Biodiesel production from Stauntonia chinensis seed oil (waste from food processing): Heterogeneous catalysis by modified calcite, biodiesel purification, and fuel properties

Industrial Crops and Products

Volumn 62, Issue , 2014, Pages 8-13

  Wang, Rui ^a   Sun, Lili ^b   Xie, Xiaolin ^a   Ma, Lizhi ^a   Liu, Zhigang ^a   Liu, Xiaoyan ^a   Ji, Ning ^a   Xie, Guofang ^a  

^a GUIYANG UNIVERSITY   (China)

^b PATENT EXAMINATION COOPERATION CENTER OF THE PATENT OFFICE   (China)

Author keywords

Biodiesel; Fuel properties; Heterogeneous catalysis; Modified calcite; Stauntonia chinensis

Indexed keywords

BIODIESEL; CALCITE; CATALYSIS; FEEDSTOCKS; FOOD PROCESSING; FUEL OILS; FUEL PURIFICATION; FUELS; OIL SHALE;

BIODIESEL FEEDSTOCK; BIODIESEL PRODUCTION; FATTY ACID COMPOSITION; FUEL PROPERTIES; PHYSICOCHEMICAL PROPERTY; PROCESSING WASTES; REACTION CONDITIONS; STAUNTONIA CHINENSIS; SEED OIL;

OILS AND FATS; BIODIESEL;

BIOFUEL; CALCITE; CATALYSIS; FATTY ACID; OIL PRODUCTION; SHRUB; VEGETABLE OIL; ESSENTIAL OIL; FOOD PROCESSING; HETEROGENEOUS MEDIUM; PHYSICOCHEMICAL PROPERTY;

STAUNTONIA CHINENSIS;

EID: 84906777947     PISSN: 09266690     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.indcrop.2014.08.002     Document Type: Article

References (22)

1. Atadashi I.M., Aroua M.K., Aziz A.R.A., Sulaiman N.M.N. Refining technologies for the purification of crude biodiesel. Appl. Energ. 2011, 88:4239-4251.
2. Banković-Ilić I.B., Stojković I.J., Stamenković O.S., Veljkovic V.B., Hung Y.-T. Waste animal fats as feedstocks for biodiesel production. Renew. Sust. Energ. Rev. 2014, 32:238-254.
3. Borges M.E., Díaz L. Recent developments on heterogeneous catalysts for biodiesel production by oil esterification and transesterification reactions: a review. Renew. Sust. Energ. Rev. 2012, 16:2839-2849.
4. Cho H.J., Kim J.K., Hong S.W., Yeo Y.K. Development of a novel process for biodiesel production from palm fatty acid distillate (PFAD). Fuel Process. Technol. 2012, 104:271-280.
5. Granados M.L., Alonso D.M., Sádaba I., Mariscal R., Ocón P. Leaching and homogeneous contribution in liquid phase reaction catalysed by solids: the case of triglycerides methanolysis using CaO. Appl. Catal. B: Environ. 2009, 89:265-272.
6. Granados M.L., Poves M.D.Z., Alonso D.M., Mariscal R., Galisteo F.C., Moreno-Tost R., Santamaria J., Fierro J.L.G. Biodiesel from sunflower oil by using activated calcium oxide. Appl. Catal. B: Environ. 2007, 73:317-326.
7. Gregg S.J., Sing K.S.W. Adsorption, Surface Area, and Porosity 1982, Academic Press, London, UK. 2nd ed.
8. Hernández D., Astudillo L., Gutiérrez M., Tenreiro C., Retamal C., Rojas C. Biodiesel production from an industrial residue: Alperujo. Ind. Crop. Prod. 2014, 52:495-498.
9. Kouzu M., Hidaka J.-s. Transesterification of vegetable oil into biodiesel catalyzed by CaO: a review. Fuel 2012, 93:1-12.
10. Mohammadshirazi A., Akram A., Rafiee S., Bagheri Kalhor E. Energy and cost analyses of biodiesel production from waste cooking oil. Renew. Sust. Energ. Rev. 2014, 33:44-49.
11. Pinzi S., Garcia I., Lopez-Gimenez F., Luque de Castro M., Dorado G., Dorado M. The ideal vegetable oil-based biodiesel composition: a review of social, economical and technical implications. Energ. Fuels 2009, 23:2325-2341.
12. Ramírez-Verduzco L.F., Rodríguez-Rodríguez J.E., Jaramillo-Jacob A.d.R. Predicting cetane number, kinematic viscosity, density and higher heating value of biodiesel from its fatty acid methyl ester composition. Fuel 2012, 91:102-111.
13. Ramadhas A.S., Jayaraj S., Muraleedharan C. Biodiesel production from high FFA rubber seed oil. Fuel 2005, 84:335-340.
14. Ramos M.J., Fernández C.M., Casas A., Rodríguez L., Pérez Á. Influence of fatty acid composition of raw materials on biodiesel properties. Bioresour. Technol. 2009, 100:261-268.
15. Reyes-Trejo B., Guerra-Ramírez D., Zuleta-Prada H., Cuevas-Sánchez J.A., Reyes L., Reyes-Chumacero A., Rodríguez-Salazar J.A. Annona diversifolia seed oil as a promising non-edible feedstock for biodiesel production. Ind. Crop. Prod. 2014, 52:400-404.
16. Verziu M., Cojocaru B., Hu J., Richards R., Ciuculescu C., Filip P., Parvulescu V.I. Sunflower and rapeseed oil transesterification to biodiesel over different nanocrystalline MgO catalysts. Green Chem. 2008, 10:373-381.
17. Wang R., Li H., Chang F., Luo J., Hanna M.A., Tan D., Hu D., Zhang Y., Song B., Yang S. A facile, low-cost route for the preparation of calcined porous calcite and dolomite and their application as heterogeneous catalysts in biodiesel production. Catal. Sci. Technol. 2013, 3:2244-2251.
18. Wang R., Song B., Zhou W., Zhang Y., Hu D., Bhadury P.S., Yang S. A facile and feasible method to evaluate and control the quality of Jatropha curcus L. seed oil for biodiesel feedstock: gas chromatographic fingerprint. Appl. Energ. 2011, 88:2064-2070.
19. Winayanuwattikun P., Kaewpiboon C., Piriyakananon K., Tantong S., Thakernkarnkit W., Chulalaksananukul W., Yongvanich T. Potential plant oil feedstock for lipase-catalyzed biodiesel production in Thailand. Biomass Bioenerg. 2008, 32:1279-1286.
20. Yaakob Z., Mohammad M., Alherbawi M., Alam Z., Sopian K. Overview of the production of biodiesel from Waste cooking oil. Renew. Sust. Energ. Rev. 2013, 18:184-193.
21. Yoosuk B., Udomsap P., Puttasawat B. Hydration-dehydration technique for property and activity improvement of calcined natural dolomite in heterogeneous biodiesel production: structural transformation aspect. Appl. Catal. A: Gen. 2011, 395:87-94.
22. Zhu H., Wu Z., Chen Y., Zhang P., Duan S., Liu X., MAO Z. Preparation of biodiesel catalyzed by solid super base of calcium oxide and its refining process. Chin. J. Catal. 2006, 27:391-396.