Aerospace Engineering
Vol. 1 No. 2 (2024): April

Application of UAVs and Remote Sensing Technologies for Atmospheric CO2 Capturing: A Study Application of UAVs and Remote Sensing in CO2 Reductions

Paneru, Biplov (Unknown)
Paneru, Bishwash (Unknown)
Poudyal, Ramhari (Unknown)
Poudyal, Khem (Unknown)



Article Info

Publish Date
30 Apr 2024

Abstract

Human activities are a major contributor to climate change, with rising levels of CO₂ in the atmosphere. To address this essential issue, several carbon capture and sequestration (CCS) methods have been developed. Unmanned Aerial Vehicles (UAVs) and remote sensing technologies are emerging as major improvements to the efficiency and effectiveness of atmospheric carbon capture initiatives. This research examines the use of UAVs and remote sensing technologies to monitor, quantify, and manage atmospheric CO₂ levels. Furthermore, the study explores the broader implications of integrating robotic-drone technology, emphasizing their ability to contribute to a sustainable future. These technologies, which incorporate modern data collection and analysis methodologies, provide promising answers for both climate change mitigation and long-term environmental sustainability.

Copyrights © 2024






Journal Info

Abbrev

aero

Publisher

Subject

Aerospace Engineering Earth & Planetary Sciences Engineering

Description

Aerospace Engineering encompasses a broad range of aspects related to aerospace engineering, including but not limited to aircraft design and construction, space technology, aircraft dynamics and control, propulsion technology, avionics systems, remote sensing technology, and space robotics ...