Modeling of constructed wetland performance in BOD5 removal for domestic wastewater under changes in relative humidity using genetic programming

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@Article{Vanitha:2017:EMS,
  author =       "Sankararajan Vanitha and Neelakandhan Nampoothiri and 
                 Chandrasekaran Sivapragasam",
  title =        "Modeling of constructed wetland performance in BOD5
                 removal for domestic wastewater under changes in
                 relative humidity using genetic programming",
  journal =      "Environmental Monitoring and Assessment",
  year =         "2017",
  volume =       "189",
  number =       "4",
  pages =        "164",
  month =        "15 " # mar,
  keywords =     "genetic algorithms, genetic programming",
  ISSN =         "1573-2959",
  URL =          "https://doi.org/10.1007/s10661-017-5857-y",
  DOI =          "doi:10.1007/s10661-017-5857-y",
  abstract =     "Despite the extensive use of constructed wetland (CW)
                 as an effective method for domestic wastewater
                 treatment, there is lack of clarity in arriving at
                 well-defined design guidelines. This is particularly
                 due to the fact that the design of CW is dependent on
                 many inter-connected parameters which interact in a
                 complex manner. Consequently, different researchers in
                 the past have tried to address different aspects of
                 this complexity. In this study, an attempt is made to
                 model the influence of relative humidity (RH) in the
                 effectiveness of BOD5 removal. Since it is an accepted
                 fact that plants respond to change in humidity, it is
                 necessary to take this parameter into consideration
                 particularly when the CW is to be designed involving
                 changes in relative humidity over a shorter time
                 horizon (say a couple of months). This study reveals
                 that BOD5out depends on the ratio of BOD5in and
                 relative humidity. An attempt is also made to model the
                 outlet BOD5 using genetic programming with inlet BOD5
                 and relative humidity as input parameters.",
  notes =        "See also \cite{Sivapragasam:2017:EMA}",
}

Genetic Programming entries for Sankararajan Vanitha N V N Nampoothiri C Sivapragasam

Citations