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A Response Surface Methodology to Optimize the Vield of Alkyd Resin from Jatropha (Jatropha Curcas) and Sesame (Sesamum İndicum) Seed Oils Using CaCO3 as Catalyst

Year 2022, Volume: 17 Issue: 2, 475 - 488, 30.09.2022
https://doi.org/10.55525/tjst.1090577

Abstract

The low-cost feedstocks such as sesame (sesamum indicum) and jatropha (jatropha curcas) seed oils were utilized to optimize the yield of alkyd resins. The experimentally selected input factors ranges in the molar ratios of oil:glycerol (0.3 – 1), phythalic anhydride: glycerol (1 – 3), and catalyst (0.5–1.5 wt. %) for optimization were established using the response surface methodology (RSM) of Box Behken model to improve the alkyd resin yield factors. The optimization solution utilizing CaCO3 catalysts, and a combination of other process factors evaluated, as well as the corresponding desirability functions, was found using analysis of variance (ANOVA) results for refined sesame alkyd resin (RSAR) and refined jatropha alkyd resin (RJAR). The RSAR optimization using a CaCO3 concentration of 1.5 wt. % at a molar ratios of oil:glycerol (1.0:1.0) and phythalic anhydride:glycerol (3.0:1.0), while the RJAR at a similar catalyst concentration of 1.5 wt. %, molar ratio of oil:glycerol (1.0:1.0), and phythalic anhydride:glycrol (2.8:1.0) were observed for the alkyd resin optimization for the two processes. At these reaction conditions, the predicted and experimental biodiesel yield were 48.26 % and 47.29 % for RSAR and 62.07 % and 61.61 % for RJAR, respectively which shows less than 0.5% variations in both cases.

