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Fotovat, Masood, Porhemmat, Jahangir, Sedghi, Hossein, Bababzadeh, Hossein. (1396). Impact of structural geology on integrated water resources modeling improvement; a case study of Garesoo river basin, in Doab-Merek station, Kermanshah, Iran. فصلنامه علمی-پژوهشی علوم زمین, 27(Special Journal-106), 103-110. doi: 10.22071/gsj.2018.58368
Masood Fotovat; Jahangir Porhemmat; Hossein Sedghi; Hossein Bababzadeh. "Impact of structural geology on integrated water resources modeling improvement; a case study of Garesoo river basin, in Doab-Merek station, Kermanshah, Iran". فصلنامه علمی-پژوهشی علوم زمین, 27, Special Journal-106, 1396, 103-110. doi: 10.22071/gsj.2018.58368
Fotovat, Masood, Porhemmat, Jahangir, Sedghi, Hossein, Bababzadeh, Hossein. (1396). 'Impact of structural geology on integrated water resources modeling improvement; a case study of Garesoo river basin, in Doab-Merek station, Kermanshah, Iran', فصلنامه علمی-پژوهشی علوم زمین, 27(Special Journal-106), pp. 103-110. doi: 10.22071/gsj.2018.58368
Fotovat, Masood, Porhemmat, Jahangir, Sedghi, Hossein, Bababzadeh, Hossein. Impact of structural geology on integrated water resources modeling improvement; a case study of Garesoo river basin, in Doab-Merek station, Kermanshah, Iran. فصلنامه علمی-پژوهشی علوم زمین, 1396; 27(Special Journal-106): 103-110. doi: 10.22071/gsj.2018.58368

Impact of structural geology on integrated water resources modeling improvement; a case study of Garesoo river basin, in Doab-Merek station, Kermanshah, Iran

مقاله 12، دوره 27، Special Journal-106، زمستان 1396، صفحه 103-110  XML اصل مقاله (1795 K)
نوع مقاله: مقاله پژوهشی
شناسه دیجیتال (DOI): 10.22071/gsj.2018.58368
نویسندگان
Masood Fotovat1؛ Jahangir Porhemmat* 2؛ Hossein Sedghi3؛ Hossein Bababzadeh4
1Ph.D., Department of Water Science and Engineering, Science and Research Branch, Islamic Azad University, Tehran, Iran
2Associate Professor, Watershed Management and Soil Conservation Research Institute, Tehran, Iran
3Professor, Department of Water Science and Engineering, Science and Research Branch, Islamic Azad University, Tehran, Iran
4Associate Professor, Department of Water Science and Engineering, Science and Research Branch, Islamic Azad University, Tehran, Iran
چکیده
Garesoo river basin in Doab-Merek, as studying area of this research, located in northwest of Kermanshah province in west part of Iran. There is long-term hydro climatologic data in this basin about rainfall, temperature, etc. (more than 50 years) and main river data (about 35 years). Due to intense fall down groundwater level and seasonal river drying, in the past 10 years .It was necessary that studies be done to the management water resources of region. Studies performed at first by linking MODFLOW to WEAP model with information and initial understanding of the geology and the others information of the area. The results were not satisfactory especially regarding the prediction runoff basin in outlet, despite the long term data. After these initial studies, and based on complete studying, it was cleared that complicated geological conditions with new Tectonics activities were key to the adaptation of the model to reality. In addition, geophysical surveys using radar approach showed that the fault is in match with the trend of river, and it can recharge river in wet season from hard rock water resources. Finally we achieved a good acceptance matching between calculated and observed discharge of river in Doab-Merek station with satisfactory results.
کلیدواژه‌ها
Integrated water resources model؛ Structural geology؛ WEAP-MODFLOW؛ Linked model؛ Radar approach geophysics؛ Active faults
عنوان مقاله [English]
Impact of structural geology on integrated water resources modeling improvement; a case study of Garesoo river basin, in Doab-Merek station, Kermanshah, Iran
نویسندگان [English]
Masood Fotovat1؛ Jahangir Porhemmat2؛ Hossein Sedghi3؛ Hossein Bababzadeh4
1Ph.D., Department of Water Science and Engineering, Science and Research Branch, Islamic Azad University, Tehran, Iran
2Associate Professor, Watershed Management and Soil Conservation Research Institute, Tehran, Iran
3Professor, Department of Water Science and Engineering, Science and Research Branch, Islamic Azad University, Tehran, Iran
4Associate Professor, Department of Water Science and Engineering, Science and Research Branch, Islamic Azad University, Tehran, Iran
چکیده [English]
Garesoo river basin in Doab-Merek, as studying area of this research, located in northwest of Kermanshah province in west part of Iran. There is long-term hydro climatologic data in this basin about rainfall, temperature, etc. (more than 50 years) and main river data (about 35 years). Due to intense fall down groundwater level and seasonal river drying, in the past 10 years .It was necessary that studies be done to the management water resources of region. Studies performed at first by linking MODFLOW to WEAP model with information and initial understanding of the geology and the others information of the area. The results were not satisfactory especially regarding the prediction runoff basin in outlet, despite the long term data. After these initial studies, and based on complete studying, it was cleared that complicated geological conditions with new Tectonics activities were key to the adaptation of the model to reality. In addition, geophysical surveys using radar approach showed that the fault is in match with the trend of river, and it can recharge river in wet season from hard rock water resources. Finally we achieved a good acceptance matching between calculated and observed discharge of river in Doab-Merek station with satisfactory results.
کلیدواژه‌ها [English]
Integrated water resources model, Structural geology, WEAP-MODFLOW, Linked model, Radar approach geophysics, Active faults
مراجع

