Add to ORKGThis paper presents a model of growth of naturally occurring heterotrophic bacteria in the bulk water phase in the absence of disinfectant. The model considers growth with carbon, phosphorus and nitrogen balance, death and lysis of dead bacteria and conversion of less biodegradable organic carbon to assimilable organic carbon. Experimental data from two raw and two treated waters were used to test the model. The model describes the increase of live and dead bacterial cells in the water phase and its output closely matches the experimental data. Such a model has the ability to characterise water nutrient status as well as to predict behaviour of indigenous heterotrophic bacteria. The ability to predict bacterial population dynamics with r...
Bacteria are capable of adaptation to a variety of environmental extremes that abound in freshwater ...
All around the world there are strict requirements for drinking water purification and there are spe...
280 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1988.Biological nitrification in w...
This paper presents a model of growth of naturally occurring heterotrophic bacteria in the bulk wate...
This article presents a model of growth of naturally occurring heterotrophic bacteria in the bulk wa...
A simple biofilm model was developed to describe the growth of bacteria in drinking water biofilms a...
A growing concern among drinking water microbiologists is the frequent deterioration of water qualit...
In drinking water (DW) and the distribution systems, bacterial growth and biofilm formation have to ...
Abstract: A dynamic water quality model for drinking water distribution systems has been developed i...
A dynamic water quality model for drinking water distribution systems has been developed in this stu...
The bacterial regrowth potential (BRP) method was utilised to indirectly measure the assimilable org...
Bacterial regrowth in drinking water distribution systems is a source of concern since it could resu...
Bacterial regrowth is causing drinking water deterioration in the distribution networks. The mathema...
<p/>Growth ("regrowth") of bacteria In drinking water distribution systems results in a deteri...
abstract: The deterioration of drinking-water quality within distribution systems is a serious cause...
Bacteria are capable of adaptation to a variety of environmental extremes that abound in freshwater ...
All around the world there are strict requirements for drinking water purification and there are spe...
280 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1988.Biological nitrification in w...
This paper presents a model of growth of naturally occurring heterotrophic bacteria in the bulk wate...
This article presents a model of growth of naturally occurring heterotrophic bacteria in the bulk wa...
A simple biofilm model was developed to describe the growth of bacteria in drinking water biofilms a...
A growing concern among drinking water microbiologists is the frequent deterioration of water qualit...
In drinking water (DW) and the distribution systems, bacterial growth and biofilm formation have to ...
Abstract: A dynamic water quality model for drinking water distribution systems has been developed i...
A dynamic water quality model for drinking water distribution systems has been developed in this stu...
The bacterial regrowth potential (BRP) method was utilised to indirectly measure the assimilable org...
Bacterial regrowth in drinking water distribution systems is a source of concern since it could resu...
Bacterial regrowth is causing drinking water deterioration in the distribution networks. The mathema...
<p/>Growth ("regrowth") of bacteria In drinking water distribution systems results in a deteri...
abstract: The deterioration of drinking-water quality within distribution systems is a serious cause...
Bacteria are capable of adaptation to a variety of environmental extremes that abound in freshwater ...
All around the world there are strict requirements for drinking water purification and there are spe...
280 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1988.Biological nitrification in w...