References

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  • [2] Boruah M, Gogoi P, Adhikari B, Dolui S. Preparation and characterization of Jatropha curcas oil based alkyd resin suitable for surface coating. Progress in Organic Coatings. 2012; 74; 596-602
  • [3] Gogte B, Dabhade S. Alkyd Based on Non Edible Oils Karanja Oil (Pongamia glabra) Paint india. 1977; 27; 17
  • [4] Gogte B, Sarwadekar V. Fractionation of Rice Bran Oil, Paint india, 1996; 469(9); 31-34.
  • [5] Aigbodion A, Okieimen F. Utilization of malenizedrubber seed oil and its alkyd resin as binders in water-borne coatings. Progress in Organic Coatings 2003; 46; 28-31.
  • [6] Aigbodion A, Pillai C; Bakare I, Yahaya L. Effect of modification with cardonol-formaldehyde resin on the quality of rubber seed oil and its alkyds as binders in surface coating. Paintindia. 2001; 29; 39-42
  • [7] Hlaing N, Mya O. Manufacture of Alkyd Resin from Castor Oil. World Academy of Science and Engineering and Technology. 2008; 24; 115-161.
  • [8] Ikhuoria E, Maliki M, Okieimen F. Aigbodion A. Obazee, E.; Bakare, I., Synthesis and characterization of chlorinated rubber seed oil alkyd resins. Progress in Organic Coatings 2007; 59; 134-137.
  • [9] Muturi-Mwangi P, Dirlikov S, Gitu P. Vernonia and Epoxidizes Linseed and Soyabean Oil as Low Yellowing Diluents in Alkyd Coatings. Chemical Abstract. 1994; 122; 216635.
  • [10] Igwe I, Ogbobe O. Studies on the alcoholysis of some seed oils. Journal of Applied Polymer Science, 2000; 75; 1441.
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  • [15] Montgomery D, Runger G. Applied statistics and probability for engineers. John Wiley and Sons, Inc., 2011, 768.
  • [16] Olaoluwa R.O, Abolanle S.A, John A. O. O, Efere M. O, Olatunji S. O, Adedayo M. S, Muib A. A, Oyedare M. A. Refining, Toxicology Study and Biodiesel Potentials of Used Vegetable Oils. American Journal of Food Science and Technolog 2017; 5(3); 78-88.
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  • [20] Beg M. D, Islam M. R, Ahmed B, Yunus R. M, Abdullah A. Optimization of reaction parameters of esterification on the synthesis of palm oil-based alkyds using response surface methods. The 6th Global Conference on Polymer and Composite Materials Malaysia: Materials Science and Engineering. 2019, 634
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  • [23] Aghaie H, Ilkani A, Sadat C. S. Utilization of Soyabean Fatty Acid for Synthesis ofg Alkyd Resin and Comparation of Properties with Other Vegetables Oils. Department of Chemistry, Science and Research Branch, Islamic Azad University, Tehran, Iran, 2012, 1-5.
  • [24] Kyenge B, Anhwange B, Ageh J, Igbum G. Comparative analysis of soyabean seed oil modified alkyd resin and epoxidized soyabean seed oil modified alkyd resin. International Journal of Modern Organic Chemistry, 2012, 12, 66-71.
  • [25] Ibrahim K. A, Abu-sbeih K. A, Al-Trawneh I, Bourghli L. Preparation and Characterization of Alkyd Resins of Jordan Valley Tomato Oil. Journal of Polymers and the Environment, 2014, 22, 4, 553–558.
  • [26] Sujata B, Biswajit N, Bidangshri B, Bipul D, Pankaj S, Khemnath P, Sanjay B. Biodiesel production from mixed oils: A sustainable approach towards industrial biofuel production, Chemical Engineering Journal Advances, 2022; 10; 100284.
  • [27] Patil P.D, Deng S. Optimization of biodiesel production from edible and nonedible vegetable oils. Fuel, 2009; 88; 6-1302.
  • [28] Patil C.K, Jung D.W, Jirimali H.D, Baik J.H, Gite V.V, Hong S.C. Non-edible vegetable oil-based polyols in anticorrosive and antimicrobial polyurethane coatings. Polymers 2021; 13; 3149
  • [29] Dubovik N.S, Matyas D.S, Dubovik, S.A, Lyubushkin, R.A. Method for controlling reaction mass parameters during the synthesis of alkyd resins, Journal of Physics, 2021: Conf Ser. 1926 012009
  • [30] Beg M.D.H, Islam M.R, Ahmed B, Yunus R.M, Abdullah A. Optimization of reaction parameters of esterification on the synthesis of palm oil-based alkyds using response surface methods. Materials Science and Engineering, 2019; 634, Conf. Ser.634 012038
  • [31] Ezeugo, J. O. Optimization of polycondensation process of alkyd resin synthesis from modified Picralima nitida seed oil suitable for surface coating of metal. World Scientific News, 2019; 62-90.
  • [32] Ifijen I.H, Maliki M, Odiachi I.J, Aghedo O.N, Ohiocheoya E.B. Review on Solvents Based Alkyd Resins and Water Borne Alkyd Resins: Impacts of Modification on Their Coating Properties Chemistry Africa, 2022, 1 - 15.
  • [33] Ikhuoria E, Aigbodion A, Okieimen F. Enhancing the quality of alkyd resins using methyl esters of rubber seed oil Tropical Journal of Pharmaceutical Research, 2004, 301, 311-317.
  • [34] Leevijit T, Prateepchaikul G, Maliwan K, Mompiboon P, Okaew S, Eiadtrong S. Production, properties, and utilization of degummed/esterified mixed crude palm oil-diesel blends in an automotive engine without preheating. Fuel, 2016, 182.
  • [35] Oladipo G, Ighodalo C, Eromosele I, Folarin O. Formation and characterization of paint based on alkyd resin derivative of Ximeniaamericana(wild olive) seed oil. Environment and Natural Resources Research, 2013; 3; 113-116.
Year 2022, Volume: 17 Issue: 2, 475 - 488, 30.09.2022
https://doi.org/10.55525/tjst.1090577