References

Ab va Khak consulting engineers, 1978- Kermanshah Regional Water Co.(KRWC),ministry of energy,Iran (in persian).

Atkinson, T. C., 1977- Diffuse flow and conduit flow limeston terrain in the Mendip Hills,Somerset(Great Britain).Jour.hydrol.,35,93-110.

Atzori, S., Baer G., Antonoli, A. and Salvi, S., 2015- InSar-based modeling and analysis of sinkholes along the dead sea coastline, Geophysical Research Letters (AGU), 8383-8390.

Barthel, R., Jagelke, J., Gotzinger, J., Gaiser, T. and Printz, A., 2008- Aspects of choosing appropriate concepts for modeling groundwater resources in regional integrated water resources management – Examples from the Neckar (Germany) and Oueme catchment (Benin), Physics and Chemistry of the Earth, 33, 92–114.

Canora, F., Dolores Fidelibus, M., Sciortino, A. and Spilotro, G., 2008- Variation of infiltration rate through karstic surfaces due to land use changes: A case study in Murgia (SE-Italy) Engineering Geology 99, 210–227.

Cigna, F., Jordan, H., Bateson, L., Cormack, H. and Roberts, C., 2015- Natural and Anthropogenic Geohazards in Greater London Observed from Geological and ERS-1/2 and ENVISAT Persistent Scatterers Ground Motion Data:Results from the EC FP7-SPACE PanGeo Project, Pure Appl. Geophys. 172, 2965–2995.

Comut, F. C., Ustun, A., Lazecky, M. and Aref, M. M., 2015- multi band INSAR analysis of subsidence development based on the Long Period Time Series, International Conference on Sensors & Models in Remote Sensing & Photogrammetry, 23–25 Nov, Kish Island, Iran.

Daher, W., Pistre, S., Kneppers, A., Bakalowicz, M. and Najem, W., 2011- Karst and artificial recharge: Theoretical and practical problems A preliminary approach to artificial recharge assessment, Journal of Hydrology, 408 , 189–202.

Fakhri, F. and Kalliola, R., 2015- Monitoring ground deformation in the settlement of Larissa in Central Greece by implementing SAR interferometry, Nat Hazards, 78:1429–1445.

Kaufmann, G., 2014- Geophysical mapping of solution and collapse sinkholes, Journal of Applied Geophysics, 111, 271–288.

Linares, R., Roque, C., Gutierrez, F., Zarroca, M., Carbonel, D., Bach, J. and Fabregat, I., 2017- The impact of droughts and climate change on sinkhole occurrence. A case study from the evaporate karst of the Fluvia valley, NE Spain, Sci Total Environ,2017 Feb 1;579:345-358

Nazari, H., Ghorashi, M., Karimi Bavandpour, A., Basavand, M. and Fotovat, M., 2015- Active faulting and it’s act on forming and geometry of the plains ;case study :MIANDARBAND and SANJABI faults (north west of Kermanshah) and MIANDARBAND and RVANSAR-SANJABI plain, Ministry of energy,Water Resources Management co.,Kermanshah Regional Water Authority, No 109 (in Persian).

Parise, M., 2015- A procedure for evaluating the susceptibility to natural and anthropogenic sinkholes, Georisk, 9(4), 272–285.

Rivera, A., 2007- Groundwater Modeling:from geology to hydrogeology,Geology survey of Canada ,Quebec, Canada.

Thery, J. M., Pubellier, M., Thery, B., Butterlin, J., Blondeau, A. and Adams, C. G., 1999- Importance of active tectonics during karst formation. A Middle Eocene to Pleistocene example of the Lina Moutains (Irian Jaya, Indonesia), Geodinamica Acta, 12, 3-4, 213-221.

Zamin Abpay consulting engineers, 2010- Geophysical studies in geo radar approach for geological survey, in Ravansar area. Ministry of energy, Water Resources Management co., Kermanshah Regional Water Authority (in Persian).

Zamin Kav Gostar consulting engineers, 2012- Kermanshah Regional Water Co. (KRWC), ministry of energy, Iran (in Persian).

 

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