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Biodiesel (Mangifera Oil Methyl Ester) Derived from Triglycerides of Mangifera Kernel Seed and Leaves Oil by using Heterogeneous Catalyst
Technical Paper
2015-01-1682
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
The mangifera indica oil is a nonedible vegetable oil, which is available in large quantities in mango cultivating countries including India. Very little research has been done on utilization of oil in general and optimization of transesterification process for biodiesel production. In present study, the transesterification processes with heterogeneous catalyst. The various input parameters like methanol to oil molar ratio (1:08, 1:12 and 1:16), heterogeneous catalyst types (ZnO, MgO and CaO), catalyst concentration (0.5, 1 and 1.5 wt %) and reaction temperature (59, 64 and 69°C) were studied by applying the orthogonal experimental array L9.ANOVA (F-test at P=0.05 contribution of each signal to noise factor) technique was used for optimization with the objective of maximizing the yield of high quality mangifera indica oil biodiesel. The optimum conditions for transesterification process are1:16 methanol to oil molar ratio of, 1.0 wt.% catalyst concentration, CaO as the catalyst type, 69°C reaction temperature. The optimum yield of MOME was 94.6%. The biodiesel produced (MOME) is within the limits prescribed by EN-14214 standard. The density, flash point and cloud and pour points for MOME were higher than those of the mineral diesel. Comparatively, the higher flash point of MOME makes it a safer fuel to handle. The calorific value of MOME was slightly lower than that of diesel. All these tests for the characterization of MOME demonstrated that almost all characteristics of MOME are comparable to those of diesel, and this makes it a potential substitute for diesel fuel in compression ignition engines.
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Jadhav, S. and Tandale, M., "Biodiesel (Mangifera Oil Methyl Ester) Derived from Triglycerides of Mangifera Kernel Seed and Leaves Oil by using Heterogeneous Catalyst," SAE Technical Paper 2015-01-1682, 2015, https://doi.org/10.4271/2015-01-1682.Also In
References
- Ahmad Abbaszaadeh , Ghobadian Barat , Omidkhah Mohammad Reza , and Najafi Gholamhassan 2012 Current Biodiesel Production Technologies: A Comparative Review Energy Conversion and Management 63 138 48
- Bagby M , and Freedman B 1987 Preparation and Properties from Vegetable Oils 66 1372 78
- Mustafa Balat , and Balat Havva 2010 Progress in Biodiesel Processing Applied Energy 87 6 1815 35
- Dorado M.P. , Ballesteros , E. , Almeida , J.A. , Schellert , C. , Lohrlein , H.P. and Krause , R. An alkali-catalyzed transesterification process for high free fatty acid waste oils ASAE 45 2002 525 29
- Barnwal B.K. , and Sharma M.P. 2005 Prospects of Biodiesel Production from Vegetable Oils in India Renewable and Sustainable Energy Reviews 9 4 363 78
- Tapasvi D. , Wisenborn D. and Gustafson C. Process model for biodiesel production from various feedstocks ASAE 48 2005 2215 21
- Kahraman Bozbas 2008 Biodiesel as an Alternative Motor Fuel: Production and Policies in the European Union Renewable and Sustainable Energy Reviews 12 2 542 52
- BP Statistical Review of World Energy June 2012, 2013, 2014 68th
- Government of India Planning Commission 2011 Faster, Sustainable and More Inclusive Growth An Approach to the Twelfth five year plan 2012-17
- Ayhan Demirbas 2009 Progress and Recent Trends in Biodiesel Fuels Energy Conversion and Management 50 1 14 34
- Formo Marvin W Archer-daniels-midland Company 1953 Ester Reactions of Fatty Materials 31 130 548 59
- Hidekl Fukuda , Kond Akihiko , and Noda Hide 2001 Biodiesel Fuel Production by Transesterification 92 5 405 416
- Haas Michael J , McAloon Andrew J , Yee Winnie C , and Foglia Thomas a 2006 A Process Model to Estimate Biodiesel Production Costs Bioresource Technology 97 4 671 78
