A critical review on the economic aspects and life cycle assessment of biodiesel production using heterogeneous nanocatalysts

Rising global prices, increasing energy demand, and increasing greenhouse gas have led to the use of biodiesel fuel. Biodiesel fuel is a suitable alternative to diesel in diesel engines. Therefore, it is critical to analyze the economic aspects to decrease the cost of biodiesel production by finding...

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Published inFuel processing technology Vol. 230; p. 107224
Main Author Esmaeili, Hossein
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.06.2022
Elsevier Science Ltd
Subjects
Biodiesel
Biodiesel fuels
byproducts
calcium oxide
Cost analysis
Diesel engines
Economic analysis
Economic aspects
economic feasibility
energy
Equipment costs
feedstocks
glycerol
Greenhouse gases
jojoba
Labor
Life cycle assessment
Low cost
microalgae
Nano-catalysts
nanocatalysts
Oil sources
oils
Production capacity
Raw materials
Schizochytrium
Life cycle assessment
FFA
UCO
WEO
WFO
WCO
CO2eq
Economic aspects
CN
LCA
PHB
Biodiesel
Nano-catalysts
M
UVO
MOR
TIE
FAME
S
TG
BY
Oil sources
NER
Online AccessGet full text
ISSN0378-3820
1873-7188
DOI10.1016/j.fuproc.2022.107224

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Abstract Rising global prices, increasing energy demand, and increasing greenhouse gas have led to the use of biodiesel fuel. Biodiesel fuel is a suitable alternative to diesel in diesel engines. Therefore, it is critical to analyze the economic aspects to decrease the cost of biodiesel production by finding more efficient catalysts as well as more suitable feedstocks. Therefore, this review paper focuses on recent findings of biodiesel generation from various oil sources using nanocatalysts. To this end, properties of various feedstocks and their oil content, characterization of various nanocatalysts and their ability in biodiesel production, life cycle assessment, and economic aspects of biodiesel production have been thoroughly studied. Also, several critical factors were studied on the economic feasibility of biodiesel generation, including various oil sources, type of nanocatalyst, the production capacity of the factory, the selling price of glycerol (by-product), the cost of land, labor cost, equipment, and alcohol type. Moreover, the cost of energy for biodiesel generation from various oil sources was investigated. The findings reveal that the use of CaO and MgO nanocatalysts and their derivatives decreases the cost of biodiesel production due to their simple synthesis, low-cost, abundance in nature, and high catalytic ability. Also, labor costs and plant production capacity have been indicated to have remarkable impacts on the biodiesel price. Moreover, the use of low-cost and non-edible oils with high oil content such as Schizochytrium sp. microalga and jojoba can significantly reduce the cost of biodiesel production. •Biodiesel production from various feedstocks was studied using nanocatalysts.•The impact of various factors on the economics of biodiesel production was studied.•Life cycle assessment of biodiesel production from different feedstocks was studied.•The cost of energy consumption for biodiesel from various feedstocks was studied.
AbstractList Rising global prices, increasing energy demand, and increasing greenhouse gas have led to the use of biodiesel fuel. Biodiesel fuel is a suitable alternative to diesel in diesel engines. Therefore, it is critical to analyze the economic aspects to decrease the cost of biodiesel production by finding more efficient catalysts as well as more suitable feedstocks. Therefore, this review paper focuses on recent findings of biodiesel generation from various oil sources using nanocatalysts. To this end, properties of various feedstocks and their oil content, characterization of various nanocatalysts and their ability in biodiesel production, life cycle assessment, and economic aspects of biodiesel production have been thoroughly studied. Also, several critical factors were studied on the economic feasibility of biodiesel generation, including various oil sources, type of nanocatalyst, the production capacity of the factory, the selling price of glycerol (by-product), the cost of land, labor cost, equipment, and alcohol type. Moreover, the cost of energy for biodiesel generation from various oil sources was investigated. The findings reveal that the use of CaO and MgO nanocatalysts and their derivatives decreases the cost of biodiesel production due to their simple synthesis, low-cost, abundance in nature, and high catalytic ability. Also, labor costs and plant production capacity have been indicated to have remarkable impacts on the biodiesel price. Moreover, the use of low-cost and non-edible oils with high oil content such as Schizochytrium sp. microalga and jojoba can significantly reduce the cost of biodiesel production. •Biodiesel production from various feedstocks was studied using nanocatalysts.•The impact of various factors on the economics of biodiesel production was studied.•Life cycle assessment of biodiesel production from different feedstocks was studied.•The cost of energy consumption for biodiesel from various feedstocks was studied.
Rising global prices, increasing energy demand, and increasing greenhouse gas have led to the use of biodiesel fuel. Biodiesel fuel is a suitable alternative to diesel in diesel engines. Therefore, it is critical to analyze the economic aspects to decrease the cost of biodiesel production by finding more efficient catalysts as well as more suitable feedstocks. Therefore, this review paper focuses on recent findings of biodiesel generation from various oil sources using nanocatalysts. To this end, properties of various feedstocks and their oil content, characterization of various nanocatalysts and their ability in biodiesel production, life cycle assessment, and economic aspects of biodiesel production have been thoroughly studied. Also, several critical factors were studied on the economic feasibility of biodiesel generation, including various oil sources, type of nanocatalyst, the production capacity of the factory, the selling price of glycerol (by-product), the cost of land, labor cost, equipment, and alcohol type. Moreover, the cost of energy for biodiesel generation from various oil sources was investigated. The findings reveal that the use of CaO and MgO nanocatalysts and their derivatives decreases the cost of biodiesel production due to their simple synthesis, low-cost, abundance in nature, and high catalytic ability. Also, labor costs and plant production capacity have been indicated to have remarkable impacts on the biodiesel price. Moreover, the use of low-cost and non-edible oils with high oil content such as Schizochytrium sp. microalga and jojoba can significantly reduce the cost of biodiesel production.
ArticleNumber 107224
Author Esmaeili, Hossein
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  email: H.esmaeili@iaubushehr.ac.ir
  organization: Department of Chemical Engineering, Bushehr Branch, Islamic Azad University, Bushehr, Iran
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Snippet Rising global prices, increasing energy demand, and increasing greenhouse gas have led to the use of biodiesel fuel. Biodiesel fuel is a suitable alternative...
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SubjectTerms Biodiesel
Biodiesel fuels
byproducts
calcium oxide
Cost analysis
Diesel engines
Economic analysis
Economic aspects
economic feasibility
energy
Equipment costs
feedstocks
glycerol
Greenhouse gases
jojoba
Labor
Life cycle assessment
Low cost
microalgae
Nano-catalysts
nanocatalysts
Oil sources
oils
Production capacity
Raw materials
Schizochytrium
Title A critical review on the economic aspects and life cycle assessment of biodiesel production using heterogeneous nanocatalysts
URI https://dx.doi.org/10.1016/j.fuproc.2022.107224
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