Skip to Main Content

A consistent modelling methodology for secondary settling tanks: a reliable numerical method

Water Sci Technol (2013) 68 (1): 192–208.
This article has been cited by the following articles in journals that are participating in CrossRef Cited-by Linking.
  • Runda Jia
  • Bin Zhang
  • Dakuo He
  • Zhizhong Mao
  • Fei Chu
Minerals Engineering (2020) 146: 106141.
  • Raimund Bürger
  • Stefan Diehl
  • María Carmen Martí
  • Yolanda Vásquez
Water Science and Technology (2020) 81 (8): 1723.
  • R. Bürger
  • J. Careaga
  • S. Diehl
Water Science and Technology (2020) 81 (8): 1715.
  • Raimund Bürger
  • Stefan Diehl
  • María del Carmen Martí
  • Yolanda Vásquez
Minerals Engineering (2020) 157: 106419.
  • Benedek G. Plósz
  • Javier Climent
  • Christopher T. Griffin
  • Sergio Chiva
  • Rani Mukherjee
  • Elena Penkarski-Rodon
  • Matthew Clarke
  • Borja Valverde-Pérez
Water Research (2020) 184: 116129.
  • Raimund Bürger
  • Ilja Kröker
Journal of Computational and Applied Mathematics (2019) 348: 490.
  • Oliver Schraa
  • Leiv Rieger
  • Jens Alex
  • Ivan Miletić
Water Science and Technology (2019) 79 (1): 63.
  • Raimund Bürger
  • Stefan Diehl
  • Camilo Mejías
ESAIM: Mathematical Modelling and Numerical Analysis (2018) 52 (2): 365.
  • Elena Torfs
  • Sophie Balemans
  • Florent Locatelli
  • Stefan Diehl
  • Raimund Bürger
  • Julien Laurent
  • Pierre François
  • Ingmar Nopens
Water Research (2017) 110: 38.
  • Magnus Arnell
  • Magnus Rahmberg
  • Felipe Oliveira
  • Ulf Jeppsson
Journal of Water and Climate Change (2017) 8 (4): 715.
  • Elena Torfs
  • M. Carmen Martí
  • Florent Locatelli
  • Sophie Balemans
  • Raimund Bürger
  • Stefan Diehl
  • Julien Laurent
  • Peter A. Vanrolleghem
  • Pierre François
  • Ingmar Nopens
Water Science and Technology (2017) 75 (3): 539.
  • Raimund Bürger
  • Stefan Diehl
  • M. Carmen Martí
  • Pep Mulet
  • Ingmar Nopens
  • Elena Torfs
  • Peter A. Vanrolleghem
Applied Mathematical Modelling (2017) 49: 415.
  • Raimund Bürger
  • Julio Careaga
  • Stefan Diehl
Chemical Engineering Communications (2017) 204 (11): 1270.
  • Haoran Zhang
  • Yongtu Liang
  • Xiaohan Yan
  • Bohong Wang
  • Ning Wang
Journal of Petroleum Science and Engineering (2017) 156: 366.
  • Guihua Xu
  • Fengjun Yin
  • Yuanjian Xu
  • Han-Qing Yu
Water Research (2017) 127: 118.
  • R. Saagi
  • X. Flores-Alsina
  • S. Kroll
  • K.V. Gernaey
  • U. Jeppsson
Environmental Modelling & Software (2017) 93: 282.
  • Raimund Bürger
  • Stefan Diehl
  • Camilo Mejías
Water Science and Technology (2016) 73 (5): 1010.
  • Raimund Bürger
  • Julio Careaga
  • Stefan Diehl
  • Camilo Mejías
  • Ingmar Nopens
  • Elena Torfs
  • Peter A. Vanrolleghem
Computers & Chemical Engineering (2016) 92: 216.
  • S. Diehl
  • S. Farås
  • G. Mauritsson
Computers & Mathematics with Applications (2015) 70 (4): 459.
  • E. Torfs
  • T. Maere
  • R. Bürger
  • S. Diehl
  • I. Nopens
Water Science and Technology (2015) 71 (10): 1524.
  • Raimund Bürger
  • Sarvesh Kumar
  • Ricardo Ruiz-Baier
Journal of Computational Physics (2015) 299: 446.
  • Ben Li
  • Michael K. Stenstrom
Computers & Chemical Engineering (2015) 80: 211.
  • Fernando Betancourt
  • Raimund Bürger
  • Stefan Diehl
  • Sebastian Farås
Minerals Engineering (2014) 62: 91.
  • Majid Unesi
  • Mohammad Noaparast
  • Seiyd Ziaedin Shafaei
  • Esmaeil Jorjani
International Journal of Minerals, Metallurgy, and Materials (2014) 21 (9): 851.
  • Fernando Betancourt
  • Raimund Bürger
  • Stefan Diehl
  • Camilo Mejías
Minerals Engineering (2014) 63: 2.
Close Modal

or Create an Account

Close Modal
Close Modal