- Jadhav Sangram D , and Tandale Madhukar S 2014 Production, Performance and Emission Study of Mahua (Madhuca Indica) Methyl Ester in Multicylinder 4-Stroke Petrol Engine 3 1 2582 86
- Filiz Karaosmanog 2004 Optimization of Base-Catalyzed Transesterification 5 2 1888 95
- Kdrbltz W. 1999 Biodiesel production in Europe and North America, An Encourging prospects Renewable Energy 16 1078 83
- Gerhard Knothe 2005 Dependence of Biodiesel Fuel Properties on the Structure of Fatty Acid Alkyl Esters 86 1059 70
- Marchetti J M Ã , Miguel V U , and Errazu A F 2007 Possible Methods for Biodiesel Production 11 1300 1311
- Meher L , Vidyasagar D , and Naik S 2006 Technical Aspects of Biodiesel Production by Transesterification-a Review Renewable and Sustainable Energy Reviews 10 3 248 68
- Raju S. S. , Chand R. , Kumar P. , and Msangi Siwa 2012 Biofuels in India: Potential, Policy and Emerging Paradigms NCAP New Delhi 14 1 18
- Olutoye M a , and Hameed B H 2013 Production of Biodiesel Fuel by Transesterification of Different Vegetable Oils with Methanol Using Al 2 O 3 Modified MgZnO Catalyst Bioresource Technology 132 103 8
- Pinzi S. , Garcia I. L. , Lopez-Gimenez F. J. , de Castro M. D. Luque , Dorado G. , and Dorado M. P. 2009 The Ideal Vegetable Oil-Based Biodiesel Composition: A Review of Social, Economical and Technical Implications Energy & Fuels 23 5 2325 41
- Saravanan N. , Puhan Sukumar , Nagarajan G. , and Vedaraman N. 2010 An Experimental Comparison of Transesterification Process with Different Alcohols Using Acid Catalysts Biomass and Bioenergy 34 7 999 1005
- Sharma Y C , and Singh B 2009 Development of Biodiesel: Current Scenario 13 1646 51
- Griffin Shay E. 1993 Diesel Fuel from Vegetable Oils: Status and Opportunities Biomass and Bioenergy 4 4 227 42
- Pei-jing Shiu , Gunawan Setiyo , Hsieh Wen-hao , Kasim Novy S , and Ju Yi-hsu 2010 Bioresource Technology Biodiesel Production from Rice Bran by a Two-Step in-Situ Process Bioresource Technology 101 3 984 89
- Anjana Srivastava , and Prasad Ram 2000 Triglycerides-Based Diesel Fuels Renewable and Sustainable Energy Reviews 4 2 111 33
- Nakhon Thammarat et al. 2013 Mango Seed Kernel Oil and Its Physicochemical Properties 20 3 1145 49
- Chouhan , a.P. Singh , and Sarma a.K. 2011 Modern Heterogeneous Catalysts for Biodiesel Production: A Comprehensive Review Renewable and Sustainable Energy Reviews 15 9 4378 99
- Le Tu , Okitsu Kenji , Sadanaga Yasuhiro , Takenaka Norimichi , and Maeda Yasuaki 2010 Bioresource Technology A Two-Step Continuous Ultrasound Assisted Production of Biodiesel Fuel from Waste Cooking Oils: A Practical and Economical Approach to Produce High Quality Biodiesel Fuel Bioresource Technology 101 14 5394 5401
- Martino Di Serio , Tesser Riccardo , Pengmei Lu , and Santacesaria Elio 2008 Heterogeneous Catalysts for Biodiesel Production Energy & Fuels 22 1 207 17
- Aminul Islam , Taufiq-Yap Yun Hin , Chu Chi-Ming , Chan Eng-Seng , and Ravindra Pogaku 2013 Studies on Design of Heterogeneous Catalysts for Biodiesel Production Process Safety and Environmental Protection 91 1-2
- Juan a. Melero , Iglesias Jose , and Morales Gabriel 2009 Heterogeneous Acid Catalysts for Biodiesel Production: Current Status and Future Challenges Green Chemistry 11 9 1285
- Sharma , Yogesh C. , Singh Bhaskar , and Korstad John 2011 Latest Developments on Application of Heterogenous Basic Catalysts for an Efficient and Eco Friendly Synthesis of Biodiesel: A Review Fuel 90 4 1309 24
- Statistical Division Food and Agricultural Organisation of United Nations: Economic and social Department UN Food and Agricultural Organisation Corporate statistical Database 2011-12
- Paul Zelenka , Cartellieri Wolfgang , and Herzog Peter 1996 Worldwide Diesel Emission Standards, Current Experiences and Future Needs 10 3 28