Developing a Standardized Procedure for the Remote Sensing of Methane Emissions from Shale Gas Well Sites

Akers, Chester

January 2022

No description available.

Chemical Engineering

Remote Sensing

Atmospheric Sciences

Atmosphere

Remote sensing

spectroscopy

modeling

radiative transfer modeling

MODTRAN

greenhouse gas

methane

methane emissions

shale gas

hydraulic fracturing

greenhouse gas emissions

Applications and Development of Intelligent UAVs for the Resource Industries

Bishop, Richard Edwin

21 April 2022

Drones have become an integral part of the digital transformation currently sweeping the mining industry; particularly in surface operations, where they allow operators to model the terrain quickly and effortlessly with GPS localization and advanced mission planning software. Recently, the usage of drones has expanded to underground mines, with advancements in drone autonomy in GPS-denied environments. Developments in lidar technology and Simultaneous Localization and Mapping (SLAM) algorithms are enabling UAVs to function safely underground where they can be used to map workings and digitally reconstruct them into 3D point clouds for a wide variety of applications. Underground mines can be expansive with inaccessible and dangerous areas preventing safe access for traditional inspections, mapping and monitoring. In addition, abandoned mines and historic mines being reopened may lack reliable maps of sufficient detail. The underground mine environment presents a multitude of unique challenges that must be addressed for reliable drone flights. This work covers the development of drones for GPS-denied underground mines, in addition to several case studies where drone-based lidar and photogrammetry were used to capture 3D point clouds of underground mines, and the associated applications of mine digitization, such as geotechnical analysis and pillar strength analysis. This research also features an applied use case of custom drones built to detect methane leaks at natural gas production and distribution sites. / Doctor of Philosophy / Drones have become an integral part of the digital transformation currently sweeping the mining industry; particularly in surface operations, where they allow operators to model the terrain quickly and effortlessly. Recently, the usage of drones has expanded to underground mines, with advancements in drone autonomy. New developments are enabling UAVs to function safely underground where they can be used to digitally reconstruct workings for a wide variety of applications. Underground mines can be expansive with inaccessible and dangerous areas preventing safe access for traditional inspections, mapping and monitoring. In addition, abandoned mines and historic mines being reopened may lack reliable maps of sufficient detail. The underground mine environment presents a multitude of unique challenges that must be addressed for reliable drone flights. This work covers the development of drones for GPS-denied underground mines, in addition to several case studies where drones were used to create 3D models of mines, and the associated applications of mine digitization. This research also features an applied use case of custom drones built to detect methane leaks at natural gas production and distribution sites.

UAV

UAS

drone

GPS-denied

BVLOS

lidar

photogrammetry

remote sensing

underground mining

methane emissions

leak detection

drone-based surveys

mine digitization

point cloud

reality capture

mining engineering

Carbon Dynamics of Subtropical Wetland Communities in South Florida

Villa Betancur, Jorge Andres

06 June 2014

No description available.

Ecology

Environmental Science

Environmental Studies

Environmental Management

Environmental Engineering

Water Resource Management

Natural Resource Management

Hydrology

Climate Change

Biogeochemistry

Wetlands

ecosystem services

carbon sequestration

methane emissions

dissolved organic carbon

climate regulation

nutrient cycling

subtropical wetlands

south Florida

cypress swamp

storm treatment areas

Everglades

hydroperiod