Abstract

References

  • [1] Aigbodion A, Okiemen F, Obazee E, Bakare I. O. Formation and Characterization of Paint Based on Alkyd Resin Derivative of Ximenia americana (Wild Olive) Seed Oil. Progress in Organic Coatings. 2003; 46; 28-3
  • [2] Boruah M, Gogoi P, Adhikari B, Dolui S. Preparation and characterization of Jatropha curcas oil based alkyd resin suitable for surface coating. Progress in Organic Coatings. 2012; 74; 596-602
  • [3] Gogte B, Dabhade S. Alkyd Based on Non Edible Oils Karanja Oil (Pongamia glabra) Paint india. 1977; 27; 17
  • [4] Gogte B, Sarwadekar V. Fractionation of Rice Bran Oil, Paint india, 1996; 469(9); 31-34.
  • [5] Aigbodion A, Okieimen F. Utilization of malenizedrubber seed oil and its alkyd resin as binders in water-borne coatings. Progress in Organic Coatings 2003; 46; 28-31.
  • [6] Aigbodion A, Pillai C; Bakare I, Yahaya L. Effect of modification with cardonol-formaldehyde resin on the quality of rubber seed oil and its alkyds as binders in surface coating. Paintindia. 2001; 29; 39-42
  • [7] Hlaing N, Mya O. Manufacture of Alkyd Resin from Castor Oil. World Academy of Science and Engineering and Technology. 2008; 24; 115-161.
  • [8] Ikhuoria E, Maliki M, Okieimen F. Aigbodion A. Obazee, E.; Bakare, I., Synthesis and characterization of chlorinated rubber seed oil alkyd resins. Progress in Organic Coatings 2007; 59; 134-137.
  • [9] Muturi-Mwangi P, Dirlikov S, Gitu P. Vernonia and Epoxidizes Linseed and Soyabean Oil as Low Yellowing Diluents in Alkyd Coatings. Chemical Abstract. 1994; 122; 216635.
  • [10] Igwe I, Ogbobe O. Studies on the alcoholysis of some seed oils. Journal of Applied Polymer Science, 2000; 75; 1441.
  • [11] Shaker N.O, Alian M.A, Elsawy M.M. Preparation, characterizationand evaluation of jojoba seed oil-modified alkyd resins. Pelagia Research Library. 2012; 3(5); 1157-1162
  • [12] Box, G.E.P, Hunter W.G, Hunter J.S. Statistics for Experimenters: An Introduction to Design, Data Analysis and Model Building. John Wiley and Sons Inc., New York, USA, ISBN-13: 9780471093152, 1978, 653
  • [13] Isik O. An integrated probability-based approach for multiple response surface optimizations, Phd. Thesis, Old Dominion University, 2009, 107
  • [14] Basha J. S. et al. Potential of utilization of renewable energy technologies in Gulf countries. Sustainability, 2021; 13(18); 10261.
  • [15] Montgomery D, Runger G. Applied statistics and probability for engineers. John Wiley and Sons, Inc., 2011, 768.
  • [16] Olaoluwa R.O, Abolanle S.A, John A. O. O, Efere M. O, Olatunji S. O, Adedayo M. S, Muib A. A, Oyedare M. A. Refining, Toxicology Study and Biodiesel Potentials of Used Vegetable Oils. American Journal of Food Science and Technolog 2017; 5(3); 78-88.
  • [17] AOCS Official Method Cd 8-53., American Oil Chemists’ Society. Champaign, Illinois, USA. 2006
  • [18] AOAC. Official methods of analysis. Washington D.C., USA. Association of official analytical chemist 19th edition. 2012.
  • [19] Ezugwu M. U. Synthesis and characterization of alkyd resin s from selected indigenous seeds, PhD Thesis, Federal University of Technology OwerrI, 2017
