Abstract
Solid oxide catalysts derived from various renewable sources have produced significant yield of methyl esters of enhanced purity. These materials are sourced for due to their advantages ranging from low cost, recoverability and reusability, environmental benign-ness, thermal stability and high quality product generation. For a possible greener production process, many researchers in literature reported the use of biomass-derived heterogeneous catalyst in biodiesel synthesis producing high quality pure product. The catalysts were majorly modified through simple physical cost effective and energy saving operations. This paper explores some of these bio-based heterogeneous catalyst used in biodiesel production via transesterification and esterification approach and their performance in FAME yield and conversion. The feedstock consideration which warrant the route selection, various approaches that are adopted in biodiesel production, performance of renewable heterogeneous catalyst and the measures that were adopted to enhance efficiency of the catalyst were considerably highlighted. It is observed that the prospects of organic-based solid catalyst in biodiesel development is a promising enterprise compared to the conventional methods utilizing homogeneous chemical catalyst, which generates wastewater requiring treatment before disposal and generates product that may cause engine malfunction. This review work aimed at providing detailed and up-to-date record of the trend in renewable catalyst development in biodiesel synthesis. This is expected to inform a suitable selection and reaction conditions in the development of biodiesel from the very many feed stocks.
Highlights
Increasing energy demand and the crisis of global warming as a result of fossil fuel consumption among others are the exigencies for development of bio-based fuel such as biogas and biodiesel
This paper explores some of these bio-based heterogeneous catalyst used in biodiesel production via transesterification and esterification approach and their performance in FAME yield and conversion
The prospect of biological catalyst is becoming promising in biodiesel synthesis due in part to enhanced production processes and feasibility of use in new operational environment, organisms that are capable of enzyme secretion have been modified genetically for optimal secretion and for improved catalytic activities such that no less than 75% of industrial market have been fortified by hydrolytic enzymes like protease, lipase and amylase
Summary
Increasing energy demand and the crisis of global warming as a result of fossil fuel consumption among others are the exigencies for development of bio-based fuel such as biogas and biodiesel. The term biodiesel has been used to describe diesel-equivalent fuel produced from renewable biological sources In chemical term, it is known as monoalkyl ester of long chain fatty acids that is produced from bio-lipids. It is known as monoalkyl ester of long chain fatty acids that is produced from bio-lipids It is synthesized by the reaction involving short chain monohydric alcohols such as methanol, ethanol, propanol and butanol and vegetable oils or animal fats usually in the presence of a catalyst to produce alkyl esters (biodiesel) and glycerine [1]. Conventional biodiesel production is a transesterification reaction of triglycerides of vegetable oils or fats with alcohols like methanol and ethanol in the presence of a homogenous base catalyst such as NaOH or KOH to yield fatty acid alkyl esters (i.e., biodiesel) and glycerol [1]. Biodiesel blends are used in diesel engine to reduce CO2 emission, to discourage accumulation of shoot and prevent engine malfunction which is common with usage of pure biodiesel
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