Vulnerability assessment of power transmission towers affected by land subsidence via interferometric synthetic aperture radar technique and finite element method analysis: a case study of Zanjan and Qazvin provinces

Subsidence induced by groundwater (GW) in the plains of Zanjan and Qazvin provinces in northwestern parts of Iran has impacted various infrastructures. Hence, investigating the study area to identify the risky zones and identifying the vulnerable members of power transmission towers (PTTs) are requi...

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Bibliographic Details
Published in:Environment, development and sustainability development and sustainability, 2024-04, Vol.26 (4), p.10845-10864
Main Authors: Farshbaf, Armin, Mousavi, Mir Naghi, Shahnazi, Saman
Format: Article
Language:English
Subjects:
case studies
Case Study
Depletion
Dominance
Earth and Environmental Science
Ecology
Economic Geology
Economic Growth
Environment
Environmental Economics
Environmental Management
Fine-grained soils
Finite element analysis
Finite element method
Groundwater
Interferometric synthetic aperture radar
interferometry
Iran
Land subsidence
Legs
Piezometric head
Policy making
Power
probability
Provinces
remote sensing
risk assessment
Soils
Subsidence
Sustainable Development
synthetic aperture radar
Time series
time series analysis
Towers
Transmission towers
Vulnerability
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Summary:Subsidence induced by groundwater (GW) in the plains of Zanjan and Qazvin provinces in northwestern parts of Iran has impacted various infrastructures. Hence, investigating the study area to identify the risky zones and identifying the vulnerable members of power transmission towers (PTTs) are required by policy-makers. This study investigated the impact of GW depletion on land subsidence and its effect on PTTs in the Zanjan and Qazvin provinces. Subsidence maps were acquired via time series analysis by performing a small baseline subset on Sentinel-1 (2017-02-23 till 2019-02-25) satellite data. Results indicate maxima values of 132 mm/years and 80 mm/years subsidence rates in line-of-sight direction for Qazvin and Zanjan provinces, respectively. Observed GW shows a rapid decline of piezometric head of 13.2 m for Qazvin province. Furthermore, GW head drop, coupled with the dominance of fine-grained soils in Qazvin province, increases the probability of plain-wide subsidence. Employing a finite element method analysis on two commonly utilized PTTs in the region illustrated such vulnerable members (bottom legs and first transverse plane) under support settlement conditions. However, the T-30 tower, by mitigating the stress to more members of the tower, performed superior in most subsidence scenarios. It is recommended to implement new policies such as avoiding risky zones for developing PTTs, installing T-30 towers instead of DC towers in obstructed routes, and continuous monitoring of threatened PTTs.
ISSN:1573-2975
1387-585X
1573-2975
DOI:10.1007/s10668-023-03127-x