A hydro power system operation using Genetic Algorithms and mixed-integer nonlinear programming

Čistý, M., Bajtek, Z. (2009): Hybrid method for the design of the water distribution systems. Journal of Hydrology and Hydromechanics. 57(2). SAP. Bratislava, 2009: pp. 130-141Search in Google Scholar

Goldberg, D. E. (1989): Genetic Algorithms in Search. Optimization and Machine Learning. New York, Addison-Wesley, 1989.Search in Google Scholar

Gil, E., Bustos, J., Rudnick, H. (2003): Short-term hydrothermal generation scheduling model using a genetic algorithm. IEEE Trans Power Syst. 18(4), 2003: pp. 1256-64.10.1109/TPWRS.2003.819877Search in Google Scholar

Heredia, F. J., Nabona, N. (1995): Optimum short-term hydrothermal scheduling with spinning reserve through network flows. IEEE Trans Power Syst. 10(3), 1995: pp. 1642-51.10.1109/59.466476Search in Google Scholar

Chang, G. W., Aganagic, M., Waight, J. G., Medina, J., Burton, T., Reeves, S. (2001): Experiences with mixed integer linear programming based approaches on short-term hydro scheduling. IEEE Trans Power Syst. 16(4), 2001: pp. 743-9.10.1109/59.962421Search in Google Scholar

Li, C., Jap, P. J., Streiffert, D. L. (1993): Implementation of network flow programming to the hydrothermal coordination in an energy management system. IEEE Trans Power Syst. 8(3), 1993: pp. 1045-53.10.1109/59.260895Search in Google Scholar

Nacházel, K., Toman, M. (1995): Perspective of the genetic algorithms in the theory of reservoirs water resources systems. Journal of Hydrology and Hydromechanics. 43(3), 1995. SAP. Bratislava.Search in Google Scholar

Nilsson, O., Sjelvgren, D. (1996): Mixed-integer programming applied to short-term planning of a hydro-thermal system. IEEE Trans Power Syst. 11(1), 1996: pp. 281-6.10.1109/59.486107Search in Google Scholar

Reis, L. F. R., Bessler, F. T., Walters, G. A., Savic, D. (2006): Water Supply Reservoir Operation by Combined Genetic Algorithm - Linear Programming Approach. Water Resources Management. 20, 2006: pp. 227-255.10.1007/s11269-006-8049-zSearch in Google Scholar

Seewald, V. (1997): Riadenie hydroenergetického systému SE, a.s. (Operating SE, Inc. hydro power system). Odborný časopis pre elektroenergetiku a energetiku. Bratislava. 1(3), 1997: pp. 17-20. (In Slovak)Search in Google Scholar

Šulek, P., Dušička, P. (2006): Návrh algoritmov hydromodelovania pre SW Model prevádzky hydro systému SE, a.s. (The proposed hydromodeling algorithms for SW operating model of SE, Inc. hydro power system). Technical documentation. STU Bratislava, 2006. (Slovak)Search in Google Scholar

Simopoulos, D., Kavatza, S., Vournas, C. (2007): An enhanced peak shaving method for short term hydrothermal scheduling. Energy Conversion and Management 48, 2007: pp. 3018-302410.1016/j.enconman.2007.07.001Search in Google Scholar

Tang, J., Luh, P. B. (1995): Hydrothermal scheduling via extended differential dynamic programming and mixed coordination. IEEE Trans Power Syst. 10(4), 1995: pp. 2021-8.Search in Google Scholar

Wu, R. N., Lee, T. H., Hill, E. F. (1989): An investigation of the accuracy and the characteristics of the peak-shaving method applied to production cost calculations. IEEE Trans Power Syst, 4(3), 1989: pp. 1043-9.Search in Google Scholar

Wu, R. N., Lee, T. H., Hill, E. F. (1991): Effect of interchange on short-term hydrothermal scheduling. IEEE Trans Power Syst. 6(3), 1991: pp. 1217-23.Search in Google Scholar

Yang, J., Chen, N. (1989): Short term hydrothermal coordination using multipass dynamic programming. IEEE Trans Power Syst. 4(3), 1989: pp. 1050-6.Search in Google Scholar

Zoumas, C. E., Bakirtzis, A. G., Theocharis, J. B., Petridis, V (2004): A genetic algorithm solution approach to the hydrothermal coordination problem. IEEE Trans Power Syst. 19(2), 2004: pp. 1356-64.10.1109/TPWRS.2004.825896Search in Google Scholar

NeuroDimension, Inc.: Genetic Server http://www.nd.comSearch in Google Scholar

Frontline Systems, Inc.: Frontline Systems Solver Engines http://www.solver.comSearch in Google Scholar