Add to ORKGThe purpose of the present study was to reduce the cost and increase the efficiency of biodiesel production by reactive extraction (in situ) of Jatropha seeds. Oil from the seeds was extracted and reacted in a single step. Experimental studies have been carried out to maximize the yield of biodiesel by varying the reaction parameters viz. seed size «0.85 rnrn to >2.46 mrn), seed/solvent ratio (w/w) (I :2.6·-1 :7.8) and catalyst concentration (0.05-0.1 M). Under the optimized conditions: seed size (>2.46 mrn), seed/solvent ratio (w/w) (I :7.8), catalyst concentration (0.1 M) and reaction time I h, approximately 98% conversion to biodiesel was achieved meeting International (ASTM) as well as National (ElS) specifications. The results were sup...
The aim of this research is to study in-situ transesterification technique of jatropha seeds for bio...
The objective of this study was to investigate solvent extraction and in situ transesterification in...
The aim of this research is to study in-situ transesterification technique of jatropha seeds for bio...
Biodiesel can be produced by reactive extraction of jatropha seeds to reduce the cost and processing...
Biodiesel is one among the promising renewable fuels, holding various advantages compared with fossi...
Owing to the non-edible nature and suitability for cultivation in local tropical climate in Malaysia...
Biodiesel was produced from seed oil of Jatropha curcas by in situ acid-catalyzed transesterificatio...
In this study, experimental studies have been carried out to improve the yield of biodiesel by addit...
Jatropha seed is potential to be utilized as raw material for biodiesel production by in situ transe...
In this study, experimental studies have been carried out to improve the yield of biodiesel by addit...
822-828Biodiesel (FAME) was produced from Pongamia seeds (commonly known as Karanja) by reactive-ex...
Biodiesel has received a lot of attention and is gaining popularity as a green alternative to fossil...
235-242Biodiesel is one of the potential global liquid transportation fuels that might replace dies...
127-132There has been greater awareness on biodiesel in developing countries in the recent times an...
The aim of this research is to study in-situ transesterification technique of jatropha seeds for bio...
The objective of this study was to investigate solvent extraction and in situ transesterification in...
The aim of this research is to study in-situ transesterification technique of jatropha seeds for bio...
Biodiesel can be produced by reactive extraction of jatropha seeds to reduce the cost and processing...
Biodiesel is one among the promising renewable fuels, holding various advantages compared with fossi...
Owing to the non-edible nature and suitability for cultivation in local tropical climate in Malaysia...
Biodiesel was produced from seed oil of Jatropha curcas by in situ acid-catalyzed transesterificatio...
In this study, experimental studies have been carried out to improve the yield of biodiesel by addit...
Jatropha seed is potential to be utilized as raw material for biodiesel production by in situ transe...
In this study, experimental studies have been carried out to improve the yield of biodiesel by addit...
822-828Biodiesel (FAME) was produced from Pongamia seeds (commonly known as Karanja) by reactive-ex...
Biodiesel has received a lot of attention and is gaining popularity as a green alternative to fossil...
235-242Biodiesel is one of the potential global liquid transportation fuels that might replace dies...
127-132There has been greater awareness on biodiesel in developing countries in the recent times an...
The aim of this research is to study in-situ transesterification technique of jatropha seeds for bio...
The objective of this study was to investigate solvent extraction and in situ transesterification in...
The aim of this research is to study in-situ transesterification technique of jatropha seeds for bio...