Techno-economic analysis of a novel bioprocess combining solid state fermentation and dark fermentation for H2 production from food waste
TLDR
In this article, a novel bioprocess combining solid state fermentation and dark fermentation for H2 production from food waste (FW) was investigated, which was designed with capacity of 10 ton/day and lifetime of 10 years.About:
This article is published in International Journal of Hydrogen Energy.The article was published on 2016-12-28 and is currently open access. It has received 51 citations till now. The article focuses on the topics: Bioprocess & Payback period.read more
Citations
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Techno-economic assessment of various hydrogen production methods - A review.
R. Yukesh Kannah,S. Kavitha,Preethi,O. Parthiba Karthikeyan,Gopalakrishnan Kumar,N. Vo. Dai-Viet,J. Rajesh Banu +6 more
TL;DR: In this paper, a sensitivity analysis of various hydrogen production process such as pyrolysis, gasification, steam reforming of natural gas, dark fermentation, photobiolysis and renewable liquid reforming were reviewed to evaluate their merits and demerits along with cost effectiveness.
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Dark fermentative biohydrogen production from lignocellulosic biomass: Technological challenges and future prospects
Juliana Ferreira Soares,Tássia C. Confortin,Izelmar Todero,Flávio Dias Mayer,Marcio A. Mazutti +4 more
TL;DR: In this article, a review of dark fermentative bio-hydrogen production from lignocellulosic biomass, presenting insights of biomass pretreatment methods, influential factors in dark fermentation, and environmental and economic aspects.
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Biohydrogen production from food waste: Current status, limitations, and future perspectives.
Yeo-Myeong Yun,Mo-Kwon Lee,Seongwon Im,Antonella Marone,Eric Trably,Sang-Ryong Shin,Min-Gyun Kim,Si-Kyung Cho,Dong-Hoon Kim +8 more
TL;DR: Economic assessment revealed that the economic feasibility of H2 production from FW by dark fermentation is questionable and future perspectives along with possible routes converting dark fermentation effluent to valuable fuels and chemicals are discussed.
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The environmental biorefinery: state-of-the-art on the production of hydrogen and value-added biomolecules in mixed-culture fermentation
TL;DR: A meta-analysis of current biomass recovery technologies compatible with environmental applications is provided, particularly on those able to produce high value-added fermentation metabolites and a straightforward market study was carried out for nine promising biomolecules.
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Key issues in modeling and optimization of lignocellulosic biomass fermentative conversion to gaseous biofuels
TL;DR: In this article, the state-of-the-art on the problems related to lignocellulosic biomass pre-treatment and the mechanisms of lignosic conversion to gaseous biofuels are discussed.
References
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Biohydrogen gas production from food processing and domestic wastewaters
TL;DR: In this paper, the food processing industry produces highly concentrated, carbohydrate-rich wastewaters, but their potential for biological hydrogen production has not been extensively studied, and there is no evidence that hydrogen production is correlated with chemical oxygen demand removal.
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‘Renewable’ hydrogen: Prospects and challenges
TL;DR: In this paper, the options, prospects, and challenges associated with hydrogen production are discussed, and a review of the potential and challenges of hydrogen production is presented. But the production of hydrogen by most existing technologies entails substantial use of fossil fuels and CO 2 emissions; indeed as much as 2.5 to 5 tonnes of carbon is released as CO 2 per tonne of hydrogen currently produced by conventional means.
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Biohydrogen production: Current perspectives and the way forward
TL;DR: A review of advances in bio-hydrogen production focusing on production pathways, microbiology, as well as bioreactor configuration and operation is presented in this article, where challenges and prospects of bio hydrogen production are also outlined.
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Food waste as nutrient source in heterotrophic microalgae cultivation
TL;DR: Results of this study revealed the potential of food waste hydrolysate as culture medium and nutrient source in microalgae cultivation and grew well on the complex food waste Hydrolysate by utilizing the nutrients recovered.
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Lignocellulose biohydrogen: Practical challenges and recent progress
Gopalakrishnan Kumar,Péter Bakonyi,S. Periyasamy,Sang Hyoun Kim,Nándor Nemestóthy,Katalin Bélafi-Bakó +5 more
TL;DR: In this paper, the most important fields associated with lignocellulosic hydrogen fermentation are covered, firstly describing the problems associated with raw materials, followed by the discussion of pretreatment and hydrolysis methods assisting to achieve efficient hydrogen fermentation.