Zobrazeno 1 - 10
of 38
pro vyhledávání: '"W.W.J.M. de Vet"'
Autor:
Bas Hofs, J. Dusseldorp, S. van de Wetering, F. Schoonenberg Kegel, H. Leijssen, W.W.J.M. de Vet, C. G. E. M. van Beek, Koen Huysman, Koen Joris
Publikováno v:
Journal of Water Supply: Research and Technology-Aqua. 65:195-207
In groundwater treatment, after aeration, iron(II) is precipitated in rapid sand filtration (RSF) by homogeneous, heterogeneous and biological oxidation. The contribution of homogeneous iron(II) oxidation may be calculated from equations and constant
Autor:
C. Bertelkamp, W.W.J.M. de Vet, Jantinus H. Bruins, Bas Hofs, B. van den Akker, J. Dusseldorp, F. Schoonenberg Kegel, D. Vries
Publikováno v:
Water research. 109
A model has been developed that takes into account the main characteristics of (submerged) rapid filtration: the water quality parameters of the influent water, notably pH, iron(II) and manganese(II) concentrations, homogeneous oxidation in the super
Publikováno v:
Water Research. 46:1061-1069
Phosphorus limitation has been demonstrated for heterotrophic growth in groundwater, in drinking water production and distribution systems, and for nitrification of surface water treatment at low temperatures. In this study, phosphorus limitation was
Publikováno v:
Biotechnology and Bioengineering. 109:904-912
The growth of iron-oxidizing bacteria, generally regarded as obligate microaerophilic at neutral pH conditions, has been reported in a wide range of environments, including engineered systems for drinking water production. This research focused on in
Publikováno v:
Water Research. 45:5389-5398
Iron oxidation under neutral conditions (pH 6.5-8) may be a homo- or heterogeneous chemically- or a biologically-mediated process. The chemical oxidation is supposed to outpace the biological process under slightly alkaline conditions (pH 7-8). The i
Autor:
W.W.J.M. de Vet, P.W.J.J. van der Wielen, Luuk C. Rietveld, M.C.M. van Loosdrecht, Robbert Kleerebezem
Publikováno v:
Water Research. 45:4008-4018
In groundwater treatment for drinking water production, the causes of nitrification problems and the effectiveness of process optimization in rapid sand filters are often not clear. To assess both issues, the performance of a full-scale groundwater f
Publikováno v:
Water Research. 44:5761-5769
Subsurface iron and arsenic removal has the potential to be a cost-effective technology to provide safe drinking water in rural decentralized applications, using existing shallow tube wells. A community-scale test facility in Bangladesh was construct
Publikováno v:
Drinking Water Engineering and Science, Vol 3, Iss 1, Pp 79-90 (2010)
Drinking Water Engineering and Science Discussions, 2, 2009
Drinking Water Engineering and Science, 3 (1), 2010
Drinking Water Engineering and Science Discussions, 2, 2009
Drinking Water Engineering and Science, 3 (1), 2010
In drinking water production, river bank filtration has the advantages of dampening peak concentrations of many dissolved components, substantially removing many micropollutants and removing, virtually completely, the pathogens and suspended solids.
Publikováno v:
Journal of Water Supply: Research and Technology-Aqua. 58:247-256
In the production of drinking water from groundwater, iron removal in filters may interfere with nitrification. Microbial nitrification might decline because of irreversible accumulation of iron deposits in pores and on filter material. This paper sh
Publikováno v:
Water research. 43(1)
In full-scale drinking water production from groundwater, subsurface aeration is an effective means of enhancing the often troublesome process of nitrification. Until now the exact mechanism, however, has been unknown. By studying the microbial popul