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Sustainable Rainwater Management in a Public Park : Small-scale Sustainable Drainage System (SuDS) in the New Public Park of Iklad, Galga Valley, Hungary

Kosztolanyi, Noemi (2025)

 
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Kosztolanyi, Noemi
2025
All rights reserved. This publication is copyrighted. You may download, display and print it for Your own personal use. Commercial use is prohibited.
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Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi:amk-2025101926173
Tiivistelmä
Climate change is altering precipitation patterns in both intensity and distribution, presenting new challenges for stormwater management. Moving from conventional drainage systems toward sustainable water solutions requires not only engineering innovation but also social and regulatory adaptation.
The objective of the thesis is to examine the possibilities of sustainable rainwater management through a case study in Iklad, a village in Hungary’s Galga Valley. The site, planned for a new public park, currently includes a partially paved ditch that drains directly into the Galga stream. While it still serves this function, climate projections suggest that droughts may become more frequent, emphasizing the importance of local water retention. The aim of this paper is to demonstrate how even small-scale interventions in stormwater design could contribute to improved water balance and resilience.
The methodology of this thesis was based on hydrological and hydraulic simulations conducted with OpenFlows CivilStorm (Bentley) software. The tools and data sources included rainfall statistics from the Hungarian Meteorological Service, and the modelling followed Hungarian Technical Guidelines and recommendations from the National Water Directorate. The performance of the existing ditch was compared with that of a proposed retention-based system under a 100-year design storm.
The results showed that the retention-based system reduced peak flow and water depth at the outfall, supporting both flood mitigation and microclimatic benefits within the park and the surrounding settlement. The study highlights the value of water-conscious design in urban and landscape planning and encourages the integration of sustainable water practices, even at the smallest scales.
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