Abstract
In natural channels such as rivers, the flow behavior is highly complicated phenomenon due to unsteady and nonuniform flow. Hydraulic modeling is essential for the study of characteristics of unsteady flow in rivers. Changes in riverbed morphology influence the increase in depth of flow in rivers. In the present study, the roughness coefficient is varied to match the natural condition. The objective of the paper is to study the effect of the change in riverbed morphology on the river discharge using a hydraulic model. The study is carried out using the Hydrologic Engineering Center—River Analysis System (HEC-RAS). A river length of 12 km of the Nethravathi river regime, Karnataka from Uppinangadi to Bantwal is considered for the study. Daily river stage and discharge data are collected from Central Water Commission (CWC) gaged at Bantwal station. GIS interface of HEC-GeoRAS is also used to extract the cross section, bed slope, and length of the river channel from Digital Elevation Model (DEM) data of resolution 30 m. The cross sections are represented for each kilometer length of the river. Since accurate data is unavailable in the study area, cross sections are simplified. HEC-RAS model was used for the simulation of surface water levels and discharge values. Manning’s roughness coefficient and river cross sections were defined for the calibration of observed river stage and discharge data. The predicted discharge was in good agreement with that of the observed discharge value. Study results illustrated that accuracy of predicted maximum water depth, and surface water level depends upon the precise representation of Manning’s roughness. The study is useful for the prediction of the flood dynamics in the river regime with the change in riverbed morphology.
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References
Wohl Ellen E (1998) Uncertainty in flood estimates associated with roughness coefficient. J Hydraul Eng 124:219–223
Hin LS, Bessaih N, Ling LP, Ghani AA, Zakaria NA, Seng MY (2008) Discharge estimation for equatorial natural rivers with overbank flow. Int J River Basin Manag 6(1):13–21
Ballesteros J, Bodoque J, Díez-Herrero A, Sanchez-Silva M, Stoffel M (2011) Calibration of floodplain roughness and estimation of flood discharge based on tree-ring evidence and hydraulic modelling. J Hydrol 45:103–115
Wang G, Yang H, Wang L, Xu Z, Xue B (2014) Using the SWAT model to assess impacts of land use changes on runoff generation in headwaters. Hydrol Process 28:1032–1042
Serrano SE (2016) Propagation of nonlinear flood waves in rivers. J Hydrol Eng 21
Alekseevskii NI, Krylenko IN, Belikov VV, Kochetkov VV, Norin SV (2014) Numerial hydrodynamic modeling of inundation in Krymsk on 6−7 July 2012. Power Tech Eng 48:179–186
Hughes JD, Langevin CD, White JT (2015) MODFLOW- based coupled surface water routing and groundwater-flow simulation. Ground Water 53:452–463
Vijay R, Sargoankar A, Gupta A (2007) Hydrodynamic simulation of river Yamuna for riverbed assessment: a case study of Delhi region. Environ Monit Assess 130:381–387
Patro S, Chatterjee C, Mohanty S, Singh R, Raghuwanshi NS (2009) Flood inundation modeling using mike flood and remote sensing data. J Indian Soc Remote Sens 37:107–118
Wasantha Lal AM (1995) Calibration of riverbed roughness. J Hydraul Eng 121:664–671
Parhi PK, Sankhua RN, Roy GP (2012) Calibration of channel roughness of Mahanadi river (India) using HEC-RAS model. J Water Resour Prot 4:847–850
Usul N, Burak T (2006) Flood forecasting and analysis within the Ulus basin, Turkey, using geographic information systems. Nat Hazards 39:213–229
Ramesh R, Datta B, Bhallamudi S, Narayana A (1997) Optimal estimation of roughness in open-channel flows. J Hydraul Eng 126:299–303
Doherty R (2010) Calibration of HEC-RAS models for rating curve development in semi-arid regions of western Australia. In: AHA 2010 conference
Shetkar RV, Mahesha A (2010) Tropical, seasonal river basin development: hydrogeological analysis. J Hydraul Eng 16:280–291
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Kappadi, P., Nagaraj, M.K. (2020). Hydraulic Modeling of River Discharge Subjected to Change in Riverbed Morphology. In: Ghosh, J., da Silva, I. (eds) Applications of Geomatics in Civil Engineering. Lecture Notes in Civil Engineering , vol 33. Springer, Singapore. https://doi.org/10.1007/978-981-13-7067-0_12
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DOI: https://doi.org/10.1007/978-981-13-7067-0_12
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