A review of the synthesis of activated carbon for biodiesel production: Precursor, preparation, and modification

Once a biorefinery is ready to operate, the main processed materials need to be completely evaluated in terms of many different factors, including disposal regulations, technological limitations of installation, the market, and other societal considerations. In biorefinery, glycerol is the main by-product, representing around 10% of biodiesel production. In the last few decades, the large-scale production of biodiesel and glycerol has promoted research on a wide range of strategies in an attempt to valorize this by-product, with its transformation into added value chemicals being the strategy that exhibits the most promising route. Among them, C3 compounds obtained from routes such as hydrogenation, oxidation, esterification, etc. represent an alternative to petroleum-based routes for chemicals such as acrolein, propanediols, or carboxylic acids of interest for the polymer industry. Another widely studied and developed strategy includes processes such as reforming or pyrolysis for energy, clean fuels, and materials such as activated carbon. This review covers recent advances in catalysts used in the most promising strategies considering both chemicals and energy or fuel obtention. Due to the large variety in biorefinery industries, several potential emergent valorization routes are briefly summarized.

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Biodiesel production through transesterification of a mixture of non-edible oils over lithium supported on activated carbon derived from scrap tires

Energy Conversion and Management ◽

10.1016/j.enconman.2019.112149 ◽

2019 ◽

Vol 201 ◽

pp. 112149 ◽

Cited By ~ 16

Author(s):

Arqam K. Ayoob ◽

Abdelrahman B. Fadhil

Keyword(s):

Activated Carbon ◽

Edible Oils ◽

Biodiesel Production ◽

Scrap Tires

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Solketal Removal from Aqueous Solutions Using Activated Carbon and a Metal–Organic Framework as Adsorbents

Materials ◽

10.3390/ma14226852 ◽

2021 ◽

Vol 14 (22) ◽

pp. 6852

Author(s):

Leticia Santamaría ◽

Sophia A. Korili ◽

Antonio Gil

Keyword(s):

Activated Carbon ◽

Aqueous Solutions ◽

Emerging Contaminants ◽

Metal Organic Framework ◽

Effective Diffusion ◽

Biodiesel Production ◽

Isotherm Equation ◽

Metal Organic ◽

Pseudo Second Order ◽

Organic Framework

The worldwide rise in biodiesel production has generated an excess of glycerol, a byproduct of the process. One of the most interesting alternative uses of glycerol is the production of solketal, a bioadditive that can improve the properties of both diesel and gasoline fuels. Even with its promising future, not much research has been performed on its toxicity in aqueous environments. In this work, solketal adsorption has been tested with two different commercial adsorbents: an activated carbon (Hydrodarco 3000) and a metal–organic framework (MIL-53). Diclofenac and caffeine were also chosen as emerging contaminants for comparison purposes. The effect of various parameters, such as the adsorbent mass or initial concentration of pollutants, has been studied. Adsorption kinetics with a better fit to a pseudo-second-order model, intraparticle diffusion, and effective diffusion coefficient were studied as well. Various isotherm equation models were employed to study the equilibrium process. The results obtained indicate that activated carbon is more effective in removing solketal from aqueous solutions than the metal–organic framework.

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Biodiesel Production from Waste Frying Oils by Potassium Methoxide Supported on Activated Carbon Catalysts from Lignocellulosic Biomass

Acta Technologica Agriculturae ◽

10.2478/ata-2021-0026 ◽

2021 ◽

Vol 24 (4) ◽

pp. 153-158

Author(s):

Darwin ◽

Atmadian Pratama ◽

Mardhotillah

Keyword(s):

Activated Carbon ◽

Biodiesel Production ◽

Waste Frying Oil ◽

Biodiesel Properties ◽

Potassium Methoxide ◽

Solid Catalysts ◽

Study Results ◽

Carbon Catalysts ◽

Engine Life

Abstract Various carbon-rich solid catalysts are evaluated for the synthesis of biodiesel from waste frying oil. The study results showed that the use of activated carbon made of corn stalk could increase the biodiesel yield by 7%. The heterogeneous carbon-based catalysts made of lignocellulosic residues could successfully improve the quality of biodiesel properties. The results obtained revealed that the biodiesel properties, including relative density (852–900 kg·m−3) and kinematic viscosity (2.4–3.9 mm2·s−1), are in compliance with the standard limits of ASTM and the European Biodiesel Standard, suggesting that the biodiesel produced would be decent as a diesel fuel that potentially can minimize the serious damage of engine parts, and prolong the engine life.

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