Artigo

Pineapple (Ananás comosus) leaves ash as a solid base catalyst for biodiesel synthesis

Homogeneous catalysts used for biodiesel synthesis have several limitations, including non-recoverability/reusability, saponification, emulsification, equipment corrosion, and environmental pollution. To overcome these limitations, we synthesized a novel catalyst via calcination of pineapple leaves...

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Autor principal: De, Silma
Outros Autores: Pessoa Júnior, Wanison André Gil, Sá, Ingrity S.C., Takeno, Mitsuo Lopes, Nobre, Francisco Xavier, Pinheiro, William, Manzato, Lizandro, Iglauer, Stefan, Freitas, Flávio A. De
Grau: Artigo
Idioma: English
Publicado em: Bioresource Technology 2020
Assuntos:
Biodiesel
Cost Effectiveness
Emulsification
Fourier transform infrared spectroscopy
Methanol
Molar ratio
Pollution induced corrosion
Microscopy, Electron, Scanning
Soybean Oil
Synthetic fuels
Thermogravimetric analysis
X ray powder diffraction
X rays
Biodiesel synthesis
Cost effective
Environmental Pollutions
Homogeneous catalyst
Multiple process
Novel catalysts
Solid base catalysts
X ray fluorescence
Catalyst Activity
Biodiesel
Calcium Ion
Fossil Fuel
Manganese
Potassium
Alkalinity
ash
Biofuel
Catalysis
catalyst
chemical alteration
Fruit
Leaf
Methanol
Solubility
Soybean
Alkalinity
ash
catalyst
Cost Effectiveness Analysis
Energy
Fourier transform infrared spectroscopy
fruit waste
Nonhuman
pineapple
Plant Leaf
Priority Journal
reaction time
Recycling
Microscopy, Electron, Scanning
Synthesis
Temperature
thermogravimetry
Time
X-ray Diffraction
X ray fluorescence
Ananas Comosus
Glycine Max
en
Acesso em linha: https://repositorio.inpa.gov.br/handle/1/23267
Resumo:
Homogeneous catalysts used for biodiesel synthesis have several limitations, including non-recoverability/reusability, saponification, emulsification, equipment corrosion, and environmental pollution. To overcome these limitations, we synthesized a novel catalyst via calcination of pineapple leaves waste. This catalyst was characterized by X-ray powder diffraction, X-ray fluorescence, Fourier transform infrared spectroscopy, thermogravimetric analysis, scanning electron microscopy, and soluble alkalinity measurements. The catalyst's activity with regards to soybean oil transesterification was analyzed, and multiple process parameters (temperature, catalyst amount, reaction time, and methanol:oil molar ratio) were examined. A high catalytic activity, probably related to the 85 wt% content of alkali/alkali metals (K, Ca and Mg), was observed after a 30 min reaction time, 60 °C, 4 wt% of catalyst, oil to methanol molar ratio of 1:40, reaching an oil to biodiesel conversion above 98%. We conclude that the novel catalyst presented here is efficient, cost-effective, and sustainable, while simultaneously abundant waste is reduced. © 2020 Elsevier Ltd

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