Flood modelling and proposed Blue-Green Solutions – A case study in Lisbon, Portugal

Arnsteg, Alexandra; Glinski, Juliane; Marijauskaite, Patricija; Nitschke, Annika; Olsson, Marianne; Pierre, Agnes; Rosenquist Ohlsson, Lovisa; van der Vleuten, Sacha; Pilesjö, Petter

Flood modelling and proposed Blue-Green Solutions – A case study in Lisbon, Portugal

Mark

Arnsteg, Alexandra ; Glinski, Juliane ; Marijauskaite, Patricija ; Nitschke, Annika ; Olsson, Marianne ; Pierre, Agnes ; Rosenquist Ohlsson, Lovisa ^LU ; van der Vleuten, Sacha and Pilesjö, Petter ^LU (2022) 25th AGILE Conference on Geographic Information Science In AGILE GIScience Ser. 3(53).

Abstract: This study assesses the potential benefit of Blue-Green Solutions (BGS), green rooftops, rain gardens, permeable pavements, and bioswales, in Lisbon, Portugal. These proposed mitigation measures are applied using TFM-DYN (Nilsson et al., 2021) to simulate potential fluvial flooding distributions from a 10- and 50-year rain event.

Water depth of over 30 centimeters can cause damage to infrastructure. The model results show water depths of over 40 centimeters in some parts of the study area for the 10-year return period, raising the need for action. For the 50-year return period even more areas will be affected. These floods can occur at a relatively rapid pace. Four BGS were implemented for flood mitigation. Areas with green roofs... (More); This study assesses the potential benefit of Blue-Green Solutions (BGS), green rooftops, rain gardens, permeable pavements, and bioswales, in Lisbon, Portugal. These proposed mitigation measures are applied using TFM-DYN (Nilsson et al., 2021) to simulate potential fluvial flooding distributions from a 10- and 50-year rain event.

Water depth of over 30 centimeters can cause damage to infrastructure. The model results show water depths of over 40 centimeters in some parts of the study area for the 10-year return period, raising the need for action. For the 50-year return period even more areas will be affected. These floods can occur at a relatively rapid pace. Four BGS were implemented for flood mitigation. Areas with green roofs and rain gardens showed a lowering in water depth for both return periods. This study shows that even relatively simple data allows for an estimation of urban flooding and the potential effect of BGS for specific locations can easily be determined. (Less)

Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/c790e810-6189-4b04-8c32-bd29bc592cbf

author

Arnsteg, Alexandra ; Glinski, Juliane ; Marijauskaite, Patricija ; Nitschke, Annika ; Olsson, Marianne ; Pierre, Agnes ; Rosenquist Ohlsson, Lovisa ^LU ; van der Vleuten, Sacha and Pilesjö, Petter ^LU

organization

publishing date

2022-06-11

type

Chapter in Book/Report/Conference proceeding

publication status

published

subject

keywords

flood mitigation, hydrological model, pluvial flooding, TFM-DYN, Blue-Green Solutions (BGS)

host publication

Proceedings of the 25th AGILE Conference on Geographic Information Science, 2022.

series title

AGILE GIScience Ser.

editor

Parseliunas, E. ; Mansourian, A. ; Partsinevelos, P. and Suziedelyte-Visockiene, J.

volume

3

issue

53

pages

9 pages

publisher

Copernicus GmbH

conference name

25th AGILE Conference on Geographic Information Science

conference location

Vilnius, Lithuania

conference dates

2022-06-14 - 2022-06-17

DOI

10.5194/agile-giss-3-53-2022

language

English

LU publication?

yes

id

c790e810-6189-4b04-8c32-bd29bc592cbf

date added to LUP

2024-09-26 15:56:47

date last changed

2025-04-04 14:09:16

@inproceedings{c790e810-6189-4b04-8c32-bd29bc592cbf,
  abstract     = {{This study assesses the potential benefit of Blue-Green Solutions (BGS), green rooftops, rain gardens, permeable pavements, and bioswales, in Lisbon, Portugal. These proposed mitigation measures are applied using TFM-DYN (Nilsson et al., 2021) to simulate potential fluvial flooding distributions from a 10- and 50-year rain event.<br/><br/>Water depth of over 30 centimeters can cause damage to infrastructure. The model results show water depths of over 40 centimeters in some parts of the study area for the 10-year return period, raising the need for action. For the 50-year return period even more areas will be affected. These floods can occur at a relatively rapid pace. Four BGS were implemented for flood mitigation. Areas with green roofs and rain gardens showed a lowering in water depth for both return periods. This study shows that even relatively simple data allows for an estimation of urban flooding and the potential effect of BGS for specific locations can easily be determined.}},
  author       = {{Arnsteg, Alexandra and Glinski, Juliane and Marijauskaite, Patricija and Nitschke, Annika and Olsson, Marianne and Pierre, Agnes and Rosenquist Ohlsson, Lovisa and van der Vleuten, Sacha and Pilesjö, Petter}},
  booktitle    = {{Proceedings of the 25th AGILE Conference on Geographic Information Science, 2022.}},
  editor       = {{Parseliunas, E. and Mansourian, A. and Partsinevelos, P. and Suziedelyte-Visockiene, J.}},
  keywords     = {{flood mitigation; hydrological model; pluvial flooding; TFM-DYN; Blue-Green Solutions (BGS)}},
  language     = {{eng}},
  month        = {{06}},
  number       = {{53}},
  publisher    = {{Copernicus GmbH}},
  series       = {{AGILE GIScience Ser.}},
  title        = {{Flood modelling and proposed Blue-Green Solutions – A case study in Lisbon, Portugal}},
  url          = {{http://dx.doi.org/10.5194/agile-giss-3-53-2022}},
  doi          = {{10.5194/agile-giss-3-53-2022}},
  volume       = {{3}},
  year         = {{2022}},
}

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Flood modelling and proposed Blue-Green Solutions – A case study in Lisbon, Portugal