Abstract
Transport and supply water networks are two types of systems which have received a significant amount of attention in the recent years. Issues on how to obtain the best performance for a given transport or supply water systems, or how to coordinate interactions between them are still open and need more research. This chapter presents a hierarchical Model Predictive Control (MPC) scheme with a supervisor that coordinates transport and supply water systems. First, a two-level hierarchical control structure resulting from a functional decomposition of water network is briefly presented. Inside each hierarchy, an MPC controller is used. In the two-level hierarchy, a supervisory coordinating mechanism is used to generate control strategies which consider objectives at different time scales. The first level, in charge of managing the transport system, works in a daily scale in order to achieve the global management policies for the transport over water (e.g., navigation, vessels and barges) in different rivers and balance management of different reservoirs. The second level, in charge of managing the supply system, works in a hourly scale and manipulates actuator (pumps and valves) set-point to satisfy the local water supplying objectives (e.g., minimizing economic cost, handling emergency storage and smoothing actuator operation). The results of the modeling will be applied to the Catalunya Regional Water Network and based on an aggregate model.
This is a preview of subscription content, log in via an institution.
Buying options
Tax calculation will be finalised at checkout
Purchases are for personal use only
Learn about institutional subscriptionsReferences
Brdys M, Tatjewski P. Iterative algorithms for multilayer optimizing control. London: Imperial College Press; 2005.
Brdys M, Ulanicki B. Operational control of water systems: structures, algorithms and applications. London: Prentice Hall; 1994.
Brdys MA, Grochowski M, Gminski T, Konarczak K, Drewa M. Hierarchical predictive control of integrated wastewater treatment systems. Control Eng Pract. 2008;16(6):751–767.
Cheng W, Hsu N, Cheng WM, Yeh W. A flow path model for regional water distribution optimization. Water Resour Res. 2009;45:W09411.
Danielson GH. On finding simple paths and circuits in a graph. IEEE Trans. Circuit Theory. 1968;CT-15:294–295.
de Oca Armeaga, SM. Hierarchical multilayer and decentralized MPC control of the Barcelona water network. Master Thesis, Universitat Politecnica de Catalunya, 2011.
Evans R, Li L, Mareels I, Okello N, Pham M, Qiu W, Saleem SK. Real-time optimal control of river basin networks. Preprints of the 18th IFAC World Congress, Milano, Italy; 2011. p. 11459–11464.
Nitivattananon V, Sadowski EC, Quimpo RG. Optimization of water supply system operation. J Water Res Plan Manage. 1996;122(5):374–384.
Ocampo-Martinez C, Puig V, Cembrano G, Quevedo J. Application of predictive control strategies to the management of complex networks in the urban water cycle. IEEE Control Syst Mag. 2013;33(1):15–45.
Scattolini R. Architectures for distributed and hierarchical model predictive control: a review. J Process Control. 2009;19(5):723–731.
Tatjewski P. Advanced control and on-line process optimization in multilayer structures. Ann Rev Control. 2008;32(1):71–85.
Tu MY, Frank TCT, William WGY. Optimizaiton of water distribution and water quality by hybird genetic algorithm. J Water Resour Plan Manage. 2005;131(6):431–440.
Acknowledgements
The authors thank ACA, ATLL and ADASA for providing the case study as well as for sharing their hydrological management expertise. This research has been partially funded by CDTI (MCyT) project HIDROPTIM IDI-20100722, the DGR of Generalitat de Catalunya (SAC group Ref. 2009/SGR/1491), the AGAUR by an FI grant and by EFFINET grant FP7-ICT-2012-318556 of the European Commission.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2015 Springer International Publishing Switzerland
About this chapter
Cite this chapter
Sun, C.C., Puig, V., Cembrano, G. (2015). Coordinating Model Predictive Control of Transport and Supply Water Systems. In: Ocampo-Martinez, C., Negenborn, R. (eds) Transport of Water versus Transport over Water. Operations Research/Computer Science Interfaces Series, vol 58. Springer, Cham. https://doi.org/10.1007/978-3-319-16133-4_7
Download citation
DOI: https://doi.org/10.1007/978-3-319-16133-4_7
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-16132-7
Online ISBN: 978-3-319-16133-4
eBook Packages: Business and EconomicsBusiness and Management (R0)