Yield Response of Biodiesel Production from Heterogeneous and Homogeneous Catalysis of Milk Bush Seed (<i>Thevetia peruviana</i>) Oil

Ogunkunle, Oyetola; Oniya, O. O.; Adebayo, Ademola Oyejide

doi:10.1080/23815639.2017.1319772

Cited by 43 publications

(33 citation statements)

References 17 publications

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“…A catalyst plays a major role in transesterification reaction. ey are normally used in order to improve the rate of reaction, yield, and quality of biodiesel produced [18,19]. Transesterification can be performed either by using homogenous, heterogeneous, or enzymatic catalyst [20,21].…”

Section: Introductionmentioning

confidence: 99%

“…Homogeneous catalysts are normally used in commercial processes and exist in the same phase as the reactants. ey are divided into acid catalysts (hydrochloric acid (HCl), sulphuric acid (H 2 SO 4 ), sulfonic acid, and phosphoric acid) or basic catalysts (potassium hydroxide (KOH), potassium methoxide (KOCH 3 ), sodium hydroxide (NaOH), and sodium methoxide (NaOCH 3 ) [19,20]. Homogeneous alkaline catalysts are more efficient as compared to homogenous acid catalysts and are a reason why they are the most preferred in the process of transesterification.…”

Section: Introductionmentioning

confidence: 99%

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Comparison of CaO-NPs and Chicken Eggshell-Derived CaO in the Production of Biodiesel from Schinziophyton rautanenii (Mongongo) Nut Oil

Mmusi

Odisitse

Nareetsile

2021

Journal of Chemistry

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The ever-increasing population growth and economic developments have heightened demand for energy. This has resulted in depletion and ever-rising prices of petroleum diesel, thus increasing environmental degradation. These complications have motivated this study for the search of an alternative eco-friendly and renewable source of energy such as biodiesel. Biodiesel has been found to be a potential alternative fuel for diesel. Biodiesel was produced by transesterification reaction of Schinziophyton rautanenii (mongongo) nut oil in the presence of a base heterogeneous catalyst: CaO derived from eggshell ash and synthesised CaO-nanoparticles (CaO-NPs). The catalysts were calcined at a temperature of 800°C for 3 h and characterized by scanning electron microscope-energy dispersive X-ray (SEM-EDX) where both catalysts showed agglomerated particles and high elemental composition of Ca and O. Powder X-ray diffraction (XRD) showed that CaO was present in both catalysts, and the average crystalline size obtained was 42 and 50 nm for CaO-NPs and eggshell ash, respectively. Fourier transmission infrared (FTIR) spectrometer showed absorption bands of CaO in both catalysts which were at 875 and 713.46 cm−1 for CaO-NPs and eggshell ash, respectively. The analysis of mongongo nut oil (MNO) and mongongo methyl esters (MMEs) was done according to the European biodiesel specification (EN 1421) and American Society for Testing and Materials (ASTM D675). Statistically, there was no significant difference between CaO-NPs and eggshell in terms of optimum yield ( P > 0.05 ) using a sample t-test. However, in terms of catalyst loading, the eggshell was a better catalyst as it required a low catalyst load to obtain an optimum yield of 83% at 6 wt.% compared to CaO-NPs with an optimum yield of 85% at 12 wt.%. The reactions were all performed at constant reaction conditions of 9 : 1 methanol to oil ratio, 3 h reaction time, and 65°C reaction temperature.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Comparison of CaO-NPs and Chicken Eggshell-Derived CaO in the Production of Biodiesel from Schinziophyton rautanenii (Mongongo) Nut Oil

Mmusi

Odisitse

Nareetsile

2021

Journal of Chemistry

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“…On the other hand, there was a slight decrease in WFOME yield (91 %) as the temperature raised to 75 °C while there was a sharp decrease in WFOME yield (73 %) as temperature further raised to 85 °C. this is because higher temperature reduces the availability of methanol due to its evaporation [24] . Hence, the maximum yield of WFOME was obtained at 65 °C.…”

Section: Resultsmentioning

confidence: 99%

A Facile Approach for the Synthesis of SrTiO₃/g‐C₃N₄ Photo‐catalyst and its Efficacy in Biodiesel Production

Ghani¹,

Iqbal

Sadaf

et al. 2021

ChemistrySelect

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Visible light active photocatalysts have attracted a lot of interest due to their simple chemical workup and recyclability. In this study, the role of Strontium Titanate/graphitic Carbon Nitride composite (SrTiO3/g‐C3N4) was investigated for the pretreatment of waste frying oil (WFO) to reduce high free fatty acids (FFAs) for biodiesel production. SrTiO3/g‐C3N4 photo‐catalyst was synthesized through the facile refluxing method and its activity was also compared with simple graphitic carbon nitride (g‐C3N4). Experimental results revealed that SrTiO3/g‐C3N4 possesses higher efficiency as compared to g‐C3N4. Photo‐catalyst was characterized through SEM‐EDX, XRD and FT‐IR. Maximum conversion of FFAs (85 %) was achieved at 1 % catalyst dose, 800 rpm stirring speed, 3 : 1 methanol to oil ratio, and 4 hours of reaction time. Esterified WFO was converted to waste frying oil methyl esters (WFOME) by using CaO‐KOH heterogeneous catalyst. The maximum yield of WFOME was obtained at 1.25 % catalyst dose, 65 °C, 600 rpm, 2 h of reaction time, and 12 : 1 methanol to oil ratio. Physicochemical analysis of WFOME revealed that it is in accord with ASTM standards.

