3-D hydrodynamic modelling of flood impacts on a building and indoor flooding  processes

Gems, Bernhard; Mazzorana, Bruno; Hofer, Thomas; Sturm, Michael; Gabl, Roman; Aufleger, Markus

doi:10.5194/nhess-16-1351-2016

Articles | Volume 16, issue 6

https://doi.org/10.5194/nhess-16-1351-2016

© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/nhess-16-1351-2016

© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 16, issue 6

Research article

|

14 Jun 2016

Research article |

| 14 Jun 2016

3-D hydrodynamic modelling of flood impacts on a building and indoor flooding processes

Bernhard Gems, Bruno Mazzorana, Thomas Hofer, Michael Sturm, Roman Gabl, and Markus Aufleger

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Total article views: 4,545 (including HTML, PDF, and XML)

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XML: 149
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Views and downloads (calculated since 19 Jan 2016)

Month	HTML	PDF	XML	Total
Jan 2016	74	22	0	96
Feb 2016	49	17	2	68
Mar 2016	49	13	0	62
Apr 2016	39	13	0	52
May 2016	15	9	0	24
Jun 2016	66	33	1	100
Jul 2016	48	12	1	61
Aug 2016	28	3	1	32
Sep 2016	31	6	0	37
Oct 2016	20	7	1	28
Nov 2016	14	8	2	24
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Jan 2017	23	12	0	35
Feb 2017	12	4	0	16
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Apr 2017	39	10	1	50
May 2017	35	10	0	45
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Jul 2017	30	7	1	38
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Oct 2017	14	8	1	23
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Jan 2018	23	21	1	45
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May 2018	21	18	0	39
Jun 2018	30	25	6	61
Jul 2018	26	34	7	67
Aug 2018	24	31	0	55
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Feb 2019	25	14	1	40
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Apr 2021	13	7	0	20
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Jan 2022	9	21	0	30
Feb 2022	17	41	1	59
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May 2022	36	15	1	52
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Dec 2022	9	10	0	19
Jan 2023	15	13	0	28
Feb 2023	21	15	1	37
Mar 2023	14	13	1	28
Apr 2023	13	10	0	23
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Jun 2023	36	8	0	44
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Dec 2023	17	10	2	29
Jan 2024	20	7	2	29
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Mar 2024	7	12	1	20
Apr 2024	19	7	3	29
May 2024	22	16	7	45
Jun 2024	12	12	2	26
Jul 2024	18	14	4	36
Aug 2024	18	11	3	32
Sep 2024	14	13	1	28
Oct 2024	23	6	1	30
Nov 2024	15	24	0	39
Dec 2024	19	10	1	30
Jan 2025	13	14	0	27
Feb 2025	43	13	3	59
Mar 2025	27	17	0	44
Apr 2025	48	16	0	64
May 2025	63	11	0	74
Jun 2025	48	20	1	69
Jul 2025	22	19	2	43
Aug 2025	23	13	0	36
Sep 2025	39	24	1	64
Oct 2025	33	27	1	61
Nov 2025	28	31	3	62

Cumulative views and downloads (calculated since 19 Jan 2016)

Month	HTML	PDF	XML	Total
Jan 2016	74	22	0	96
Feb 2016	49	17	2	68
Mar 2016	49	13	0	62
Apr 2016	39	13	0	52
May 2016	15	9	0	24
Jun 2016	66	33	1	100
Jul 2016	48	12	1	61
Aug 2016	28	3	1	32
Sep 2016	31	6	0	37
Oct 2016	20	7	1	28
Nov 2016	14	8	2	24
Dec 2016	10	5	0	15
Jan 2017	23	12	0	35
Feb 2017	12	4	0	16
Mar 2017	23	7	0	30
Apr 2017	39	10	1	50
May 2017	35	10	0	45
Jun 2017	29	9	0	38
Jul 2017	30	7	1	38
Aug 2017	24	9	2	35
Sep 2017	17	7	0	24
Oct 2017	14	8	1	23
Nov 2017	33	12	0	45
Dec 2017	22	26	1	49
Jan 2018	23	21	1	45
Feb 2018	29	19	0	48
Mar 2018	31	22	3	56
Apr 2018	28	14	0	42
May 2018	21	18	0	39
Jun 2018	30	25	6	61
Jul 2018	26	34	7	67
Aug 2018	24	31	0	55
Sep 2018	18	26	1	45
Oct 2018	21	45	2	68
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Dec 2018	17	37	0	54
Jan 2019	13	24	3	40
Feb 2019	25	14	1	40
Mar 2019	12	9	1	22
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May 2019	14	21	1	36
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Jul 2019	13	28	2	43
Aug 2019	13	20	2	35
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Feb 2021	14	6	2	22
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May 2021	16	9	1	26
Jun 2021	12	12	0	24
Jul 2021	8	14	1	23
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Oct 2021	10	48	2	60
Nov 2021	14	28	0	42
Dec 2021	19	11	0	30
Jan 2022	9	21	0	30
Feb 2022	17	41	1	59
Mar 2022	20	26	8	54
Apr 2022	34	28	3	65
May 2022	36	15	1	52
Jun 2022	29	16	0	45
Jul 2022	6	16	1	23
Aug 2022	38	13	0	51
Sep 2022	7	12	0	19
Oct 2022	15	5	0	20
Nov 2022	21	8	0	29
Dec 2022	9	10	0	19
Jan 2023	15	13	0	28
Feb 2023	21	15	1	37
Mar 2023	14	13	1	28
Apr 2023	13	10	0	23
May 2023	28	16	3	47
Jun 2023	36	8	0	44
Jul 2023	20	11	1	32
Aug 2023	12	5	2	19
Sep 2023	5	4	0	9
Oct 2023	16	13	1	30
Nov 2023	13	3	3	19
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Jan 2024	20	7	2	29
Feb 2024	12	9	1	22
Mar 2024	7	12	1	20
Apr 2024	19	7	3	29
May 2024	22	16	7	45
Jun 2024	12	12	2	26
Jul 2024	18	14	4	36
Aug 2024	18	11	3	32
Sep 2024	14	13	1	28
Oct 2024	23	6	1	30
Nov 2024	15	24	0	39
Dec 2024	19	10	1	30
Jan 2025	13	14	0	27
Feb 2025	43	13	3	59
Mar 2025	27	17	0	44
Apr 2025	48	16	0	64
May 2025	63	11	0	74
Jun 2025	48	20	1	69
Jul 2025	22	19	2	43
Aug 2025	23	13	0	36
Sep 2025	39	24	1	64
Oct 2025	33	27	1	61
Nov 2025	28	31	3	62

Latest update: 24 Nov 2025

Short summary

The presented study deals with numerical modelling of floods and their interactions with buildings. By means of a case study application, a commercial software is applied to simulate flooding within a test site situated in South Tyrol (Italy). A single-family house is thereby considered and exposed to specific flood discharges. The study shows possibilities and limits of numerical modelling techniques within flood risk management and, thereby, the planning of local structural protection measures.