Flow modelling in a high mountain valley equipped with hydropower plants: Rio Zongo Valley, Cordillera Real, Bolivia

Water management modelling of a hydroelectric system in a tropical high mountain context is presented. The study zone and the hydraulic network are described and the water management strategy analysed. Three different models are combined to describe the complexity of the specific hydrometeorological context: the spatial distribution of the climatic data over the river basin, the surface energy balance influence on the runoff production of a river basin and the surface flow transfer modelling through a hydraulic system. The atmospheric forcing spatial distribution is derived from the available climatic data records. The runoff production on the catchment’s slopes is simulated using the land-surface scheme ISBA. The system dynamics tool Vensim  is used to simulate the hydraulic dynamics in the hydropower plants system. A short description of the three modelling methods is given, followed by the description of the coupled model construction. The simulation results of the ISBA land-surface scheme on both a non-glacial an a glacial sub-basin during a 17 month period are presented. After pointing out the necessity of the water management model to simulate the river discharge at the outlet of the basin, the main reservoirs, simulated water level variations are shown. Copyright  2004 John Wiley & Sons, Ltd.

[1]  J. Mahfouf,et al.  The ISBA land surface parameterisation scheme , 1996 .

[3]  P. Ribstein,et al.  Monthly balance and water discharge of an inter-tropical glacier: Zongo Glacier, Cordillera Real, Bolivia, 16° S , 1995, Journal of Glaciology.

[4]  Sarita V. Adve,et al.  RSIM Reference Manual: Version 1.0 , 1997 .

[5]  K. Beven,et al.  A physically based, variable contributing area model of basin hydrology , 1979 .

[6]  E. Todini,et al.  A rainfall–runoff scheme for use in the Hamburg climate model , 1992 .

[7]  Etienne Leblois,et al.  Simulation of the water budget and the river flows of the Rhone basin , 1999 .

[8]  Christian Bierwirth,et al.  Principles of Systems , 2000 .

[9]  Jean-Christophe Calvet,et al.  Inclusion of a Third Soil Layer in a Land Surface Scheme Using the Force–Restore Method , 1999 .

[10]  Ribsteina,et al.  Tropical climate and glacier hydrology : a case study in Bolivia , 2002 .

[11]  P. Aceituno,et al.  On the Functioning of the Southern Oscillation in the South American Sector. Part I: Surface Climate , 1988 .

[12]  A. Piaget Mountain Weather and Climate , 1982 .

[13]  D. Vidal-Madjar,et al.  The ISBA surface scheme in a macroscale hydrological model applied to the Hapex-Mobilhy area Part I: Model and database , 1999 .

[14]  P. E. O'connell,et al.  River flow forecasting through conceptual models part III - The Ray catchment at Grendon Underwood , 1970 .

[15]  Slobodan P. Simonovic,et al.  The Use of Object-Oriented Modeling for Water Resources Planning in Egypt , 1997 .

[16]  Pierre Etchevers,et al.  Simulation of the water budget and the river flows of the Rhone basin from 1981 to 1994 , 2001 .

[17]  Raymond S. Bradley,et al.  Interannual climate variability in the Central Andes and its relation to tropical Pacific and Atlantic forcing , 2000 .

[18]  V. Klemeš,et al.  Operational Testing of Hydrological Simulation Models , 2022 .

[19]  Jin Lee A formal approach to hydrological model conceptualization , 1993 .

[20]  S. Planton,et al.  A Simple Parameterization of Land Surface Processes for Meteorological Models , 1989 .

[21]  J. Deardorff Efficient prediction of ground surface temperature and moisture, with inclusion of a layer of vegetation , 1978 .

[22]  J. Deardorff A Parameterization of Ground-Surface Moisture Content for Use in Atmospheric Prediction Models , 1977 .

[23]  P. Wagnon,et al.  Clear-sky albedo measurements on a sloping glacier surface: A case study in the Bolivian Andes , 2001 .

[24]  J. Noilhan,et al.  The ISBA surface scheme in a macroscale hydrological model applied to the Hapex-Mobilhy area: Part II: Simulation of streamflows and annual water budget , 1999 .

[25]  P. Wagnon,et al.  Energy balance and runoff seasonality of a Bolivian glacier , 1999 .

[26]  Eric F. Wood,et al.  A land-surface hydrology parameterization with subgrid variability for general circulation models , 1992 .

[27]  P. Chevallier,et al.  Hydrological characteristics of slope deposits in high tropical mountains (Cordillera Real, Bolivia) , 2002 .

[28]  J. Nash,et al.  River flow forecasting through conceptual models part I — A discussion of principles☆ , 1970 .