Mohsen Golian scite author profile

The decline or drying up of groundwater sources near a tunnel route is damaging to groundwater users. Therefore, forecasting the impact of a tunnel on nearby groundwater sources is a challenging task in tunnel design. In this study, numerical and analytical approaches were applied to the Qomroud water conveyance tunnel (located in Lorestan province, Iran) to assess the impact of tunnelling on the nearby extraction water wells. Using simulation of groundwater-level fluctuation owing to tunnelling, the drawdown at the well locations was determined. From the drawdowns and using Dupuit's equation, the depletion of well flow rates after tunnelling was estimated. To evaluate the results, observed well flow rates before and after tunnelling were compared with the predicted flow rates. The observed and estimated water well flows (before and after tunnelling) showed a regression factor of 0.64, pointing to satisfactory results

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Prediction of water inflow to mechanized tunnels during tunnel-boring-machine advance using numerical simulation

Golian

Teshnizi

Nakhaei

2018

Hydrogeol J

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A new analytical method for determination of discharge duration in tunnels subjected to groundwater inrush

Golian

Teshnizi

Parise

et al. 2021

Bull Eng Geol Environ

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Consequences of groundwater overexploitation on land subsidence in Fars Province of Iran and its mitigation management programme

Golian

Saffarzadeh

Katibeh

et al. 2021

Water & Environment J

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Land subsidence induced by rapid groundwater depletion in Fars Province (Iran) has led to serious problems for agricultural lands, structures and infrastructures, also its destructive effects on the Achaemenid Empire monuments has raised national concerns. Over the past three decades, mainly due to the increasing reliance of the economy on agriculture, the number of water wells has grown rapidly (7100 new wells with the annual withdrawal of 1.1 billion m3) and therefore the groundwater storage has decreased 10 billion m3 and groundwater level has declined averagely 11 m. To cease groundwater depletion and land subsidence, Iran's sustainable groundwater management programme that is currently being implemented to sustain aquifers is considered as the main remedy solution. To analyse the efficiency of the programme implementation in sustaining the aquifers of the province so far, the status of aquifers levels before the programme implementation (before 2015) is compared to its current status (after 2015). The results indicate that by implementing the programme, 22 out of 100 aquifers, mostly located in the southern half of the province, have been sustained. Although, mainly due to inappropriate management and limited financial support, 25 aquifers are still in critical condition, some of which are the most important aquifers in the province. However, implementing sustainable groundwater management in basins facing land subsidence due to groundwater overexploitation is important since it can minimize or stop land subsidence by sustaining aquifers and preventing groundwater drawdown.

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GIS-Based Landslide Susceptibility Mapping in Qazvin Province of Iran

Arjmandzadeh

Teshnizi

Rastegarnia

et al. 2019

Iran J Sci Technol Trans Civ Eng

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Mohsen Golian

Prediction of tunnelling impact on flow rates of adjacent extraction water wells

Prediction of water inflow to mechanized tunnels during tunnel-boring-machine advance using numerical simulation

A new analytical method for determination of discharge duration in tunnels subjected to groundwater inrush

Consequences of groundwater overexploitation on land subsidence in Fars Province of Iran and its mitigation management programme

GIS-Based Landslide Susceptibility Mapping in Qazvin Province of Iran

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