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Assessment of Performance and Emission Characteristics of Biodiesel/Graphene/ N-Octanal Blends in Water Cooled Compression Ignition Engine
Kiran Kumar Billa1, P.H.V. Siva Prasad2, M.D.V. Satyasai3, K.K.V.V. Krishna Aditya4

1Dr. Kiran Kumar Billa, Associate Professor & Faculty by Research, Department of Mechanical Engineering, Sasi Institute of Technology and Engineering, Tadepalligudem (A.P.), India.

2P.H.V.Siva Prasad, UG Student, Department of Mechanical Engineering, Sasi Institute of Technology and Engineering, Tadepalligudem (A.P.), India.

3M.D.V.Satyasai, UG Student, Department of Mechanical Engineering, Sasi Institute of Technology and Engineering, Tadepalligudem (A.P.), India.

4K.K.V.V.Krishna Aditya, UG Student, Department of Mechanical Engineering, Sasi Institute of Technology and Engineering, Tadepalligudem (A.P.), India.

Manuscript received on 24 March 2024 | Revised Manuscript received on 06 April 2024 | Manuscript Accepted on 15 April 2024 | Manuscript published on 30 April 2024 | PP: 39-46 | Volume-13 Issue-4, April 2024 | Retrieval Number: 100.1/ijeat.D442613040424 | DOI: 10.35940/ijeat.D4426.13040424

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© The Authors. Blue Eyes Intelligence Engineering and Sciences Publication (BEIESP). This is an open access article under the CC-BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/)

Abstract: Biodiesel and alcohols are only two of the numerous alternative fuels that have found widespread commercialization in the transportation and industrial sectors. Cottonseed oil and n-octanol piqued our curiosity again in this regard. The engines used in the experiments are single-cylinder four-stroke diesel engines with a power output of 1.5 kW. The tests are run at 1500 rpm with varying loads on the diesel, cottonseed oil, and graphene mixtures. i.e., BB1(Diesel 75%+ Cottonseed biodiesel 20%+ n-Octanol 5%), BB2(Diesel 75%+ Cottonseed biodiesel 20%+ n-Octanol 5%+ nanographene 25ppm), BB3(Diesel 75%+ Cottonseed biodiesel 20%+ n-Octanol 5%+nanographene 50ppm), BB4(Diesel 70%+ Cottonseed biodiesel 20%+ n-Octanol 10%), BB5(Diesel 70%+ Cottonseed biodiesel 20%+ n-Octanol 10%+ nanographene 25 ppm), BB1(Diesel 70%+ Cottonseed biodiesel 20%+ n-Octanol 10%+ nanographene 50ppm). The findings indicate that incorporating cottonseed oil leads to an improvement in brake thermal efficiency, along with a decrease in specific fuel consumption and exhaust gas temperature. By increasing the amount of cottonseed oil in the blend, the emission parameters such as CO, CO2, NOx, and O2 are reduced, while HC emissions increase. Adding n-octanol and graphene to the cottonseed oil blend diesel fuel has a comparable impact to adding pure cottonseed oil in different proportions. This leads to an increase in brake thermal efficiency, a decrease in specific fuel consumption, and a reduction in exhaust gas temperature.

Keywords: Cottonseed oil, n-octanol, Graphene, Performance, Emission.
Scope of the Article: Environmental Engineering