Journal of
Petroleum Technology and Alternative Fuels

  • Abbreviation: J. Pet. Technol. Altern. Fuels
  • Language: English
  • ISSN: 2360-8560
  • DOI: 10.5897/JPTAF
  • Start Year: 2010
  • Published Articles: 69

Full Length Research Paper

Fatty acid profile and quality parameters of Ceiba pentandra (L.) seed oil: A potential source of biodiesel

Papin Sourou MONTCHO
  • Papin Sourou MONTCHO
  • Laboratory of Study and Research in Applied Chemistry, Polytechnic School of Abomey-Calavi, University of Abomey Calavi, Benin.
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Leopold TCHIAKPE
  • Leopold TCHIAKPE
  • Unité Mixte de Formation Continue en Santé, Faculty of Pharmacy, University of Aix-Marseille, France.
  • Google Scholar
Guevara NONVIHO
  • Guevara NONVIHO
  • Laboratory of Study and Research in Applied Chemistry, Polytechnic School of Abomey-Calavi, University of Abomey Calavi, Benin.
  • Google Scholar
Fifa Theomaine Diane BOTHON
  • Fifa Theomaine Diane BOTHON
  • Laboratory of Study and Research in Applied Chemistry, Polytechnic School of Abomey-Calavi, University of Abomey Calavi, Benin.
  • Google Scholar
Assou SIDOHOUNDE
  • Assou SIDOHOUNDE
  • Laboratory of Study and Research in Applied Chemistry, Polytechnic School of Abomey-Calavi, University of Abomey Calavi, Benin.
  • Google Scholar
Cokou Pascal AGBANGNAN DOSSA
  • Cokou Pascal AGBANGNAN DOSSA
  • Laboratory of Study and Research in Applied Chemistry, Polytechnic School of Abomey-Calavi, University of Abomey Calavi, Benin.
  • Google Scholar
David BESSIERES
  • David BESSIERES
  • CNRS /TOTAL/UNIV PAU & PAYS ADOUR/ E2S UPPA, Laboratory of Complex Fluids and Their Reservoirs-IPRA, UMR5150, 64000, PAU, France.
  • Google Scholar
Anna CHROSTOWSKA
  • Anna CHROSTOWSKA
  • CNRS/ Univ Pau & Pays Adour/ E2S UPPA, Institute of Analytical Sciences and Physicochemistry for Environment and Materials, UMR5254, 64000, Pau, France.
  • Google Scholar
Dominique Codjo Koko SOHOUNHLOUE
  • Dominique Codjo Koko SOHOUNHLOUE
  • Laboratory of Study and Research in Applied Chemistry, Polytechnic School of Abomey-Calavi, University of Abomey Calavi, Benin.
  • Google Scholar


  •  Received: 17 October 2018
  •  Accepted: 29 November 2018
  •  Published: 31 December 2018

References

Abdul M (1998). The effect of biodiesel oxidation on engine performance and emissions, Retrospective Theses and Dissertations. Iowa State University Capstones. 11950. https://lib.dr.iastate.edu/rtd/11950

 

Alabi K A (2013). Analysis of fatty acid composition of Thevetia peruviana and Hura crepitans seed oils using GC-FID. Fountain Journal of Natural and Applied Sciences, 2(2).

 

Asemave K, Ubwa S T, Anhwange B A, Gbaamende A G (2012). Comparative evaluation of some metals in palm oil, groundnut oil and soybean oil from Nigeria. International Journal of Modern Chemistry, 1(1), 28-35.

 

Atabani AE, Silitonga AS, Ong HC, Mahlia TMI, Masjuki HH, Badruddin IA, Fayaz H (2013). Non-edible vegetable oils: a critical evaluation of oil extraction, fatty acid compositions, biodiesel production, characteristics, engine performance and emissions production. Renewable and Sustainable Energy Reviews 18:211-245.
crossref

 

Batel W, Graef M, Mejer G J, Möller R, Schoedder F (1980). Pflanzenöle für die Kraftstoff-und Energieversorgung. Grundlagen der landtechnik 30(2).

 

Bationo BA, Kalinganire A, Bayala J (2012). Potentials of woody species in the practice of conservation agriculture in arid and semi-arid zones of West Africa: Overview of some candidate systems. ICRAF Technical Manual (17).

 

Berry S K (1979). The characteristics of the kapok (Ceiba pentadra, Gaertn.) seed oil. Pertanika 2(1):1-4.

 

Bettahar Z, Cheknane B, Boutemak K (2016). Study of transesterification of a mixture of waste oil for biodiesel production. Renewable and Sustainable Energy Reviews 19(4):605-615.

 

Chaiarrekij S, Apirakchaiskul A, Suvarnakich K, Kiatkamjornwong S (2011). Kapok I: characteristcs of Kapok fiber as a potential pulp source for papermaking. Bio Resources 7(1):0475-0488.

 

Clark SJ, Wagner L, Schrock MD, Piennaar PG (1984). Methyl and ethyl soybean esters as renewable fuels for diesel engines. Journal of the American Oil Chemists Society 61(10):1632-1638.
crossref

 

Dahouenon-Ahoussi E, Djenontin TS, Codjia DR, Tchobo FP, Alitonou AG, Dangou J, Sohounhloue CD (2012). Fruit morphology and some physical and chemical characteristics of oil and oilcake from Irvingia gabonensis (Irvingiaceae). International Journal of Biological and Chemical Sciences 6(5):2263-2273.

