WatERP






WatERP: Water Enhanced Resource Planning “Where water supply meets demand"

WatERP will develop a web-based "Open Management Platform (OMP) supported by real-time knowledge on water supply and demand, enabling the entire water supply distribution system to be viewed in an integrated and customized way and preventing integrated water resources management (IWRM) to be fully achieved.

Description

Water supply involves many actors. While many management tools exist, they cannot intercommunicate and no framework is available for integrating all of them, preventing integrated water resources management (IWRM) to be fully achieved. WatERP will develop a web-based Open Management Platform (OMP), integrating Intelligent systems through open Interfaces and combining agent and SOA architectures with the purpose of enable water supply distribution chains to be managed in an unified and customized way.

The OMP will provide Inferred information on water supplies, flows, consumption, distribution efficiency, and supply and demand within a single framework. It comprises three tools: a) Data Warehouse, using semantics and common language, b) Decision Support, for coordinating actions, prioritizing water uses, improving distribution efficiency, and saving water, energy and costs, and c) Demand Management, supporting socio-economic analyses and policies. Open standards will be used to maximize interoperability and data sharing.

WatERP enables improved matching of water supply and demand from a holistic point of view, pursuing two objectives: a) Improving coordination among actors and b) fostering behavioral change to reduce water and energy consumption. By enabling a more dynamic and agile Interaction among the different actors involved in water supply distribution, the platform improves water governance while maintaining the autonomy and Independence of the actors. WatERP will also develop a strong dissemination capability, besides an evaluation of their anticipated cost and benefits and market prospects.

Expected Results
  • Water savings of up to 8% in water-scarce areas where water distribution is already efficient but where further savings could be achieved from improving coordination among operators in the upper part of the distribution chain (e.g., Spanish pilot case: Llobregat river basin)
  • Energy savings of up to 5% in areas where water is abundant and water distribution is already efficient but where energy savings could help reduce costs (e.g., German pilot case: city of Karlsruhe)
  • Additional water, energy and costs savings from increased user awareness and behavioural change
Project Participants
  • Barcelona Digital Technology Centre (BDIGITAL), Spain - Co-ordinator
  • INCLAM Water Engineering (INCLAM), Spain
  • disy Informationssysteme GmbH (DISY), Germany
  • Agència Catalana de l’Aigua (ACA), Spain
  • Staffordshire University (SU), UK
  • Institute of Communication and Computer Systems (ICCS), Greece
  • Hydrometeorological Innovative Solutions (HYDS), Spain
  • German Gas and Waterworks Association (DVGW), Germany
  • Stadtwerke Karlsruhe GmbH (SWKA), Germany