Abstract
The depletion of fossil fuel resources and increasing environmental pollution led to a trend for using alternative, clean, green, and sustainable fuel and energy resources. To attain this aim, using biomass as an alternative resource for diesel production has been a hotspot among researchers. Biodiesel has several advantages, such as being lower toxic and more renewable, and eco-friendlier than diesel from fossil fuel resources. Several edible and non-edible bio-sources were used for the production of biodiesel from the transesterification process. Algal oil as a non-edible source is considered an abundant, low cost and green substrate for biodiesel production. Various factors such as reaction conditions and the type of catalyst affect the biodiesel production process. Different catalytic systems such as basic and acidic homogeneous and heterogeneous catalysts and biocatalysts were introduced for the process in the literature, and each proposed catalyst has its own advantages and disadvantages. For instance, in spite of the lower cost and better mass transfer of base and acid homogeneous catalysts, reaction system corrosion, non-reusability, and soap formation are serious challenges of these catalysts at an industrial scale. On the other hand, acid and base heterogenous catalysts overcame the issues of corrosion and recovery, but some matters such as mass transfer limitation, high cost, and weak performance in catalyzing both esterification of FFAs and transesterification of lipids must be taken into account. In addition, bio-catalysis as a high-cost process led to a purer product formation with less side reaction. Therefore, several significant factors should be considered for transesterification catalysts such as availability, cost, reusability, stability, mass transfer, and the possibility to manage both the transesterification of triglycerides and the esterification of FFAs, selecting a catalyst with predominant pros is viable. Here, a review of the biodiesel production from algal biomass focusing on the efficient catalyst of the process is presented.
Highlights
For a long time, fossil resources have supplied fuels and petrochemicals for human requirements, such as household, industrial, and transportation applications
They have shown that in addition to optimization of reaction condition and catalyst concentration, the first step esterification was very beneficial in reducing free fatty acids (FFAs) and caused to an increase in the yield of fatty acid methyl ester or biodiesel by using less catalyst compared to that obtained by a one-step acid or base catalytic in situ process
3. Advantages: Since the homogeneous catalysts lead to the feasible mass transfer between lipids and catalysts, mild reaction conditions, including low temperature, low pressure, and short reaction time, are suitable for the transesterification process
Summary
Fossil resources have supplied fuels and petrochemicals for human requirements, such as household, industrial, and transportation applications. Algal systems need carbon resources from 10 to 50 times more than other plants for photosynthesis and growth and have a very significant effect on the reduction in greenhouse gas emission, global warming, and improvement of urban areas compared to fossil fuels and other biofuel sources [13,14]. The second role is the effect of microalgae cultivation on wastewater treatment This class of technology can both help on sustainability, feasibility, and lower cost of algae cultivation and boost the health and cleanliness of water [15]. The third role is the impact of using an algal resource on the decrease on fossil fuel dependance and using food crops and food waste as the first and second generations of the biomass, respectively. Biofuels are more polar and have oxygen content around 10% to 40%, which makes their chemical properties very different compared to fossil-derived fuels [19]
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