Direct fermentation of Laminaria japonica for biohydrogen production by anaerobic mixed cultures

Shi, Xueqing; Jung, Kyung‐Won; Kim, Dong-Hoon; Ahn, Yoonhan; Shin, Hang‐Sik

doi:10.1016/j.ijhydene.2011.01.125

Cited by 99 publications

(25 citation statements)

References 28 publications

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“…However, research concerning organic acids production from brown seaweed was limited; in our study, the TVFA yield was as high as 0.56 g/g COD and 0.040 g/g dry biomass, which was the highest yield (Table 3.). The TVFA yield of CSTR in this study was also higher than that of ASBR [22] with shorter HRT. CSTR always yields the highest productivity and can continuously produce the target products for a long period.…”

Section: Performance Of Vfas-producing Reactormentioning

confidence: 44%

Bioconversion of volatile fatty acids from macroalgae fermentation into microbial lipids by oleaginous yeast

Kim

Cho

et al. 2015

Chemical Engineering Journal

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Section: Performance Of Vfas-producing Reactormentioning

confidence: 44%

Bioconversion of volatile fatty acids from macroalgae fermentation into microbial lipids by oleaginous yeast

Kim

Cho

et al. 2015

Chemical Engineering Journal

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“…Recent research has shown that the red algae Gelidium amansii and the brown algae Laminaria japonica are both a potential biomass source for biohydrogen production through anaerobic fermentation [54,55]. Recently, microalgae have also been paid attention from the point of view of biogas production in the anaerobic fermentation [4].…”

Section: Candidate Photosynthetic Microorganisms For Biofuel Productionmentioning

confidence: 99%

An overview on biofuel and biochemical production by photosynthetic microorganisms with understanding of the metabolism and by metabolic engineering together with efficient cultivation and downstream processing

Sarkar

Shimizu

2015

Bioresour. Bioprocess.

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Biofuel and biochemical production by photosynthetic microorganisms such as cyanobacteria and algae is attractive to improve energy security and to reduce CO 2 emission, contributing to the environmental problems such as global warming. Although biofuel production by photosynthetic microorganisms is called as the third generation biofuels, and significant innovation is necessary for the feasibility in practice, these fuels are attractive due to renewable and potentially carbon neutral resources. Moreover, photosynthetic microorganisms are attractive since they can grow on non-arable land and utilize saline and wastewater streams. Highly versatile and genetically tractable photosynthetic microorganisms need to capture solar energy and convert atmospheric and waste CO 2 to high-energy chemical products. Understanding of the metabolism and the efficient metabolic engineering of the photosynthetic organisms together with cultivation and separation processes as well as increased CO 2 assimilation enables the enhancement of the feasibility of biofuel and biochemical production.

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“…Methane, ethanol, and biohydrogen production from different macroalgal biomass sources are presented in Table 2. Hydrogen production Shi et al (2011) From an economic point of view it is not viable to produce biofuels from macroalgae with the current technology, except if the production process is combined with another, such as pollutant removal or the production of bio-based products (Savage 2011;Pittman et al 2011). It is estimated that macroalgae phycocolloids represent a world market of some US$ 600 Mio y -1 (Mc Hugh 2003).…”

Section: Composition and Processing Of Macroalgal Biomassmentioning

confidence: 99%

Potential of Micro and Macro Algae for Biofuel Production: A Brief Review

Rajkumar¹,

Yaakob²,

Takriff³

2013

BioResources

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The world seems to be raising its energy needs owing to an expanding population and people's desire for higher living standards. Diversification biofuel sources have become an important energy issue in recent times. Among the various resources, algal biomass has received much attention in the recent years due to its relatively high growth rate, its vast potential to reduce greenhouse gas (GHG) emissions and climate change, and their ability to store high amounts of lipids and carbohydrates. These versatile organisms can also be used for the production of biofuel. In this review, sustainability and the viability of algae as an up-coming biofuel feedstock have been discussed. Additionally, this review offers an overview of the status of biofuel production through algal biomass and progress made so far in this area.

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Direct fermentation of Laminaria japonica for biohydrogen production by anaerobic mixed cultures

Cited by 99 publications

References 28 publications

Bioconversion of volatile fatty acids from macroalgae fermentation into microbial lipids by oleaginous yeast

Bioconversion of volatile fatty acids from macroalgae fermentation into microbial lipids by oleaginous yeast

An overview on biofuel and biochemical production by photosynthetic microorganisms with understanding of the metabolism and by metabolic engineering together with efficient cultivation and downstream processing

Potential of Micro and Macro Algae for Biofuel Production: A Brief Review

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