TY - JOUR
T1 - An alternative approach to the operation of multinational reservoir systems
T2 - Application to the Amistad and Falcon system (Lower Rio Grande/Río Bravo)
AU - Serrat-Capdevila, Aleix
AU - Valdés, Juan B.
N1 - Funding Information:
Acknowledgements This research was supported in part by grants from Sandia National Laboratories and from SAHRA (Sustainability of semi-Arid Hydrology and Riparian Areas) at The University of Arizona under the STC Program of the National Science Foundation, Agreement No. EAR-9876800. Howard Passell (Sandia National Laboratories), Javier Aparicio and Alberto Guitrón (Mexican Water Technology Institute, IMTA) and Javier González Pérez (Universidad de Castilla-La Mancha) provided valuable comments. Jim Robinson and Kenneth Rakestraw from the International Boundary and Water Commission (El Paso, Texas) provided valuable information on the Amistad and Falcon international reservoir system. All contributions are gratefully acknowledged.
PY - 2007/4
Y1 - 2007/4
N2 - An optimization approach for the operation of international multi-reservoir systems is presented. The approach uses Stochastic Dynamic Programming (SDP) algorithms - both steady-state and real-time - to develop two models. In the first model, the reservoirs and flows of the system are aggregated to yield an equivalent reservoir, and the obtained operating policies are disaggregated using a non-linear optimization procedure for each reservoir and for each nation's water balance. In the second model a multi-reservoir approach is applied, disaggregating the releases for each country's water share in each reservoir. The non-linear disaggregation algorithm uses SDP-derived operating policies as boundary conditions for a local time-step optimization. Finally, the performance of the different approaches and methods is compared. These models are applied to the Amistad-Falcon International Reservoir System as part of a binational dynamic modeling effort to develop a decision support system tool for a better management of the water resources in the Lower Rio Grande Basin, currently enduring a severe drought.
AB - An optimization approach for the operation of international multi-reservoir systems is presented. The approach uses Stochastic Dynamic Programming (SDP) algorithms - both steady-state and real-time - to develop two models. In the first model, the reservoirs and flows of the system are aggregated to yield an equivalent reservoir, and the obtained operating policies are disaggregated using a non-linear optimization procedure for each reservoir and for each nation's water balance. In the second model a multi-reservoir approach is applied, disaggregating the releases for each country's water share in each reservoir. The non-linear disaggregation algorithm uses SDP-derived operating policies as boundary conditions for a local time-step optimization. Finally, the performance of the different approaches and methods is compared. These models are applied to the Amistad-Falcon International Reservoir System as part of a binational dynamic modeling effort to develop a decision support system tool for a better management of the water resources in the Lower Rio Grande Basin, currently enduring a severe drought.
KW - Country water budgets
KW - Multi-reservoir modeling approach
KW - Multinational reservoir systems
KW - Quantitative model comparison
KW - Stochastic dynamic programming
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U2 - 10.1007/s11269-006-9035-1
DO - 10.1007/s11269-006-9035-1
M3 - Article
AN - SCOPUS:33847146723
SN - 0920-4741
VL - 21
SP - 677
EP - 698
JO - Water Resources Management
JF - Water Resources Management
IS - 4
ER -