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@ARTICLE{Helder:8671,
      author       = {Helder, M. and Strik, D.P.B.T.B. and Hamelers, H.V.M. and
                      Kuhn, A. J. and Blok, C. and Buisman, C.J.N.},
      title        = {{C}oncurrent bio-electricity and biomass production in
                      three {P}lant-{M}icrobial {F}uel {C}ells using {S}partina
                      anglica, {A}rundinella anomala and {A}rundo donax},
      journal      = {Bioresource technology},
      volume       = {101},
      issn         = {0960-8524},
      address      = {Amsterdam [u.a.]},
      publisher    = {Elsevier Science},
      reportid     = {PreJuSER-8671},
      pages        = {3541 - 3547},
      year         = {2010},
      note         = {We would like to thank Xiao Qi Ye and Fang Li Luo for
                      providing us with information and experimental data on
                      Arundinella anomala. The research leading to these results
                      has received funding from the European Community's Seventh
                      Framework Programme FP7/2007-2013 under Grant Agreement No.
                      226532. In addition this research was funded by SenterNovem,
                      the Dutch governmental agency for sustainability and
                      innovation from the Ministry of Economic Affairs (Grant No.
                      EOSLT06020) and supported by NUON.},
      abstract     = {In a Plant Microbial Fuel Cell (P-MFC) three plants were
                      tested for concurrent biomass and bio-electricity production
                      and maximization of power output. Spartina anglica and
                      Arundinella anomala concurrently produced biomass and
                      bio-electricity for six months consecutively. Average power
                      production of the P-MFC with S. anglica during 13weeks was
                      $16\%$ of the theoretical maximum power and $8\%$ during
                      7weeks for A. anomala. The P-MFC with Arundo donax, did not
                      produce electricity with a stable output, due to break down
                      of the system. The highest obtained power density in a P-MFC
                      was 222mW/m(2) membrane surface area with S. anglica, over
                      twice as high as the highest reported power density in a
                      P-MFC. High biomass yields were obtained in all P-MFC's,
                      with a high root:shoot ratio, probably caused nutrient
                      availability and anaerobia in the soil. Power output
                      maximization via adjusting load on the system lead to
                      unstable performance of the P-MFC.},
      keywords     = {Bioelectric Energy Sources / Biomass / Electricity /
                      Plants: metabolism / J (WoSType)},
      cin          = {ICG-3},
      ddc          = {570},
      cid          = {I:(DE-Juel1)ICG-3-20090406},
      pnm          = {Terrestrische Umwelt / PLANTPOWER - PlantPower - Living
                      plants in microbial fuel cells for clean, renewable,
                      sustainable, efficient, in-situ bioenergy production
                      (226532)},
      pid          = {G:(DE-Juel1)FUEK407 / G:(EU-Grant)226532},
      shelfmark    = {Agricultural Engineering / Biotechnology $\&$ Applied
                      Microbiology / Energy $\&$ Fuels},
      typ          = {PUB:(DE-HGF)16},
      pubmed       = {pmid:20097554},
      UT           = {WOS:000275563200033},
      doi          = {10.1016/j.biortech.2009.12.124},
      url          = {https://juser.fz-juelich.de/record/8671},
}