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M R Mattei

Showing results (1-10 of 8) with videos related to

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Mathematical Biosciences|December 3, 2014
Modeling multispecies biofilms including new bacterial species invasionB D'Acunto, L Frunzo, I Klapper, et al.
Journal of Environmental Management|August 23, 2022
Mathematical modelling of an intermittent anoxic/aerobic MBBR: Estimation of nitrification rates and energy savingsD Montecchio, M R Mattei, G Esposito, et al.
Mathematical Biosciences|August 5, 2018
Mathematical modeling of dispersal phenomenon in biofilmsB D'Acunto, L Frunzo, I Klapper, et al.
Journal of Environmental Management|April 27, 2019
ADM1-based mechanistic model for the role of trace elements in anaerobic digestion processesL Frunzo, F G Fermoso, V Luongo, et al.
Bulletin of Mathematical Biology|November 6, 2021
Multiscale Modelling of De Novo Anaerobic GranulationA Tenore, F Russo, M R Mattei, et al.
Journal of Mathematical Biology|July 26, 2017
Continuum and discrete approach in modeling biofilm development and structure: a reviewM R Mattei, L Frunzo, B D'Acunto, et al.
Water Science and Technology : a Journal of the International Association on Water Pollution Research|March 22, 2020
Corrigendum: Water Science and Technology 78 (6), 1296-1303: Sensitivity analysis for an elemental sulphur-based two-step denitrification model, https://iwaponline.com/wst/article/78/6/1296/64045/Sensitivity-analysis-for-an-elemental-sulfur-basedA Kostrytsia, S Papirio, M R Mattei, et al.
Water Science and Technology : a Journal of the International Association on Water Pollution Research|November 3, 2018
Sensitivity analysis for an elemental sulfur-based two-step denitrification modelA Kostrytsia, S Papirio, M R Mattei, et al.
Pageof 1

Showing results (1-10 of 8) with videos related to

Sort By:
Pageof 1
Mathematical Biosciences|December 3, 2014
Modeling multispecies biofilms including new bacterial species invasionB D'Acunto, L Frunzo, I Klapper, et al.
Journal of Environmental Management|August 23, 2022
Mathematical modelling of an intermittent anoxic/aerobic MBBR: Estimation of nitrification rates and energy savingsD Montecchio, M R Mattei, G Esposito, et al.
Mathematical Biosciences|August 5, 2018
Mathematical modeling of dispersal phenomenon in biofilmsB D'Acunto, L Frunzo, I Klapper, et al.
Journal of Environmental Management|April 27, 2019
ADM1-based mechanistic model for the role of trace elements in anaerobic digestion processesL Frunzo, F G Fermoso, V Luongo, et al.
Bulletin of Mathematical Biology|November 6, 2021
Multiscale Modelling of De Novo Anaerobic GranulationA Tenore, F Russo, M R Mattei, et al.
Journal of Mathematical Biology|July 26, 2017
Continuum and discrete approach in modeling biofilm development and structure: a reviewM R Mattei, L Frunzo, B D'Acunto, et al.
Water Science and Technology : a Journal of the International Association on Water Pollution Research|March 22, 2020
Corrigendum: Water Science and Technology 78 (6), 1296-1303: Sensitivity analysis for an elemental sulphur-based two-step denitrification model, https://iwaponline.com/wst/article/78/6/1296/64045/Sensitivity-analysis-for-an-elemental-sulfur-basedA Kostrytsia, S Papirio, M R Mattei, et al.
Water Science and Technology : a Journal of the International Association on Water Pollution Research|November 3, 2018
Sensitivity analysis for an elemental sulfur-based two-step denitrification modelA Kostrytsia, S Papirio, M R Mattei, et al.
Pageof 1