Abstract
The main objective of this paper is to estimate the water seepage from Lar dam reservoir based on a combination of the geological structure study results and identification of the flow conduits in the right bank of the reservoir. From the beginning of impounding the dam in 1980, heavy seepage was observed at two karstic springs, Haraz and Galugah, located about 9 km downstream of the dam. During the first impounding, the discharge of the Haraz spring abruptly increased from 0.5 m3/s to around 5 m3/s. The results of piezometers and dye tests indicate that seepage occurs mainly through the right abutment of the dam where there is a structural wedge between the north dipping North Tiz Kuh and the south dipping Lar Valley faults. F1, F2, and F3 faults are the most important faults in vicinity of the structural wedge. Based on the dye test results, the North Tiz Kuh and F3 faults along which caves No. 1 and 2 are formed are regarded as two isolated conduits for seepage and conveyance into Lar Valley Fault at downstream of Lar dam. After identifying the conduits, water seepage from the Lar dam reservoir has been calculated using finite element method. According to the results of numerical method, when the reservoir water level is at 2485 m a.s.l, the average of water seepage is around 8.51 m3/s (this amount of water is related to the seepage along the Lar Valley Fault). The average discharge of springs downstream of the dam has been used to verify the numerical method. The results show a very close relation between estimated and observed discharge.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Aalianvari A (2017) Combination of engineering geological data and numerical modeling results to classify the tunnel route based on the groundwater seepage. GAE 13(4):2017
Aalianvari A, Tehrani M, Soltanimohammadi S (2013) Application of geostatistical methods to estimation of water flow from upper reservoir of Azad pumped storage power plant. Arab J Geosci 6(7):2571–2579
Berkowitz B, Balberg I (1993) Percolation theory and its application to groundwater hydrology. Water Resour Res 29(4):775–794
Chang CM, Chou JY, Tan P, Wang L (2017) A sensor fault detection strategy for structural health monitoring systems, smart structures and systems, An Int J. 20(1)
Geo-Slope International Ltd. (2006) Geostudio. Geo-Slope International Ltd., Calgary
Karimi H, Raeisi E, Zare M (2005) Physicochemical time series of karst spring as a tool to differentiate the source of spring water. Carbonates Evaporites 20(2):138–147
Koltuk S, Fernandez-Steeger TM, Azzam R (2015) A numerical study on the seepage failure by heave in sheeted excavation pits. GAE 9(4):2015
Milanović PT (1997) Reservoirs in karst: common watertightness problems. In: Günay G, Johnson I (eds) Karst Waters and Environmental Impacts. A.A. Balkema, Rotterdam, pp 397–400
Milanovic PT (2000) Geological engineering in karst. Zebra Publishing Ltd, Belgrade, p 347
Raeisi E, Kowsar N (1997) Development of Shahpour Cave, vol. 24, no. 1. Cave and Karst Science, Southern Iran, p 27–34
Raeisi E, Laumanns M (2003) Cave directory of Iran. Berliner HohlenkundlicheBerichte, Berlin, p 101
SEETC Consulting engineers—Tehran-Paris (1994a), “Lar dam reservoir rehabilitation studies” stage 1, evaluation and identification, preliminary report, volume 3, Hydrogeology
SEETC Consulting engineers—Tehran-Paris (1994b), “Lar dam reservoir rehabilitation studies” stage 1, evaluation and identification, preliminary report, volume 2A, Geology Appendices
SEETC Consulting engineers—Tehran-Paris (1994c), “Lar dam reservoir rehabilitation studies” stage 1, evaluation and identification, preliminary report, volume 2, Geology
Uromeihy A (2000) The Lar dam; an example of infrastructural development in a geologically active karstic region. J Asian Earth Sci 18(1):25–31
Yen BC, Tung YK (eds) (1993) Reliability and uncertainty analysis in hydraulic design ASCE, New York
Zhao E, Li J, Yufeng J (2014) The seepage evolution law under the fault creep in right bank of Longyangxia Dam. Eng Fail Anal 44:306–314
Zheng Y, Liu J, Zhang B, Sun Y (2017) Numerical study on the influence of fault on the seepage and stress field of formation. Am J Eng Appl Sci 10(1):94–100
Zou J, Chen KF, Pan QJ (2017) Influences of seepage force and out-of-plane stress on cavity contracting and tunnel opening. GAE 13(6):2017
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Asadollah, S.N., Aalianvari, A. & Hajialibeigi, H. Role of geological structures in seepage from Lar dam reservoir. Arab J Geosci 11, 632 (2018). https://doi.org/10.1007/s12517-018-3967-7
Received:
Accepted:
Published:
DOI: https://doi.org/10.1007/s12517-018-3967-7