Enhancing groundwater recharge in drinking water protection zones in Flanders (Belgium): A novel approach to assess stormwater managed aquifer recharge potential

Flanders (Belgium) Stormwater infiltration for managed aquifer recharge is increasingly recognized as a drought adaptation measure. Given the high degree of urbanization and imperviousness, stormwater infiltration has significant potential in Flanders (Belgium). This research presents a novel approa...

Full description

Saved in:
Bibliographic Details
Published in:Journal of hydrology. Regional studies 2024-06, Vol.53, p.101747, Article 101747
Main Authors: Speijer, Lara, Six, Simon, van der Grift, Bas, Cirkel, Dirk Gijsbert, Verreydt, Goedele, Dams, Jef, Huysmans, Marijke
Format: Article
Language:English
Subjects:
Flanders Belgium
GIS methodology
Infiltration
Managed aquifer recharge
Stormwater availability
Citations: Items that this one cites
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Flanders (Belgium) Stormwater infiltration for managed aquifer recharge is increasingly recognized as a drought adaptation measure. Given the high degree of urbanization and imperviousness, stormwater infiltration has significant potential in Flanders (Belgium). This research presents a novel approach to quantify stormwater availability and its potential to enhance groundwater recharge. Stormwater volumes available for recharge are calculated based on the imperviousness level, yearly average precipitation volumes, and runoff coefficients. This study focuses on groundwater protection zones around drinking water wells to assess the role of increased infiltration for sustainable drinking water production. Calculated potential stormwater volumes for recharge are compared to natural groundwater recharge and pumping volumes for drinking water production to quantify the potential significance of stormwater infiltration for aquifer recharge. Results show a high potential for stormwater infiltration in Flemish protection zones with an average of 17% (7%-33%) additional groundwater recharge from stormwater infiltration. Additionally, stormwater recharge could potentially compensate for 19% (8%-37%) of abstracted drinking water production from phreatic aquifers. Locally, higher groundwater recharge potentials were calculated, especially in protection zones around the city of Leuven. Therefore, stormwater harvesting for infiltration and groundwater recharge should be further encouraged throughout the region, with special attention to urban areas. However, further research is needed on stormwater quality to assess groundwater quality risks in this water quantity-quality balancing exercise. [Display omitted] •GIS method quantifying stormwater managed aquifer recharge potential.•Strong spatial variability of potential for Flemish groundwater protection zones.•In total 17% additional groundwater recharge from stormwater infiltration.•In total a 19% compensation of abstracted phreatic groundwater.
ISSN:2214-5818
2214-5818
DOI:10.1016/j.ejrh.2024.101747