Lund University Publications

@techreport{30d5045a-bf09-412f-97ed-6a0e464cbcf5,
  abstract     = {{In this document, a large number of mathematical models describing various<br/><br>
physical, biological and chemical processes in a wastewater treatment<br/><br>
plant are presented. In most cases, the models are fairly simple as they are<br/><br>
inteded for steady-state simulations based on yearly averages of the influent<br/><br>
wastewater charteristics. The combination of models forms a software tool<br/><br>
namned URWARE (URban WAter REsearch model), which is a tool for<br/><br>
substance flow analysis and energy calculations in wastewater treatment<br/><br>
systems. All models are based on the MATLAB/Simulink platform.<br/><br>
The different models can be combined in any fashion thereby creating<br/><br>
various system structures that can be analysed and compared. The models<br/><br>
keep track of numerous substances related to wastewater, such as organic<br/><br>
substances, nutrients and to some extent heavy metals. Within all models the<br/><br>
release of environmentally hazardous substances to water, soil and air are<br/><br>
calculated. The results can be used as one (of many) information pathways<br/><br>
for strategic decision making related to urban water systems.<br/><br>
The individual models are described one by one and their behaviours are<br/><br>
exemplified by simulation results. In many cases, comparisons with other<br/><br>
available software models are given to validate (or at least make plausible)<br/><br>
the results produced by the fairly simple URWARE models. Simulation<br/><br>
results based on a combination of models into a complete wastewater<br/><br>
treatment plant are also presented. However, details about the underlying<br/><br>
theory and hypotheses on which the models are based cannot always be<br/><br>
sufficiently described due to space limitations. Moreover, users should always<br/><br>
be critical to any results predicted by models and not take them for<br/><br>
granted simply because they have been calculated by a computer model.<br/><br>
Knowledge about the real processes and comparisons with real data are<br/><br>
imperative to evaluate whether the predicted results are reasonable or not.<br/><br>
For the interested reader the complete source code to all models is included<br/><br>
in an extensive appendix.<br/><br>
A modelling task of this magnitude is never completed. The proposed<br/><br>
models can always be further developed, improved and refined. Consequently,<br/><br>
the models described in this document only represent the first<br/><br>
version of the URWARE software. Many issues remain to be solved and<br/><br>
further improvements to be done. However, it is the hope of the authors that<br/><br>
the presented models are mature enough to be used, evaluated, modified<br/><br>
and improved by other users outside the URWARE task group.}},
  author       = {{Jeppsson, Ulf and Baky, A and Hellström, D and Jönsson, H and Kärrman, E}},
  institution  = {{Urban Water, Chalmers University of Technology}},
  issn         = {{1650-3791}},
  language     = {{eng}},
  number       = {{2005:5}},
  series       = {{Urban Water rapport}},
  title        = {{URWARE Wastewater Treatment Plant Models}},
  url          = {{https://lup.lub.lu.se/search/files/4541059/588063.pdf}},
  year         = {{2005}},
}