DIGIDRAIN

City-scale DIGItal twins for urban DRAINage systems: bringing “smart” to water infrastructure

Details

Title:	City-scale DIGItal twins for urban DRAINage systems: bringing “smart” to water infrastructure
Acronym:	DIGIDRAIN
Type:	Science project, Capacity building
Status:
Principal investigator:	Assist. Prof. Dr Miloš Milašinović
Participants:	Faculty of Civil Engineering; University of Belgrade, Serbia (GRFUB) The Institute for Artificial Intelligence Research and Development of Serbia (IVI) Faculty of Civil Engineering and Architecture; University of Niš, Serbia (GAFUN) KWR Water Research Institute (KWR), Netherlands Delft University of Technology (TUD), Netherlands Queensland University of Technology (QUT), Australia Toronto Metropolitan University (TMU), Canada Imperial College London (ICL), UK
External collaborators:	IRTCUD
Stakeholders:	Public Utility Company “Belgrade Waterworks and Sewerage”, Serbia (BWS) AtkinsRéalis, UK
Funding:	Science Fund of the Republic of Serbia (100%)
Total budget:	194 417 EUR
Started:	December 2024
Duration:	24 months

Description

Urban drainage infrastructure faces major challenges to keep desired performance levels due to aging systems, worsened by both natural and anthropogenic factors. To address these challenges and enhance the sustainability, safety, and resilience of urban drainage systems (UDSs), innovative management solutions and strategies are a must.
Ongoing digital transformation represents an opportunity for water utilities to solve some of the urgent issues they are facing. Digital Twins (virtual replicas) could be a viable decision support tool for water utilities. DIGIDRAIN project aims at contributing to the creation of such a next-gen Digital Twin (DT) framework for UDSs.
The project is based on knowledge transfer between diaspora experts and Serbian researchers and on synergy of Serbia-Diaspora team in joint research toward next-gen DT framework. The research aims at developing solutions for integrating the UDS sensor data and simulation model into the DT. This can help water utilities to:

enable energy efficiency and efficiency in resources allocation through real-time monitoring and modelling of the UDS
create safe virtual environment to assess various “what-if” scenarios and inform contingency planning and operation decisions, and
create virtual environment for developing and testing novel blue-green technologies (aka NBS) to increase system resilience.

The innovative solutions will be developed using international open access databases and will be demonstrated on a local demo site. During the project industrial stakeholders will be actively involved in project activities which will help in increasing outreach to other industrial end-users.

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