  • [20] Beg M. D, Islam M. R, Ahmed B, Yunus R. M, Abdullah A. Optimization of reaction parameters of esterification on the synthesis of palm oil-based alkyds using response surface methods. The 6th Global Conference on Polymer and Composite Materials Malaysia: Materials Science and Engineering. 2019, 634
  • [21] Box, G.E.: Behnken, D.W. Some new three level designs for the study of quantitative variables, Technometrics, 1950, 2, 455-475 [22] Mujtaba M.A, Masjuki H.H, Kalam M.A, Hwai C. O, Gul M, Farooq M, Manzoore E. Renewable Energy. 2020; 158; 202-214.
  • [23] Aghaie H, Ilkani A, Sadat C. S. Utilization of Soyabean Fatty Acid for Synthesis ofg Alkyd Resin and Comparation of Properties with Other Vegetables Oils. Department of Chemistry, Science and Research Branch, Islamic Azad University, Tehran, Iran, 2012, 1-5.
  • [24] Kyenge B, Anhwange B, Ageh J, Igbum G. Comparative analysis of soyabean seed oil modified alkyd resin and epoxidized soyabean seed oil modified alkyd resin. International Journal of Modern Organic Chemistry, 2012, 12, 66-71.
  • [25] Ibrahim K. A, Abu-sbeih K. A, Al-Trawneh I, Bourghli L. Preparation and Characterization of Alkyd Resins of Jordan Valley Tomato Oil. Journal of Polymers and the Environment, 2014, 22, 4, 553–558.
  • [26] Sujata B, Biswajit N, Bidangshri B, Bipul D, Pankaj S, Khemnath P, Sanjay B. Biodiesel production from mixed oils: A sustainable approach towards industrial biofuel production, Chemical Engineering Journal Advances, 2022; 10; 100284.
  • [27] Patil P.D, Deng S. Optimization of biodiesel production from edible and nonedible vegetable oils. Fuel, 2009; 88; 6-1302.
  • [28] Patil C.K, Jung D.W, Jirimali H.D, Baik J.H, Gite V.V, Hong S.C. Non-edible vegetable oil-based polyols in anticorrosive and antimicrobial polyurethane coatings. Polymers 2021; 13; 3149
  • [29] Dubovik N.S, Matyas D.S, Dubovik, S.A, Lyubushkin, R.A. Method for controlling reaction mass parameters during the synthesis of alkyd resins, Journal of Physics, 2021: Conf Ser. 1926 012009
  • [30] Beg M.D.H, Islam M.R, Ahmed B, Yunus R.M, Abdullah A. Optimization of reaction parameters of esterification on the synthesis of palm oil-based alkyds using response surface methods. Materials Science and Engineering, 2019; 634, Conf. Ser.634 012038
  • [31] Ezeugo, J. O. Optimization of polycondensation process of alkyd resin synthesis from modified Picralima nitida seed oil suitable for surface coating of metal. World Scientific News, 2019; 62-90.
  • [32] Ifijen I.H, Maliki M, Odiachi I.J, Aghedo O.N, Ohiocheoya E.B. Review on Solvents Based Alkyd Resins and Water Borne Alkyd Resins: Impacts of Modification on Their Coating Properties Chemistry Africa, 2022, 1 - 15.
  • [33] Ikhuoria E, Aigbodion A, Okieimen F. Enhancing the quality of alkyd resins using methyl esters of rubber seed oil Tropical Journal of Pharmaceutical Research, 2004, 301, 311-317.
  • [34] Leevijit T, Prateepchaikul G, Maliwan K, Mompiboon P, Okaew S, Eiadtrong S. Production, properties, and utilization of degummed/esterified mixed crude palm oil-diesel blends in an automotive engine without preheating. Fuel, 2016, 182.
  • [35] Oladipo G, Ighodalo C, Eromosele I, Folarin O. Formation and characterization of paint based on alkyd resin derivative of Ximeniaamericana(wild olive) seed oil. Environment and Natural Resources Research, 2013; 3; 113-116.
There are 34 citations in total.

