Author:
Gaebler Harry J.,Hughes Jack M.,Eberl Hermann J.
Publisher
Springer International Publishing
Reference15 articles.
1. Abbas, F., Eberl, H.: Investigation of the role of mesoscale detachment rate expressions in a macroscale model of a porous medium biofilm reactor. Int. J. Biomath. Biostats 2(1), 123–143 (2013)
2. Ballyk, M.M., Jones, D.A., Smith, H.L.: Microbial competition in reactors with wall attachment: a mathematical comparison of chemostat and flug flow models. Microb. Ecol. 41, 210–221 (2001)
3. Corapcioglu, M.Y. (ed.): Advances in Porous Media, vol. 3. Elsevier, Amsterdam, Netherlands (1993)
4. Gaebler, H.J., Eberl, H.J.: First order versus Monod kinetics in numerical simulation of biofilms in porous media. In: Kilgour, D.M., Kunze, H., Makarov, R., Melnik, M., Wang, X. (eds.) Recent Advances in Mathematical and Statistical Methods, pp. 351–361. Springer International Publishing, Switzerland (2018)
5. Gaebler, H.J., Eberl, H.J.: A simple model of biofilm growth in a porous medium that accounts for detachment and attachment of suspended biomass and their contribution to substrate degradation. Eur. J. Appl. Math. 29, 1110–1140 (2018)