 

Djenontin TS (2006). Benin Oilseed Study: Chemical Characteristics, Fractionation and Biocidal Activity; thesis defended on December 15, 2006.

 

Gerhard K, Andrew C, Matheaus T, Ryan W (2003). Cetane numbers of branched and straight-chain fatty esters determined in an ignition quality tester, Fuel 82:971-975.
crossref

 

Goldemberg J (2008). Environmental and ecological dimensions of biofuels. In Proceedings of the conference on the ecological dimensions of biofuels, Washington, DC Vol. 10.

 

Haidara H, Vonna L, Schultz J (1996). Kinetics and thermodynamics of surfactant adsorption at model interfaces: evidence of structural transitions in the adsorbed films. Langmuir 12(13):3351-3355.
crossref

 

Iko W, Eze S, Oscar O (2015). Gas Chromatography Mass Spectrometry of Quassia undulata Seed Oil. Nigerian Journal of Biotechnology 30(1):53-58.
crossref

 

Kaimal TNB, Lakshminarayana G (1970). Fatty acid compositions of lipids isolated from different parts of Ceiba pentandra, Sterculia foetida and Hydnocarpus wightiana. Phytochemistry 9(10):2225-2229.
crossref

 

Khan TY, Atabani AE, Badruddin IA, Ankalgi RF, Khan TM, Badarudin A (2015). Ceiba pentandra, Nigella sativa and their blend as prospective feedstocks for biodiesel. Industrial Crops and Products 65:367-373.
crossref

 

Klopfenstein WE (1982). Estimation of Cetane Index for Esters of Fatty Acids. Journal of the American Oil Chemists Society 59(12):531-533.
crossref

 

Knothe G (2008) "Designer" Biodiesel: Fatty Ester Composition to Improve Fuel Properties. Energy and Fuels 22:1358-1364.
crossref

 

Lepage G, Roy CC (1984). Improved recovery of fatty acid through direct transesterification without prior extraction or purification. Journal of Lipid Research 25:1391-1396.

 

Masood A, Stark KD (2005). Salem N, A simplified and efficient method for the analysis of fatty acid methyl esters suitable for large clinical studies. Journal of Lipid Research 46:2299-2305.
crossref

 

Nonviho G, Paris C, Muniglia L, Sessou P, Agbangnan DCP, Brosse N, Sohounhloue D (2014). Chemical characterization of Lophira lanceolata and Carapa procera seed oils: Analysis of fatty acids, sterols, tocopherols and tocotrienols. Research Journal of Chemical Sciences 4(9):57-62.

 

Oderinde RA, Ajayi IA, Adewuyi A (2009). Characterization of seed and seed oil of Hura crepitans and the kinetics of degradation of the oil during heating. Electron. Journal Environmental Agricultural Food Chemistry 8(3):201-208.

 

Ong LK, Effendi C, Kurniawan A, Lin CX, Zhao XS, Ismadji S (2013). Optimization of catalyst-free production of biodiesel from Ceiba pentandra (kapok) oil with high free fatty acid contents. Energy 57:615-623.
crossref

 

Orwa C, Mutua A, Kindt R, Jamnadass R, Simons A (2009). Agroforestree database: a tree species reference and selection guide version 4.0. World Agroforestry Centre ICRAF, Nairobi, KE.

 

Pawlowski NE, Nixon JE, Sinnhuber RO (1972). Assay of cyclopropenoid lipids by nuclear magnetic resonance. Journal of the American Oil Chemists Society 49(6):387-392.
crossref

 

Perkins EG (1995). Physical Properties of Soybeans and Soybean Products. In Practical Handbook of Soybean Processing and Utilization pp. 29-38.
crossref

 

Sidohounde A, Agbangnan DCP, Nonviho G, Montcho PS, Sohounhloue CKD (2018). Biodiesel potentials of two phenotypes of Cyperus esculentus unconventional oils: Journal of Petroleum Technology and Alternative Fuels 9(1):1-6.

 

Sivakumar P, Sindhanaiselvan S, Gandhi NN, Devi SS, Renganathan S (2013). Optimization and kinetic studies on biodiesel production from underutilized Ceiba pentadraoil. Fuel 103:693-698.
crossref

 

Stauffer E (2005). A review of the analysis of vegetable oil residues from fire debris samples: spontaneous ignition, vegetable oils, and the forensic approach. Journal of Forensic Science 50(5):JFS2004510-10.
crossref

 

Tessi DY, Akouhou GS, Ganglo JC (2012). Structural and ecological characteristics of the populations of Antiaris toxicaria (Pers.) Lesch and Ceiba pentandra (L.) Gaertn in the relict forests of South Benin. International Journal of Biological and Chemical Sciences 6(6):5056-5067.

 

Vaitilingom G (1983). Use of vegetable oils as fuel for diesel engines, Journal of Tropical Agricultural Machinery 82:58-65.

 

Yunus KTM, Atabani AE, Badruddin IA, Badarudin A, Khayoond MS, Tri-wahyonod S (2014). Recent scenario and technologies to utilize non edible oils for biodiesel production. Renewable and Sustainable Energy Reviews 37(0):840-851.

 

Zovi O, Lecamp L, Loutelier‐Bourhis C, Lange CM, Bunel C (2011). Stand reaction of linseed oil. European Journal of lipid Science and Technology 113(5):616-626.
crossref