Unzipping flood vulnerability and functionality loss: tale of struggle for existence of riparian buildings

D. Gautam; R. Adhikari; S. Gautam; V.P. Pandey; B.R. Thapa; S. Lamichhane; R. Talchabhadel; S. Thapa; S. Niraula; K.R. Aryal; P. Lamsal; S. Bastola; S.K. Sah; S.K. Subedi; B. Puri; B. Kandel; P. Sapkota; R. Rupakhety

doi:10.1007/s11069-022-05433-5

Unzipping flood vulnerability and functionality loss: tale of struggle for existence of riparian buildings

D. Gautam, R. Adhikari, S. Gautam, V.P. Pandey, B.R. Thapa, S. Lamichhane, R. Talchabhadel, S. Thapa, S. Niraula, K.R. Aryal, P. Lamsal, S. Bastola, S.K. Sah, S.K. Subedi, B. Puri, B. Kandel, P. Sapkota, R. Rupakhety

School of Geosciences

Research output: Contribution to journal › Article › peer-review

Abstract

Floods pose significant risk to riparian buildings as evidenced during many historical events. Although structural resilience to tsunami flooding is well studied in the literature, high-velocity and debris-laden floods in steep terrains are not considered adequately so far. Historical floods in steep terrains necessitate the need for flood vulnerability analysis of buildings. To this end, we report vulnerability of riparian-reinforced concrete buildings using forensic damage interpretations and empirical/analytical vulnerability analyses. Furthermore, we propose the concept and implications of functionality loss due to flooding in residential reinforced concrete (RC) buildings using empirical data. Fragility functions using inundation depth and momentum flux are presented for RC buildings considering a recent flooding event in Nepal. The results show that flow velocity and sediment load, rather than hydrostatic load, govern the damages in riparian RC buildings. However, at larger inundation depth, hydrostatic force alone may collapse some of the RC buildings.

Original language	English
Pages (from-to)	989–1009
Journal	Natural Hazards
Volume	119
Early online date	18 Jun 2022
DOIs	https://doi.org/10.1007/s11069-022-05433-5
Publication status	Published - Nov 2023

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Gautam, D., Adhikari, R., Gautam, S., Pandey, V. P., Thapa, B. R., Lamichhane, S., Talchabhadel, R., Thapa, S., Niraula, S., Aryal, K. R., Lamsal, P., Bastola, S., Sah, S. K., Subedi, S. K., Puri, B., Kandel, B., Sapkota, P., & Rupakhety, R. (2023). Unzipping flood vulnerability and functionality loss: tale of struggle for existence of riparian buildings. Natural Hazards, 119, 989–1009. https://doi.org/10.1007/s11069-022-05433-5

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title = "Unzipping flood vulnerability and functionality loss: tale of struggle for existence of riparian buildings",

abstract = "Floods pose significant risk to riparian buildings as evidenced during many historical events. Although structural resilience to tsunami flooding is well studied in the literature, high-velocity and debris-laden floods in steep terrains are not considered adequately so far. Historical floods in steep terrains necessitate the need for flood vulnerability analysis of buildings. To this end, we report vulnerability of riparian-reinforced concrete buildings using forensic damage interpretations and empirical/analytical vulnerability analyses. Furthermore, we propose the concept and implications of functionality loss due to flooding in residential reinforced concrete (RC) buildings using empirical data. Fragility functions using inundation depth and momentum flux are presented for RC buildings considering a recent flooding event in Nepal. The results show that flow velocity and sediment load, rather than hydrostatic load, govern the damages in riparian RC buildings. However, at larger inundation depth, hydrostatic force alone may collapse some of the RC buildings.",

author = "D. Gautam and R. Adhikari and S. Gautam and V.P. Pandey and B.R. Thapa and S. Lamichhane and R. Talchabhadel and S. Thapa and S. Niraula and K.R. Aryal and P. Lamsal and S. Bastola and S.K. Sah and S.K. Subedi and B. Puri and B. Kandel and P. Sapkota and R. Rupakhety",

year = "2023",

month = nov,

doi = "10.1007/s11069-022-05433-5",

language = "English",

volume = "119",

pages = "989–1009",

journal = "Natural Hazards",

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Gautam, D, Adhikari, R, Gautam, S, Pandey, VP, Thapa, BR, Lamichhane, S, Talchabhadel, R, Thapa, S, Niraula, S, Aryal, KR, Lamsal, P, Bastola, S, Sah, SK, Subedi, SK, Puri, B, Kandel, B, Sapkota, P & Rupakhety, R 2023, 'Unzipping flood vulnerability and functionality loss: tale of struggle for existence of riparian buildings', Natural Hazards, vol. 119, pp. 989–1009. https://doi.org/10.1007/s11069-022-05433-5

TY - JOUR

T1 - Unzipping flood vulnerability and functionality loss: tale of struggle for existence of riparian buildings

AU - Gautam, D.

AU - Adhikari, R.

AU - Gautam, S.

AU - Pandey, V.P.

AU - Thapa, B.R.

AU - Lamichhane, S.

AU - Talchabhadel, R.

AU - Thapa, S.

AU - Niraula, S.

AU - Aryal, K.R.

AU - Lamsal, P.

AU - Bastola, S.

AU - Sah, S.K.

AU - Subedi, S.K.

AU - Puri, B.

AU - Kandel, B.

AU - Sapkota, P.

AU - Rupakhety, R.

PY - 2023/11

Y1 - 2023/11

N2 - Floods pose significant risk to riparian buildings as evidenced during many historical events. Although structural resilience to tsunami flooding is well studied in the literature, high-velocity and debris-laden floods in steep terrains are not considered adequately so far. Historical floods in steep terrains necessitate the need for flood vulnerability analysis of buildings. To this end, we report vulnerability of riparian-reinforced concrete buildings using forensic damage interpretations and empirical/analytical vulnerability analyses. Furthermore, we propose the concept and implications of functionality loss due to flooding in residential reinforced concrete (RC) buildings using empirical data. Fragility functions using inundation depth and momentum flux are presented for RC buildings considering a recent flooding event in Nepal. The results show that flow velocity and sediment load, rather than hydrostatic load, govern the damages in riparian RC buildings. However, at larger inundation depth, hydrostatic force alone may collapse some of the RC buildings.

AB - Floods pose significant risk to riparian buildings as evidenced during many historical events. Although structural resilience to tsunami flooding is well studied in the literature, high-velocity and debris-laden floods in steep terrains are not considered adequately so far. Historical floods in steep terrains necessitate the need for flood vulnerability analysis of buildings. To this end, we report vulnerability of riparian-reinforced concrete buildings using forensic damage interpretations and empirical/analytical vulnerability analyses. Furthermore, we propose the concept and implications of functionality loss due to flooding in residential reinforced concrete (RC) buildings using empirical data. Fragility functions using inundation depth and momentum flux are presented for RC buildings considering a recent flooding event in Nepal. The results show that flow velocity and sediment load, rather than hydrostatic load, govern the damages in riparian RC buildings. However, at larger inundation depth, hydrostatic force alone may collapse some of the RC buildings.

U2 - 10.1007/s11069-022-05433-5

DO - 10.1007/s11069-022-05433-5

M3 - Article

SN - 0921-030X

VL - 119

SP - 989

EP - 1009

JO - Natural Hazards

JF - Natural Hazards

ER -

Unzipping flood vulnerability and functionality loss: tale of struggle for existence of riparian buildings

Abstract

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