@article { author = {Atabani, A.E. and Mofijur, M. and Masjuki, H.H. and Badruddin, Irfan A. and Chong, W.T. and Cheng, S.F. and Gouk, S.W.}, title = {A study of production and characterization of Manketti (Ricinodendron rautonemii) methyl ester and its blends as a potential biodiesel feedstock}, journal = {Biofuel Research Journal}, volume = {1}, number = {4}, pages = {139-146}, year = {2014}, publisher = {Alpha Creation Enterprise}, issn = {2292-8782}, eissn = {2292-8782}, doi = {10.18331/BRJ2015.1.4.7}, abstract = {Globally, more than 350 oil-bearing crops are known as potential biodiesel feedstocks. This study reports on production and characterization of Manketti (Ricinodendron rautonemii) methyl ester and its blends with diesel. The effect of Manketti biodiesel (B5) on engine and emissions performance was also investigated. The cloud, pour and cold filter plugging points of the produced biodiesel were measured at 1, 3 and 5 °C, respectively. However, the kinematic viscosity of the biodiesel generated was found to be 8.34 mm2/s which was higher than the limit described by ASTM D6751 and EN 14214. This can be attributed to the high kinematic viscosity of the parent oil (132.75 mm2/s). Nevertheless, blending with diesel improved this attribute. Moreover, it is observed that at all engine speeds, B5 produced lower brake power (1.18%) and higher brake specific fuel consumption (2.26%) compared to B0 (neat diesel). B5 increased the CO and HC emissions by 32.27% and 37.5%, respectively, compared to B0. However, B0 produced 5.26% higher NO emissions than B5.}, keywords = {Biodiesel feedstocks,Manketti oil,Transesterification,Physico-Chemical Properties,Engine Performance}, url = {https://www.biofueljournal.com/article_7355.html}, eprint = {https://www.biofueljournal.com/article_7355_0105758bc59b5a48a23b0cb09ea9a679.pdf} }