Vol. 22 No. Special Issue 2 (2023): Mapana-Journal of Sciences
Research Articles

Contemporary aspects and Prospects of Pollution-Free Aviation: Concept of Green Skies with Data Analysis

Tiras Jeffrey T
Christ (Deemed-to-be) University
Bio
Sri Partha Sarathi R
Christ (Deemed-to-be) University
Bio
Kukatlapalli Pradeep Kumar
Christ (Deemed-to-be) University
Bio

Published 2023-12-27

Keywords

  • Data Analysis,
  • Sustainable Aviation,
  • Aviation,
  • Pollution Free Aviation

Abstract

This research paper aims to examine the current state and future of sustainable aviation, electric aviation, and pollution-free aviation. The paper will explore the various technologies and innovations that have been developed to reduce the environmental impact of aviation, including fuel-efficient airplane designs, lightweight materials, and cleaner engines. It will also discuss the potential of electric aviation, which offers a promising alternative to traditional fossil-fueled airplanes. The paper will evaluate the benefits and challenges of these sustainable aviation solutions, and offer recommendations for how the aviation industry can continue to reduce its carbon footprint and minimize its impact on the environment. The findings of this research paper will be of interest to anyone who is invested in creating a more sustainable and environmentally friendly aviation sector.

References

  1. Sahoo, Smruti, Xin Zhao, and Konstantinos Kyprianidis. "A review of concepts, benefits, and challenges for future electrical propulsion-based aircraft." Aerospace 7.4 (2020): 44.
  2. Gohardani, Amir S., Georgios Doulgeris, and Riti Singh. "Challenges of future aircraft propulsion: A review of distributed propulsion technology and its potential application for the all-electric commercial aircraft." Progress in Aerospace Sciences 47.5 (2011): 369-391.
  3. Eisenhut, Dominik, et al. "Aircraft requirements for sustainable regional aviation." Aerospace 8.3 (2021): 61.
  4. Jupp, J. A. "The design of future passenger aircraft–the environmental and fuel price challenges." The Aeronautical Journal 120.1223 (2016): 37-60.
  5. Payán‐Sánchez, Belén, et al. "Social embeddedness for sustainability in the aviation sector." Corporate Social Responsibility and Environmental Management 25.4 (2018): 537-553.
  6. Gorden, Autumn N. The Relationship Between Social Networks and Turnover Among Enlisted Aviation Maintenance Personnel at Naval Air Station Lemoore: An Exploratory Study. NAVAL POSTGRADUATE SCHOOL, 2020.
  7. Yusaf, Talal, et al. "Sustainable aviation—Hydrogen is the future." Sustainability 14.1 (2022): 548.
  8. Baroutaji, Ahmad, et al. "Comprehensive investigation on hydrogen and fuel cell technology in the aviation and aerospace sectors." Renewable and sustainable energy reviews 106 (2019): 31-40.
  9. Bullerdiek, Nils, Ulf Neuling, and Martin Kaltschmitt. "A GHG reduction obligation for sustainable aviation fuels (SAF) in the EU and in Germany." Journal of air transport management 92 (2021): 102020.
  10. Shahriar, Md Fahim, and Aaditya Khanal. "The current techno-economic, environmental, policy status and perspectives of sustainable aviation fuel (SAF)." Fuel 325 (2022): 124905.