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“…[58][59][60][61][62] De acordo com o catalisador utilizado, a transesterificação é classificada como homogênea alcalina, homogênea ácida, heterogênea, enzimática e com fluidos supercríticos. [63][64][65] Em razão da transesterificação ser o procedimento mais usado industrialmente para a obtenção de biodiesel a partir de óleos vegetais, uma proposta com as diferentes etapas para produzir o biocombustível a partir de óleo refinado de lupino encontra-se ilustrada na Figura 7. O processo começa com a etapa de homogeneização, onde os reagentes são misturados a fim de contribuir com a miscibilidade do sistema e garantir o contato dos reagentes. Em seguida, por meio da reação de transesterificação, é obtido o biodiesel.…”

Section: Produção Teórica De Biodiesel a Partir De óLeo De Lupinounclassified

Potential of Andean lupine (Lupinus mutabilis) for biodiesel production via methanolic route: A review

Zamora¹,

Zamora-Burbano²,

Varão³

et al. 2020

Rev. Virtual Quim.

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Biodiesel can be obtained from extracted oil of different oilseeds. The production of this biofuel is carried out by several routes, among them the most common way involves two main stages: the first one related to oil extraction from oilseeds and the second one, includes the conversion of that oil into biodiesel. This review work presents a technical feasibility study about production and use of Andean lupine oil (Lupinis mutabilis) for biodiesel production through methanolic route. Besides, it is described some theoretical physic-chemical properties of Andean lupine biodiesel obtained by mathematical. According to similarity of physic-chemical characteristics between Andean lupine and soy oils, it can be evidenced the possibility of utilization of Andean lupine seeds for bioenergy. The theoretical properties calculated for Andean lupine biodiesel, such as density (20ºC), cetane index, heat power and dynamic viscosity (40ºC) are close to soy biodiesel properties and befitting with the limits stablished by Brazilian laws that regulate the biodiesel industry. Considering the exhibited data in this work, it can be affirmed, from a technical point of view, that Andean lupine can be considered promising for energy market, especially for the Andes ecoregion. However, the suggested processes should be experimentally implemented with the purpose to assess the proposed conditions and thus to compare the theoretical approaches, due to the properties of Andean lupine biodiesel were not found in experimental data of biodiesel production from Andean lupine seeds. O biodiesel pode ser obtido a partir do óleo extraído de diferentes oleaginosas. A produção deste biocombustível é realizada por meio de várias rotas, entre elas a mais comum envolve duas etapas principais: a primeira relacionada com a extração do óleo das sementes e a segunda, com a conversão deste óleo em biodiesel. O presente trabalho de revisão apresenta um estudo de viabilidade técnica de produção e utilização do óleo do lupino (Lupinis mutabilis) para cadeia produtiva de biodiesel por rota metílica, bem como descreve algumas propriedades físico-químicas teóricas do biodiesel de lupino obtidas por meio de modelos. Diante da similitude das características físico-químicas dos óleos de lupino e de soja, evidencia-se a possibilidade de utilização desta oleaginosa para o setor da bioenergia. As propriedades teóricas calculadas, como densidade (20ºC), número de cetano, poder calorífico e viscosidade cinemática (40ºC), para biodiesel de lupino apresentam-se próximas as do biodiesel de soja e condizentes com os limites estabelecidos pelas normas que regulamentam o setor no Brasil. Frente aos dados elucidados neste estudo, pode-se afirmar que do ponto de vista técnico a oleaginosa lupino pode ser considerada promissora para o mercado da energia, notadamente para a ecorregião dos Andes, no entanto os processos sugeridos devem ser implementados experimentalmente com o propósito de avaliar as condições propostas e assim comparar as aproximações teóricas, uma vez que não fo...

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Yield Response of Biodiesel Production from Heterogeneous and Homogeneous Catalysis of Milk Bush Seed (Thevetia peruviana) Oil

Cited by 43 publications

References 17 publications

Comparison of CaO-NPs and Chicken Eggshell-Derived CaO in the Production of Biodiesel from Schinziophyton rautanenii (Mongongo) Nut Oil

Comparison of CaO-NPs and Chicken Eggshell-Derived CaO in the Production of Biodiesel from Schinziophyton rautanenii (Mongongo) Nut Oil

A Facile Approach for the Synthesis of SrTiO₃/g‐C₃N₄ Photo‐catalyst and its Efficacy in Biodiesel Production

Potential of Andean lupine (Lupinus mutabilis) for biodiesel production via methanolic route: A review

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Yield Response of Biodiesel Production from Heterogeneous and Homogeneous Catalysis of Milk Bush Seed (Thevetia peruviana) Oil

Cited by 43 publications

References 17 publications

Comparison of CaO-NPs and Chicken Eggshell-Derived CaO in the Production of Biodiesel from Schinziophyton rautanenii (Mongongo) Nut Oil

Comparison of CaO-NPs and Chicken Eggshell-Derived CaO in the Production of Biodiesel from Schinziophyton rautanenii (Mongongo) Nut Oil

A Facile Approach for the Synthesis of SrTiO3/g‐C3N4 Photo‐catalyst and its Efficacy in Biodiesel Production

Potential of Andean lupine (Lupinus mutabilis) for biodiesel production via methanolic route: A review

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A Facile Approach for the Synthesis of SrTiO₃/g‐C₃N₄ Photo‐catalyst and its Efficacy in Biodiesel Production