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Hydrological Sciences Journal Volume 39, 1994 - Issue 5
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Original Articles

Hydrodynamic derivation of a variable parameter Muskingum method: 2. Verification

Démonstration hydrodynamique d'une méthode de Muskingum à paramètres variables: 2. Validation

MUTHIAH PERUMAL Department of Continuing Education, University of Roorkee, Roorkee, 247667, India
Pages 443-458 | Received 08 Feb 1993, Accepted 07 Apr 1994, Published online: 29 Dec 2009

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Read on this site (3)

AntonisD. Koussis. (2010) Reply to the Discussion of “Assessment and review of the hydraulics of storage flood routing 70 years after the presentation of the Muskingum method” by M. Perumal. Hydrological Sciences Journal 55:8, pages 1431-1441.
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M. Perumal. (2010) Discussion of “Assessment and review of the hydraulics of storage flood routing 70 years after the presentation of the Muskingum method”* . Hydrological Sciences Journal 55:8, pages 1427-1430.
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S.K. MISHRA & S.M. SETH. (1996) Use of hysteresis for defining the nature of flood wave propagation in natural channels. Hydrological Sciences Journal 41:2, pages 153-170.
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Articles from other publishers (24)

Sofia Sarchani, Frezer Seid Awol & Ioannis Tsanis. (2021) Hydrological Analysis of Extreme Rain Events in a Medium-Sized Basin. Applied Sciences 11:11, pages 4901.
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Guilherme da Cruz dos Reis, Tatiane Souza Rodrigues Pereira, Geovanne Silva Faria & Klebber Teodomiro Martins Formiga. (2020) Analysis of the Uncertainty in Estimates of Manning’s Roughness Coefficient and Bed Slope Using GLUE and DREAM. Water 12:11, pages 3270.
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Basant Yadav & Shashi Mathur. (2018) River discharge simulation using variable parameter McCarthy–Muskingum and wavelet-support vector machine methods. Neural Computing and Applications 32:7, pages 2457-2470.
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Behnam BalouchiMohammad Javad Abedini. (2019) System Identification and Discharge Hydrograph Estimation Based on Water Level Data Alone under Unsteady Flow Condition. Journal of Hydrologic Engineering 24:10.
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Behnam Balouchi, Mohammad Javad Abedini & Michael Manhart. (2018) A Simulation–Optimization Technique to Estimate Discharge in Open Channels Based on Water Level Data Alone: Gradually Varied Flow Condition. Iranian Journal of Science and Technology, Transactions of Civil Engineering 43:2, pages 215-229.
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Ratnakar Swain, Bhabagrahi Sahoo & Muthiah Perumal. (2018) An embedded VPMM-AD model for riverine transient flow and non-reactive contaminant transports. Journal of Hydrology 563, pages 711-725.
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Bhabagrahi Sahoo, Muthiah Perumal, Tommaso Moramarco & Silvia Barbetta. (2014) Rating Curve Development at Ungauged River Sites using Variable Parameter Muskingum Discharge Routing Method. Water Resources Management 28:11, pages 3783-3800.
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H. Damangir & M.J. Abedini. (2014) System identification and subsequent discharge estimation based on level data alone—Gradually varied flow condition. Flow Measurement and Instrumentation 36, pages 24-31.
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Muthiah Perumal & Roland K. Price. (2013) A fully mass conservative variable parameter McCarthy–Muskingum method: Theory and verification. Journal of Hydrology 502, pages 89-102.
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Bhabagrahi Sahoo. (2013) Field Application of the Multilinear Muskingum Discharge Routing Method. Water Resources Management 27:5, pages 1193-1205.
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Muthiah Perumal, Ravindra V. Kale & Bhabagrahi Sahoo. (2011) Hydrological Applications of the Approximate Convection-Diffusion Equations. Hydrological Applications of the Approximate Convection-Diffusion Equations.
Muthiah Perumal & Bhabagrahi Sahoo. 2010. Natural and Anthropogenic Disasters. Natural and Anthropogenic Disasters 169 196 .
Muthiah Perumal & Bhabagrahi Sahoo. (2008) Volume Conservation Controversy of the Variable Parameter Muskingum–Cunge Method. Journal of Hydraulic Engineering 134:4, pages 475-485.
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Muthiah PerumalKittur G. Ranga Raju. (2007) Variable Parameter Muskingum Routing Considering Downstream Effects. Journal of Hydraulic Engineering 133:11, pages 1249-1260.
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Muthiah Perumal & Bhabagrahi Sahoo. (2007) Applicability criteria of the variable parameter Muskingum stage and discharge routing methods. Water Resources Research 43:5.
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Muthiah Perumal, Tommaso Moramarco, Bhabagrahi Sahoo & Silvia Barbetta. (2007) A methodology for discharge estimation and rating curve development at ungauged river sites. Water Resources Research 43:2.
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M. Perumal. (2003) Discussion: Wave-speed–discharge relationship from cross-section survey. Proceedings of the Institution of Civil Engineers - Water and Maritime Engineering 156:3, pages 290-290.
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Surendra Kumar Mishra, J. J. Sansalone & Vijay P. Singh. (2003) Hysteresis‐based analysis of overland metal transport. Hydrological Processes 17:8, pages 1579-1606.
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Surendra Kumar Mishra & Vijay P. SinghSurendra Kumar Mishra & Vijay P. Singh. 2003. Soil Conservation Service Curve Number (SCS-CN) Methodology. Soil Conservation Service Curve Number (SCS-CN) Methodology 360 435 .
Surendra Kumar Mishra & Vijay P. Singh. (2001) Hysteresis‐based flood‐wave analysis using the concept of strain. Hydrological Processes 15:9, pages 1635-1651.
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Muthiah PerumalO'Connell E.Kittur G. Ranga Raju. (2001) Field Applications of a Variable-Parameter Muskingum Method. Journal of Hydrologic Engineering 6:3, pages 196-207.
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Surendra Kumar MishraVijay P. Singh. (1999) Hysteresis-Based Flood Wave Analysis. Journal of Hydrologic Engineering 4:4, pages 358-365.
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Muthiah PerumalKittur G. Ranga Raju. (1999) Approximate Convection-Diffusion Equations. Journal of Hydrologic Engineering 4:2, pages 160-164.
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Muthiah PerumalKittur G. Ranga Raju. (1998) Variable-Parameter Stage-Hydrograph Routing Method. II: Evaluation. Journal of Hydrologic Engineering 3:2, pages 115-121.
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