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J Hazard Mater


Title:Modelling the removal of volatile pollutants under transient conditions in a two-stage bioreactor using artificial neural networks
Author(s):Lopez ME; Rene ER; Boger Z; Veiga MC; Kennes C;
Address:"Chemical Engineering Laboratory, Faculty of Sciences, University of La Coruna, Rua da Fraga, 10, E-15008 La Coruna, Spain. Chemical Engineering Laboratory, Faculty of Sciences, University of La Coruna, Rua da Fraga, 10, E-15008 La Coruna, Spain; Department of Environmental Engineering and Water Technology, UNESCO-IHE, P.O. Box 3015, 2601 DA Delft, The Netherlands. OPTIMAL-Industrial Neural Systems, 54 Rambal St., Be'er Sheva, 84243 Israel. Chemical Engineering Laboratory, Faculty of Sciences, University of La Coruna, Rua da Fraga, 10, E-15008 La Coruna, Spain. Electronic address: Kennes@udc.es"
Journal Title:J Hazard Mater
Year:2017
Volume:20160308
Issue:Pt A
Page Number:100 - 109
DOI: 10.1016/j.jhazmat.2016.03.018
ISSN/ISBN:1873-3336 (Electronic) 0304-3894 (Linking)
Abstract:"A two-stage biological waste gas treatment system consisting of a first stage biotrickling filter (BTF) and second stage biofilter (BF) was tested for the removal of a gas-phase methanol (M), hydrogen sulphide (HS) and alpha-pinene (P) mixture. The bioreactors were tested with two types of shock loads, i.e., long-term (66h) low to medium concentration loads, and short-term (12h) low to high concentration loads. M and HS were removed in the BTF, reaching maximum elimination capacities (EC(max)) of 684 and 33 gm(-3)h(-1), respectively. P was removed better in the second stage BF with an EC(max) of 130 gm(-3)h(-1). The performance was modelled using two multi-layer perceptrons (MLPs) that employed the error backpropagation with momentum algorithm, in order to predict the removal efficiencies (RE, %) of methanol (RE(M)), hydrogen sulphide (RE(HS)) and alpha-pinene (RE(P)), respectively. It was observed that, a MLP with the topology 3-4-2 was able to predict RE(M) and RE(HS) in the BTF, while a topology of 3-3-1 was able to approximate RE(P) in the BF. The results show that artificial neural network (ANN) based models can effectively be used to model the transient-state performance of bioprocesses treating gas-phase pollutants"
Keywords:"Air Pollutants/*isolation & purification Algorithms Bicyclic Monoterpenes Biodegradation, Environmental *Bioreactors Computer Simulation Hydrogen Sulfide/isolation & purification Methanol/isolation & purification Monoterpenes/isolation & purification *Neu;"
Notes:"MedlineLopez, M Estefania Rene, Eldon R Boger, Zvi Veiga, Maria C Kennes, Christian eng Netherlands 2016/03/30 J Hazard Mater. 2017 Feb 15; 324(Pt A):100-109. doi: 10.1016/j.jhazmat.2016.03.018. Epub 2016 Mar 8"

 
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