Meta-Analytic Review on Third-Generation Biodiesel
Microalgal biodiesel is technically viable to power diesel engines. This third-generation biofuel has great performance of combustion and can reduce emission of greenhouse gases into the atmosphere. However, its production is currently very expensive, relative to petrochemical diesel. Development an...
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| Veröffentlicht in: | Bioenergy research Jg. 15; H. 1; S. 27 - 45 |
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| Format: | Journal Article |
| Sprache: | Englisch |
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New York
Springer US
01.03.2022
Springer Springer Nature B.V |
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| ISSN: | 1939-1234, 1939-1242 |
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| Abstract | Microalgal biodiesel is technically viable to power diesel engines. This third-generation biofuel has great performance of combustion and can reduce emission of greenhouse gases into the atmosphere. However, its production is currently very expensive, relative to petrochemical diesel. Development and implementation of strategies to optimize productivity and quality of biomass and thus ensure this future-proof biofuel is economically feasible to fabricate and competitive with diesel oil on an industrial scale is challenging. This meta-analytic overview documents the diversity of fastest-growing, oil-accumulating microalgae; performance of cultures and systems; strategies for inducing lipids; and quality and economics of microalgal biodiesel. The microalgae,
Neochloris oleoabundans
,
Scenedesmus obliquus
,
Desmodesmus
sp., and
Micractinium
sp., are hyperaccumulators of lipids. The genre,
Micractinium
sp., is a thermophile, and thus it can resist hydrothermal streams. Complementarily, it is the fastest to grow and the most productive in both biomass and biodiesel. This should be of great importance to roll-out sustainable, high-performance algal systems in marginal lands in tropical zones, where the heat often makes the planning and management of projects difficult and expensive. Heat shock, nutritional starvation, and photoperiod are the most effective algae-specific strategies for inducing mechanisms for lipogenesis in
Ankistrodesmus dimorphus
,
Chlorella vulgaris
and
Leptolyngbya
sp.,
Cylindrotheca closterium
and
N. oleoabundans
, and
Amphora subtropica
and
Dunaliella
sp., respectively.
Rhodococcus
sp. produces a significant amount of biomass at very low cost, relative to diesel oil. The concept of synergistically co-culturing microalgae with this photosynthetically active bacterium may be an option to save the producer the expenditures and uncertainties of third-generation biodiesel. |
|---|---|
| AbstractList | Microalgal biodiesel is technically viable to power diesel engines. This third-generation biofuel has great performance of combustion and can reduce emission of greenhouse gases into the atmosphere. However, its production is currently very expensive, relative to petrochemical diesel. Development and implementation of strategies to optimize productivity and quality of biomass and thus ensure this future-proof biofuel is economically feasible to fabricate and competitive with diesel oil on an industrial scale is challenging. This meta-analytic overview documents the diversity of fastest-growing, oil-accumulating microalgae; performance of cultures and systems; strategies for inducing lipids; and quality and economics of microalgal biodiesel. The microalgae,
Neochloris oleoabundans
,
Scenedesmus obliquus
,
Desmodesmus
sp., and
Micractinium
sp., are hyperaccumulators of lipids. The genre,
Micractinium
sp., is a thermophile, and thus it can resist hydrothermal streams. Complementarily, it is the fastest to grow and the most productive in both biomass and biodiesel. This should be of great importance to roll-out sustainable, high-performance algal systems in marginal lands in tropical zones, where the heat often makes the planning and management of projects difficult and expensive. Heat shock, nutritional starvation, and photoperiod are the most effective algae-specific strategies for inducing mechanisms for lipogenesis in
Ankistrodesmus dimorphus
,
Chlorella vulgaris
and
Leptolyngbya
sp.,
Cylindrotheca closterium
and
N. oleoabundans
, and
Amphora subtropica
and
Dunaliella
sp., respectively.
Rhodococcus
sp. produces a significant amount of biomass at very low cost, relative to diesel oil. The concept of synergistically co-culturing microalgae with this photosynthetically active bacterium may be an option to save the producer the expenditures and uncertainties of third-generation biodiesel. Microalgal biodiesel is technically viable to power diesel engines. This third-generation biofuel has great performance of combustion and can reduce emission of greenhouse gases into the atmosphere. However, its production is currently very expensive, relative to petrochemical diesel. Development and implementation of strategies to optimize productivity and quality of biomass and thus ensure this future-proof biofuel is economically feasible to fabricate and competitive with diesel oil on an industrial scale is challenging. This meta-analytic overview documents the diversity of fastest-growing, oil-accumulating microalgae; performance of cultures and systems; strategies for inducing lipids; and quality and economics of microalgal biodiesel. The microalgae, Neochloris oleoabundans, Scenedesmus obliquus, Desmodesmus sp., and Micractinium sp., are hyperaccumulators of lipids. The genre, Micractinium sp., is a thermophile, and thus it can resist hydrothermal streams. Complementarily, it is the fastest to grow and the most productive in both biomass and biodiesel. This should be of great importance to roll-out sustainable, high-performance algal systems in marginal lands in tropical zones, where the heat often makes the planning and management of projects difficult and expensive. Heat shock, nutritional starvation, and photoperiod are the most effective algae-specific strategies for inducing mechanisms for lipogenesis in Ankistrodesmus dimorphus, Chlorella vulgaris and Leptolyngbya sp., Cylindrotheca closterium and N. oleoabundans, and Amphora subtropica and Dunaliella sp., respectively. Rhodococcus sp. produces a significant amount of biomass at very low cost, relative to diesel oil. The concept of synergistically co-culturing microalgae with this photosynthetically active bacterium may be an option to save the producer the expenditures and uncertainties of third-generation biodiesel. |
| Audience | Academic |
| Author | da Silva Viana, Ronaldo de Almeida Moreira, Bruno Rafael Lopes, Paulo Renato Matos de Almeida Viana, Charlene Raquel Ramos, Ricardo Alan Verdú Cruz, Victor Hugo |
| Author_xml | – sequence: 1 givenname: Bruno Rafael orcidid: 0000-0002-8686-4082 surname: de Almeida Moreira fullname: de Almeida Moreira, Bruno Rafael email: b.moreira@unesp.br organization: Department of Phytosanitary, Rural Engineering and Soils, School of Engineering, São Paulo State University (Unesp) – sequence: 2 givenname: Charlene Raquel surname: de Almeida Viana fullname: de Almeida Viana, Charlene Raquel organization: Department of Energy, Bioenergy Research Institute, School of Engineering, São Paulo State University (Unesp) – sequence: 3 givenname: Victor Hugo surname: Cruz fullname: Cruz, Victor Hugo organization: Department of Plant Production, College of Agricultural and Technological Sciences, São Paulo State University (Unesp) – sequence: 4 givenname: Paulo Renato Matos surname: Lopes fullname: Lopes, Paulo Renato Matos organization: Department of Plant Production, College of Agricultural and Technological Sciences, São Paulo State University (Unesp) – sequence: 5 givenname: Ronaldo surname: da Silva Viana fullname: da Silva Viana, Ronaldo organization: Department of Plant Production, College of Agricultural and Technological Sciences, São Paulo State University (Unesp) – sequence: 6 givenname: Ricardo Alan Verdú surname: Ramos fullname: Ramos, Ricardo Alan Verdú organization: Department of Energy, Bioenergy Research Institute, School of Engineering, São Paulo State University (Unesp) |
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