2017
DOI: 10.1016/j.renene.2016.10.077
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Optimization and kinetics of biodiesel production from Mahua oil using manganese doped zinc oxide nanocatalyst

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Cited by 162 publications
(30 citation statements)
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“…However, Co(II)@chitosan showed a higher biodiesel yield (94.01%), as compared to Cu(II)@chitosan (88.82%) using the optimal reaction conditions. In another work, Jitputti et al 87 Meanwhile, Baskar et al 91 used the Mn-doped ZnO nanomaterial for the conversion of Mahua oil to biodiesel, and observed that the catalyst calcined at 600 C showed the highest biodiesel yield of 97% under the optimum reaction conditions. The kinetic investigation of the reaction revealed that 181.91 kJ mol À1 activation energy is necessary for biodiesel synthesis from Mahua oil utilizing the Mn-doped ZnO catalyst.…”
Section: Base Catalystsmentioning
confidence: 99%
“…However, Co(II)@chitosan showed a higher biodiesel yield (94.01%), as compared to Cu(II)@chitosan (88.82%) using the optimal reaction conditions. In another work, Jitputti et al 87 Meanwhile, Baskar et al 91 used the Mn-doped ZnO nanomaterial for the conversion of Mahua oil to biodiesel, and observed that the catalyst calcined at 600 C showed the highest biodiesel yield of 97% under the optimum reaction conditions. The kinetic investigation of the reaction revealed that 181.91 kJ mol À1 activation energy is necessary for biodiesel synthesis from Mahua oil utilizing the Mn-doped ZnO catalyst.…”
Section: Base Catalystsmentioning
confidence: 99%
“…Baskar et al developed manganese-doped zinc oxide, which was used as a heterogeneous catalyst for the production of biodiesel from Mahua oil. The 8% (w/v) catalyst concentration, 1%:7% (v/v) oil-to-methanol ratio, 50 min of reaction time, and 323.15 K reaction temperature were found to be the optimum process conditions for a maximum biodiesel yield of 97% [78]. The same research group also investigated heterogeneous Ni-doped ZnO nanocatalyst for biodiesel production from castor oil with high FFA.…”
Section: Zno-based Catalystsmentioning
confidence: 98%
“…Meanwhile, Baskar et al 91 used Mn-doped ZnO nanomaterial for the conversion of Mahua oil to biodiesel and observed that catalyst calcined at 600 °C showed highest biodiesel yield of 97 % under the optimum reaction conditions. The kinetic investigation of the reaction revealed that 181.91 kJ/mol activation energy is necessary for biodiesel synthesis from Mahua oil utilizing Mn-doped ZnO catalyst.…”
Section: Transition Metal Oxidesmentioning
confidence: 99%