TKI: Urban Water Buffer

TKI-UWB_UWB concept.png

Year

2016-2018

Location

Spangen, Rotterdam
Lentsesteeg, Rheden
hNI, Rotterdam
Schilderswijk, The Hague

Status

in progress

Partners

KWR Watercycle Institute,
Wareco, Codema,
Evides Water Company
Municipality of Rotterdam,
Municipality of Rheden,
Municipality of The Hague,
Waterboard Delfland
Waterboard Schieland and Krimpenerwaard,
Rioned, STOWA

Underground storage and recovery of rainwater in urban areas

Cities are increasingly facing flooding due to intense rainfall, as well as water shortages resulting from longer periods of drought. The current solutions are based on centralised discharge and supply, which are often expensive and unsustainable. How can we retain rainwater of urban areas longer and more effectively? And can we then subsequently make use of this water? 

However, the necessary space for retention and infiltration in urban areas is usually scarce, leading to conflicts with other spatial functions. Therefore the Urban Water Buffer (UWB) project strives to retain rainwater in the deeper aquifer: via wells the rainwater is infiltrated, stored and can be extracted for further use. The goal of the project is to investigate whether the Urban Water Buffer can make a significant, positive contribution to the prevention of flooding in urban areas,  while enabling  decentralised water supply . The project consists of four case studies in Rotterdam, Rheden and The Hague. In Rotterdam and Rheden two pilots will be built and monitored.

Within this project, Field Factors focusses on the spatial integration of the UWB the urban context, the design and realisation of the bio-filtration system and the communication of the lessons from the pilot applications through the elaboration of a design guide.

 

Visit project website


__Identify

 
In the first phase of the TKI- UWB project, the location, the water balance, the preliminary design and the estimated costs of actually installing a UWB system has been identified for four cases: Spangen-Rotterdam, hNI- Rotterdam, Rheden and The Hague. The results show that, particularly in the case of the targeted locations in Rotterdam and Rheden, a UWB could make a positive contribution in the short term to the discharge of surplus rainwater and thus to flood prevention. The aspects requiring particular attention are the speed with which the peak precipitation loads can be infiltrated into the subsurface, and the pre-treatment of the rainwater with a view to preventing clogging of the system.

__Design

Pilot in Rheden

Because of the large height differences in the Arnhemsestraatweg in Rheden, rainwater flows quickly from the Veluwe to an intersection. At the junction, the sewer cannot cope with such a quantity of runoff. Due to the limited space in the area, shallow infiltration of rainwater is not an option. Infiltration in the deeper aquifer offers an alternative. To make aquifer storage possible, additional measures has been taken, such as the capture of sludge upstream and the implementation of wadi’s near the infiltration well.

 

 
170816 UWB_graphic_rheden_EN-01.jpg

Pilot in Spangen

Learn more about the details of the Urban Water Buffer Spangen

__Implement

The pilot systems in Rotterdam and Rheden will be executed in spring 2018. The operation and effectiveness of the systems will be monitored within the TKI project. The results will be presented at the end of 2018.

 

Wilrik

Field Factors, 1 Van der Burghweg, Delft, ZH, 2628 CS, Netherlands