Technology of fuel consumption and emission reduction, and enhanced electricity generation using mid-infrared rays – A Laser Additive

Authors

  • Umakanthan

  • Madhu Mathi

  • Umadevi

  • Sivaramakrishnan

DOI:

https://doi.org/10.34257/GJSFRIVOL24IS1PG1

Keywords:

mid-infrared ray – fuels – irradiation- consumption – pollution – reduction – safe – economical – resource saving

Abstract

Efficient utilization of available resources is a promising research direction In-depth studies can provide a unique platform for reducing fuel consumption while simultaneously reducing pollution thereby avoiding environmental pollution and health hazards for this purpose various fuel addictive are being used now A laser additive for liquid and gaseous fuel is yet to be developed In this context we successfully used the 2-6 mid-infrared spectrum as a fuel additive To generate mid-infrared we invented a hand-lit pocket-size mid-infrared generating automizer MIRGA The trial fuels were irradiated with this spectral range which caused chemical changes in the fuels MIRGA irritated gasoline and diesel consumption was reduced by 30-50 and 12-58 respectively Also the emission by 1-62 and 1-68 respectively depending on the engine model The irradiated liquified petroleum gas had extended utility days by 28 - 35 and gasoline power generators showed 28 more electricity generation These results were compared with non-irradiated fuels This technology is safe simple to implement at both the manufacturer and consumer levels and cost-effective This work demonstrates the MIRGA technology as an intriguing playground for revealing the effects of MIR on fuel chemistry and the benefits are discussed here

How to Cite

Umakanthan, Madhu Mathi, Umadevi, & Sivaramakrishnan. (2024). Technology of fuel consumption and emission reduction, and enhanced electricity generation using mid-infrared rays – A Laser Additive. Global Journal of Science Frontier Research, 24(I1), 1–14. https://doi.org/10.34257/GJSFRIVOL24IS1PG1

Technology of fuel consumption and emission reduction, and enhanced electricity  generation using mid-infrared rays – A Laser Additive

Published

2024-02-24