniaturized RMLD (mini-RMLD) based on Backscatter Tunable Diode Laser Absorption Spectroscopy (TDLAS), an autonomous quadrotor UAV and simplified quantification and localization algorithms. With a miniaturized, downward-facing RMLD on a small UAV, the system measures the column-integrated CH4 mixing ratio and can semi-autonomously monitor CH4 leakage from sites associated with natural gas production, providing an advanced capability in detecting leaks at hard-to-access sites compared to traditional manual methods. Automated leak characterization algorithms combined with a wireless data link implement real-time leak quantification and reporting. This study placed particular emphasis on the RMLD-UAV system description and the quantification algorithm development based on a mass balance approach. Early data were gathered to test the prototype system and to evaluate the algorithm performance. The quantification algorithm derived in this study tended to underestimate the gas leak rates and yielded unreliable estimations in detecting leaks under 7 × 10-6 m3/s (~1 Standard Cubic Feet per Hour (SCFH)). Zero-leak cases can be ascertained via a skewness indicator, which is unique and promising. The influence of the systematic error was investigated by introducing simulated noises, of which Global Positioning System (GPS) noise presented the greatest impact on leak rate errors. The correlation between estimated leak rates and wind conditions were investigated, and steady winds with higher wind speeds were preferred to get better leak rate estimations, which was accurate to approximately 50% during several field trials. High precision coordinate information from the GPS, accurate wind measurements and preferred wind conditions, appropriate flight strategy and the relative steady survey height of the system are the crucial factors to optimize the leak rate estimations.

Research Organization:
Physical Sciences, Inc., Andover, MA (United States)
Sponsoring Organization:
USDOE Advanced Research Projects Agency - Energy (ARPA-E)
Grant/Contract Number:
AR0000547
OSTI ID:
1613645
Journal Information:
Atmosphere (Basel), Vol. 9, Issue 10; ISSN 2073-4433
Publisher:
MDPICopyright Statement
Country of Publication:
United States
Language:
English
Citation Metrics:
Cited by: 35 works
Citation information provided by
Web of Science

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Cited By (5)

Development of a low-cost UAV-based system for CH 4 monitoring over oil fields journal February 2020
A review of close-range and screening technologies for mitigating fugitive methane emissions in upstream oil and gas journal April 2019
A Near-Field Gaussian Plume Inversion Flux Quantification Method, Applied to Unmanned Aerial Vehicle Sampling journal July 2019
Suitability of a Non-Dispersive Infrared Methane Sensor Package for Flux Quantification Using an Unmanned Aerial Vehicle journal October 2019
Cavity Ring-Down Methane Sensor for Small Unmanned Aerial Systems journal January 2020

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Related Subjects

58 GEOSCIENCES
03 NATURAL GAS
54 ENVIRONMENTAL SCIENCES
meteorology & atmospheric sciences
unmanned aerial vehicles
RMLD-UAV
natural gas
methane
mass flux
leak rate quantification