Eng.D ThesisRegulatory drivers, climate change and urbanisation put pressure on urban water managers to
find sustainable solutions protecting people and properties from floods now and in the future.
For this purpose flood model simulations and analysis are conducted to assess impacts of
change on existing systems and to test options for adaptation. Recent developments in
hydrodynamic models like CityCAT offer innovative concepts for effective and efficient
integrated urban flood modelling. The application of new developments however is met by
constraints related to the legacy of established modelling strategies, the modelling tools
applied, data availability and the specific duties and responsibilities of stakeholders.
The aim of this thesis is to explore new technologies for the simulation and analysis of urban
flooding and outline a programme for delivering practical solutions for end-users which
addresses these constraints.
To address the important practical challenge of missing and inadequate data, a method for
generating synthetic networks of storm drain inlets was developed and demonstrated. Tested
in fully coupled CityCAT models to link the surface and sub-surface drainage domain, results
have shown that synthetic networks of storm drain inlets provide satisfactory results
compared with surveyed inlet networks. The results also highlight the sensitivity of the inlet
drainage performance related to their location and elevation.
Additionally, a generic, open-source flood exposure analysis tool was developed. Detailed
hydrodynamic model results and exact building geometries are used to assess the potential
internal flooding of buildings for entire cities. Newly developed mapping scripts combine
exposure results with hydrodynamic model results to assess cause and consequence of floods.
The third part of the thesis presents a strategic-level options appraisal highlighting the
practical and financial benefits in relation to a potential industrial application of the new
developments. With the availability of open architecture modelling software, this section
demonstrates that the model building, simulation and analysis process can be optimised
through the application of automated, generic algorithms and cloud computingScottish Water and EPSRC for co-funding
