• Title of article

    CO2 Biofixation by Dunaliella Salina in Batch and Semi-Continuous Cultivations, Using Hydrophobic and Hydrophilic Poly Ethylene (PE) Hollow Fiber Membrane Photobioreactors

  • Author/Authors

    Mortezaeikia، v نويسنده Process/Production Department, South Pars Gas Complex (SPGC), Asaluyeh, Iran , , Yegani، R نويسنده Membrane Technology Research Center, Faculty ofChemical Engineering, Sahand University of Technology, Tabriz, Iran , , Hejazi، A نويسنده Agricultural Biotechnology Research Institute of West & North-West, Tabriz, Iran , , CheginiS، S نويسنده Membrane Technology Research Center, Faculty ofChemical Engineering, Sahand University of Technology, Tabriz, Iran ,

  • Issue Information
    فصلنامه با شماره پیاپی سال 2016
  • Pages
    13
  • From page
    47
  • To page
    59
  • Abstract
    In this work, performance of hollow fiber membrane photobioreactor (HFMPB) on the growth ofDunaliella Salina (G26) at various aeration rates (0.1 and 0.2 VVm) and medium re-circulation flow rates (500 and 1000 mL/h) were studied. Cultivation was carried out at both batch and semicontinuous modes in HFMPBs containing neat and hydrophilized in-house fabricated poly ethylene (PE) membranes at fixed light intensity of 300 µmol/ m2.s and temperature of 30oC. Microalgae showed better growth in hydrophobic module in both cultivation modes and modules. Maximum biomass concentration, CO2 biofixation and specific growth rates equal with 0.71g/L, 1.102g/L.d and 0.2241/d were obtained for non-wetted membranes, respectively. Comparing the performance of both modules showed that the impact of cultivation mode on the CO2 biofixation rate and CO2 removal is more pronounced than the impact of mass transfer resistance in membrane contactors. The obtained results show that the mean CO2 biofixation rates in semi-continuous cultivation for both neat and hydrophilized modules are higher than that in batch cultivation in all operating conditions. It was also found that the hydrophobic membranes are much preferable than hydrophilic membrane in HFMPBs
  • Journal title
    Iranian Journal of Chemical Engineering
  • Serial Year
    2016
  • Journal title
    Iranian Journal of Chemical Engineering
  • Record number

    2386375