Details

Primary Language English
Journal Section TJST
Authors

Aliru Olajide Mustapha 0000-0002-6071-4342

Simeon Gbenga Oladele

Salihu Folorunsho Adisa

Yemisi Tokunbo Afolabi

Publication Date September 30, 2022
Submission Date March 31, 2022
Published in Issue Year 2022 Volume: 17 Issue: 2

Cite

APA Mustapha, A. O., Oladele, S. G., Adisa, S. F., Afolabi, Y. T. (2022). A Response Surface Methodology to Optimize the Vield of Alkyd Resin from Jatropha (Jatropha Curcas) and Sesame (Sesamum İndicum) Seed Oils Using CaCO3 as Catalyst. Turkish Journal of Science and Technology, 17(2), 475-488. https://doi.org/10.55525/tjst.1090577
AMA Mustapha AO, Oladele SG, Adisa SF, Afolabi YT. A Response Surface Methodology to Optimize the Vield of Alkyd Resin from Jatropha (Jatropha Curcas) and Sesame (Sesamum İndicum) Seed Oils Using CaCO3 as Catalyst. TJST. September 2022;17(2):475-488. doi:10.55525/tjst.1090577
Chicago Mustapha, Aliru Olajide, Simeon Gbenga Oladele, Salihu Folorunsho Adisa, and Yemisi Tokunbo Afolabi. “A Response Surface Methodology to Optimize the Vield of Alkyd Resin from Jatropha (Jatropha Curcas) and Sesame (Sesamum İndicum) Seed Oils Using CaCO3 As Catalyst”. Turkish Journal of Science and Technology 17, no. 2 (September 2022): 475-88. https://doi.org/10.55525/tjst.1090577.
EndNote Mustapha AO, Oladele SG, Adisa SF, Afolabi YT (September 1, 2022) A Response Surface Methodology to Optimize the Vield of Alkyd Resin from Jatropha (Jatropha Curcas) and Sesame (Sesamum İndicum) Seed Oils Using CaCO3 as Catalyst. Turkish Journal of Science and Technology 17 2 475–488.
IEEE A. O. Mustapha, S. G. Oladele, S. F. Adisa, and Y. T. Afolabi, “A Response Surface Methodology to Optimize the Vield of Alkyd Resin from Jatropha (Jatropha Curcas) and Sesame (Sesamum İndicum) Seed Oils Using CaCO3 as Catalyst”, TJST, vol. 17, no. 2, pp. 475–488, 2022, doi: 10.55525/tjst.1090577.
ISNAD Mustapha, Aliru Olajide et al. “A Response Surface Methodology to Optimize the Vield of Alkyd Resin from Jatropha (Jatropha Curcas) and Sesame (Sesamum İndicum) Seed Oils Using CaCO3 As Catalyst”. Turkish Journal of Science and Technology 17/2 (September 2022), 475-488. https://doi.org/10.55525/tjst.1090577.
JAMA Mustapha AO, Oladele SG, Adisa SF, Afolabi YT. A Response Surface Methodology to Optimize the Vield of Alkyd Resin from Jatropha (Jatropha Curcas) and Sesame (Sesamum İndicum) Seed Oils Using CaCO3 as Catalyst. TJST. 2022;17:475–488.
MLA Mustapha, Aliru Olajide et al. “A Response Surface Methodology to Optimize the Vield of Alkyd Resin from Jatropha (Jatropha Curcas) and Sesame (Sesamum İndicum) Seed Oils Using CaCO3 As Catalyst”. Turkish Journal of Science and Technology, vol. 17, no. 2, 2022, pp. 475-88, doi:10.55525/tjst.1090577.
Vancouver Mustapha AO, Oladele SG, Adisa SF, Afolabi YT. A Response Surface Methodology to Optimize the Vield of Alkyd Resin from Jatropha (Jatropha Curcas) and Sesame (Sesamum İndicum) Seed Oils Using CaCO3 as Catalyst. TJST. 2022;17(2):475-88.