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Optimization of Biodiesel Transesterification using ANN and Fuzzy Logic
Susarla Venkata Ananta Rama Sastry1, B. Sarva Rao2, G. Ravi Kishor3

1Dr. S.V.A.R. Sastry*, Associate Professor, Chemical Engineering Department, MVGR College of Engineering (A), Vizianagaram, (A.P). India.
2Dr. B. Sarva Rao,  Associate Professor, Chemical Engineering Department, MVGR College of Engineering (A), Vizianagaram, (A.P). India.
3Mr. G. Ravi Kishor,  Assistant Professor, Chemical Engineering Department, MVGR College of Engineering (A), Vizianagaram, (A.P). India.
Manuscript received on November 30, 2018. | Revised Manuscript received on December 22, 2018. | Manuscript published on December 30, 2019. | PP: 718-723 | Volume-9 Issue-2, December, 2019. | Retrieval Number:  E6942068519/2020©BEIESP | DOI: 10.35940/ijeat.E6942.129219
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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: The high energy demand in domestic sector coupled with pollution brought by extensive exploitation of conventional fuels in an industrialized world makes it mandatory to boost renewable energy sources having lesser environmental impact than non-renewable ones. In this regard bio-diesel can be considered as a more reliable resource of energy that can be used readily in the existing engines. Biodiesel is formed by transesterification reaction of alcohol and triglycerides under a catalyst. In this paper, Bio-diesel is produced from karanja (pongamia pinnata) oil in sono reactor at varied methanol-oil ratios and varied catalyst ratios. Yield was found at different molar ratios of methanol, oil (6:1; 4.5:1; 3:1), different KOH concentrations (2.0 wt %; 1.5 wt %; 1.0 wt %) and different times (15 min; 30 min; 45 min; 60 min). The biodiesel thus obtained conformed to ASTM D6751 standards. The optimum conditions of maximum yield are determined at 50o C temperature, 45 min reaction time, 4.5:1 methanol: oil ratio and 1.5% of KOH. The results obtained are well in accord with the literature. Also ultrasonic vibration used for production of biodiesel proves to be promising technique. The biodiesel thus produced is analyzed using various tests to obtain its properties. Further optimization techniques namely Artificial Neural Network and Fuzzy Logic have been applied for modeling the reaction and finding the optimum yield at different conditions. The yield predicted by using ANN and Fuzzy logic was compared with the experimental yield. The ANN and Fuzzy can precisely calculate as per the experimental data with R2 = 0.998 and R2 = 0.995, respectively.
Keywords: ANN, Biodiesel, Fuzzy logic, Karanja, Transesterification.