Non-thermal production of pure hydrogen from biomass: HYVOLUTION

Claassen, Pieternel; de Vrije, Truus; Koukios, Emmanuel; van Niel, Ed; Eroglu, Inci; Modigell, Michael; Friedl, Anton; Wukovits, Walter; Ahrer, Werner

Non-thermal production of pure hydrogen from biomass: HYVOLUTION

Mark

Claassen, Pieternel ; de Vrije, Truus ; Koukios, Emmanuel ; van Niel, Ed ^LU ; Eroglu, Inci ; Modigell, Michael ; Friedl, Anton ; Wukovits, Walter and Ahrer, Werner (2010) In Journal of Cleaner Production 18(Supplement 1). p.4-8

Abstract: The objectives and methodology of the EU-funded research project HYVOLUTION devoted to hydrogen production from biomass are reviewed. The main scientific objective of this project is the development of a novel two-stage bioprocess employing thermophilic and phototrophic bacteria, for the cost-effective production of pure hydrogen from multiple biomass feedstocks in small-scale, cost-effective industries. Results are summarised of the

work on pretreatment technologies for optimal biodegradation of energy crops and bio-residues, conditions for maximum efficiency in conversion of fermentable biomass to hydrogen and CO2, concepts of dedicated installations for optimal gas cleaning and gas quality protocols, as well as innovative... (More); The objectives and methodology of the EU-funded research project HYVOLUTION devoted to hydrogen production from biomass are reviewed. The main scientific objective of this project is the development of a novel two-stage bioprocess employing thermophilic and phototrophic bacteria, for the cost-effective production of pure hydrogen from multiple biomass feedstocks in small-scale, cost-effective industries. Results are summarised of the

work on pretreatment technologies for optimal biodegradation of energy crops and bio-residues, conditions for maximum efficiency in conversion of fermentable biomass to hydrogen and CO2, concepts of dedicated installations for optimal gas cleaning and gas quality protocols, as well as innovative system integration aimed at minimizing energy demand and maximizing product output. The main technological objective is the construction of prototype modules of the plant which, when assembled, form the basis of a blueprint for the whole chain for converting biomass to pure hydrogen. A brief outline is presented of the progress made towards developing reactors for thermophilic hydrogen production, reactors for photoheterotrophic hydrogen production and equipment for optimal gas

cleaning procedures. (Less)

Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/1760928

author

Claassen, Pieternel ; de Vrije, Truus ; Koukios, Emmanuel ; van Niel, Ed ^LU ; Eroglu, Inci ; Modigell, Michael ; Friedl, Anton ; Wukovits, Walter and Ahrer, Werner

organization

Applied Microbiology

publishing date

2010

type

Contribution to journal

publication status

published

subject

Industrial Biotechnology

keywords

biological hydrogen production process

in

Journal of Cleaner Production

volume

18

issue

Supplement 1

pages

4 - 8

publisher

Elsevier

external identifiers

wos:000285234300002
scopus:78049406675

ISSN

0959-6526

DOI

10.1016/j.jclepro.2010.05.009

language

English

LU publication?

yes

id

e4cf3e63-b86d-43d3-917c-e758ad35fa1b (old id 1760928)

date added to LUP

2016-04-01 12:56:10

date last changed

2022-04-06 01:44:00

@article{e4cf3e63-b86d-43d3-917c-e758ad35fa1b,
  abstract     = {{The objectives and methodology of the EU-funded research project HYVOLUTION devoted to hydrogen production from biomass are reviewed. The main scientific objective of this project is the development of a novel two-stage bioprocess employing thermophilic and phototrophic bacteria, for the cost-effective production of pure hydrogen from multiple biomass feedstocks in small-scale, cost-effective industries. Results are summarised of the<br/><br>
work on pretreatment technologies for optimal biodegradation of energy crops and bio-residues, conditions for maximum efficiency in conversion of fermentable biomass to hydrogen and CO2, concepts of dedicated installations for optimal gas cleaning and gas quality protocols, as well as innovative system integration aimed at minimizing energy demand and maximizing product output. The main technological objective is the construction of prototype modules of the plant which, when assembled, form the basis of a blueprint for the whole chain for converting biomass to pure hydrogen. A brief outline is presented of the progress made towards developing reactors for thermophilic hydrogen production, reactors for photoheterotrophic hydrogen production and equipment for optimal gas<br/><br>
cleaning procedures.}},
  author       = {{Claassen, Pieternel and de Vrije, Truus and Koukios, Emmanuel and van Niel, Ed and Eroglu, Inci and Modigell, Michael and Friedl, Anton and Wukovits, Walter and Ahrer, Werner}},
  issn         = {{0959-6526}},
  keywords     = {{biological hydrogen production process}},
  language     = {{eng}},
  number       = {{Supplement 1}},
  pages        = {{4--8}},
  publisher    = {{Elsevier}},
  series       = {{Journal of Cleaner Production}},
  title        = {{Non-thermal production of pure hydrogen from biomass: HYVOLUTION}},
  url          = {{https://lup.lub.lu.se/search/files/3057254/1760929.pdf}},
  doi          = {{10.1016/j.jclepro.2010.05.009}},
  volume       = {{18}},
  year         = {{2010}},
}

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Non-thermal production of pure hydrogen from biomass: HYVOLUTION