Ashish K Sahu

Summary

Affiliation: University of Oslo
Country: Norway

Publications

  1. doi request reprint Hydrogenotrophic denitrification and perchlorate reduction in ion exchange brines using membrane biofilm reactors
    Ashish K Sahu
    Aquateam Norwegian Water Technology Center A S, Rodel√łkka N 0504 Oslo, Norway
    Biotechnol Bioeng 104:483-91. 2009
  2. doi request reprint Utilisation of wastewater nutrients for microalgae growth for anaerobic co-digestion
    Ashish K Sahu
    Aquateam Norwegian Water Technology Center AS, Oslo, Norway
    J Environ Manage 122:113-20. 2013
  3. ncbi request reprint Biological perchlorate reduction in packed bed reactors using elemental sulfur
    Ashish K Sahu
    Aquateam Norwegian Water Technology Centre A S, Oslo, Norway
    Environ Sci Technol 43:4466-71. 2009

Collaborators

Detail Information

Publications3

  1. doi request reprint Hydrogenotrophic denitrification and perchlorate reduction in ion exchange brines using membrane biofilm reactors
    Ashish K Sahu
    Aquateam Norwegian Water Technology Center A S, Rodel√łkka N 0504 Oslo, Norway
    Biotechnol Bioeng 104:483-91. 2009
    ..This study shows that, despite decreased H(2) transfer under high salt conditions, hydrogenotrophic biological reduction may be successfully used for the treatment of NO3- and ClO- in a MBfR...
  2. doi request reprint Utilisation of wastewater nutrients for microalgae growth for anaerobic co-digestion
    Ashish K Sahu
    Aquateam Norwegian Water Technology Center AS, Oslo, Norway
    J Environ Manage 122:113-20. 2013
    ..A maximum microalgae growth rate of 13 g TSS/m(2)-d was achieved using this pretreated reject water. The challenges of integrating photobioreactors with existing units have been highlighted...
  3. ncbi request reprint Biological perchlorate reduction in packed bed reactors using elemental sulfur
    Ashish K Sahu
    Aquateam Norwegian Water Technology Centre A S, Oslo, Norway
    Environ Sci Technol 43:4466-71. 2009
    ..The microbial community composition was found to change with ClO4- availability from a majority of Beta-Proteobacteria near the influent end of the reactor to primarily sulfur-oxidizing bacteria near the effluent end of the reactor...