Biodiesel Production From Energy Tobacco

Biodiesel Production From Energy Tobacco

<p class="orbitalabstract">The production of biodiesel from energy tobacco as an alternative fuel source is discussed herein. Biodiesel was obtained through the transesterification of tobacco seed oil using CH<sub>3</sub>ONa as an alkaline catalyst. Full factorial design...

Full description

Bibliographic Details
Main Authors: Franccesca Fornasier, Jonathan Fernando Cardona Gomez, Fernando Sansone de Carvalho, Rosana de Cassia de Souza Schneider, Adilson Ben da Costa, Jorge André Ribas Moraes, Carlos Alberto Guevara Bravo
Format: Article
Language:English
Published: Universidade Federal de Mato Grosso do Sul 2018-04-01
Series:Orbital: The Electronic Journal of Chemistry
Subjects:
energy tobacco
factorial planning
fatty acids
biodiesel
catalyst
temperature
Online Access:http://orbital.ufms.br/index.php/Chemistry/article/view/1120
id doaj-5dd827e9b35a46a783d89cbe1e612cca
record_format Article
spelling doaj-5dd827e9b35a46a783d89cbe1e612cca2021-07-07T19:22:38ZengUniversidade Federal de Mato Grosso do SulOrbital: The Electronic Journal of Chemistry1984-64282018-04-0110212313210.17807/orbital.v10i2.1120477Biodiesel Production From Energy TobaccoFranccesca Fornasier0Jonathan Fernando Cardona GomezFernando Sansone de CarvalhoRosana de Cassia de Souza SchneiderAdilson Ben da CostaJorge André Ribas MoraesCarlos Alberto Guevara BravoUNISC<p class="orbitalabstract">The production of biodiesel from energy tobacco as an alternative fuel source is discussed herein. Biodiesel was obtained through the transesterification of tobacco seed oil using CH<sub>3</sub>ONa as an alkaline catalyst. Full factorial design was used in these studies to determine the best operating conditions. The independent variables were oil/methanol molar ratio, temperature and catalyst loading. The tobacco oil was analyzed by gas chromatography, and the fatty acids present in the highest concentrations were linoleic, oleic and palmitic acids, which made up 74.16, 11.80 and 8.62% of the oil, respectively. Some physicochemical characteristics of this oil were determined: acid value 3.7 mg g<sup>-1</sup> KOH, iodine value 144.74 g 10<sup>-2</sup> g <sup>-1</sup> I<sub>2</sub> and saponification index 190.66 mg g<sup>-1</sup> KOH. Subsequently, biodiesel was produced from this oil with a conversion &gt; 97% using the optimized conditions, which were a temperature of 70 °C, an oil/methanol molar ratio of 1: 4 or 1: 8 and a catalyst loading of 2%.</p><p class="orbitalabstract"> </p><p class="orbitalabstract">DOI: <a href="http://dx.doi.org/10.17807/orbital.v10i2.1120">http://dx.doi.org/10.17807/orbital.v10i2.1120</a></p>http://orbital.ufms.br/index.php/Chemistry/article/view/1120energy tobaccofactorial planningfatty acidsbiodieselcatalysttemperature
collection DOAJ
language English
format Article
sources DOAJ
author Franccesca Fornasier
Jonathan Fernando Cardona Gomez
Fernando Sansone de Carvalho
Rosana de Cassia de Souza Schneider
Adilson Ben da Costa
Jorge André Ribas Moraes
Carlos Alberto Guevara Bravo
spellingShingle Franccesca Fornasier
Jonathan Fernando Cardona Gomez
Fernando Sansone de Carvalho
Rosana de Cassia de Souza Schneider
Adilson Ben da Costa
Jorge André Ribas Moraes
Carlos Alberto Guevara Bravo
Biodiesel Production From Energy Tobacco
Orbital: The Electronic Journal of Chemistry
energy tobacco
factorial planning
fatty acids
biodiesel
catalyst
temperature
author_facet Franccesca Fornasier
Jonathan Fernando Cardona Gomez
Fernando Sansone de Carvalho
Rosana de Cassia de Souza Schneider
Adilson Ben da Costa
Jorge André Ribas Moraes
Carlos Alberto Guevara Bravo
author_sort Franccesca Fornasier
title Biodiesel Production From Energy Tobacco
title_short Biodiesel Production From Energy Tobacco
title_full Biodiesel Production From Energy Tobacco
title_fullStr Biodiesel Production From Energy Tobacco
title_full_unstemmed Biodiesel Production From Energy Tobacco
title_sort biodiesel production from energy tobacco
publisher Universidade Federal de Mato Grosso do Sul
series Orbital: The Electronic Journal of Chemistry
issn 1984-6428
publishDate 2018-04-01
description <p class="orbitalabstract">The production of biodiesel from energy tobacco as an alternative fuel source is discussed herein. Biodiesel was obtained through the transesterification of tobacco seed oil using CH<sub>3</sub>ONa as an alkaline catalyst. Full factorial design was used in these studies to determine the best operating conditions. The independent variables were oil/methanol molar ratio, temperature and catalyst loading. The tobacco oil was analyzed by gas chromatography, and the fatty acids present in the highest concentrations were linoleic, oleic and palmitic acids, which made up 74.16, 11.80 and 8.62% of the oil, respectively. Some physicochemical characteristics of this oil were determined: acid value 3.7 mg g<sup>-1</sup> KOH, iodine value 144.74 g 10<sup>-2</sup> g <sup>-1</sup> I<sub>2</sub> and saponification index 190.66 mg g<sup>-1</sup> KOH. Subsequently, biodiesel was produced from this oil with a conversion &gt; 97% using the optimized conditions, which were a temperature of 70 °C, an oil/methanol molar ratio of 1: 4 or 1: 8 and a catalyst loading of 2%.</p><p class="orbitalabstract"> </p><p class="orbitalabstract">DOI: <a href="http://dx.doi.org/10.17807/orbital.v10i2.1120">http://dx.doi.org/10.17807/orbital.v10i2.1120</a></p>
topic energy tobacco
factorial planning
fatty acids
biodiesel
catalyst
temperature
url http://orbital.ufms.br/index.php/Chemistry/article/view/1120
work_keys_str_mv AT franccescafornasier biodieselproductionfromenergytobacco
AT jonathanfernandocardonagomez biodieselproductionfromenergytobacco
AT fernandosansonedecarvalho biodieselproductionfromenergytobacco
AT rosanadecassiadesouzaschneider biodieselproductionfromenergytobacco
AT adilsonbendacosta biodieselproductionfromenergytobacco
AT jorgeandreribasmoraes biodieselproductionfromenergytobacco
AT carlosalbertoguevarabravo biodieselproductionfromenergytobacco
_version_ 1721314649140363264

Similar Items