论文信息 - Design of Large Rural Low-Voltage Networks Using Dynamic Programming Optimization

Design of Large Rural Low-Voltage Networks Using Dynamic Programming Optimization

The purpose of this paper is to establish algorithms in the design of rural low-voltage (lv) distribution networks. Planning of rural lv distribution networks involves the optimal design of radial configuration and location of mv/lv substations considering cost functions. In this work both goals are considered by taking into account different conductors, voltage drop constraints, power losses in lines, and deterministic loads. The algorithms developed in this paper are based on dynamic programming and were implemented on large-scale rural lv distribution networks, but they could also be used for other network optimization.

E. Miguez | J. Cidras | E. Diaz-Dorado

[1] G. J. Salis. Optimum long-term planning of a radial primary distribution network--part I: data description and first proposed network form , 1998 .

[2] Khalil S. Hindi,et al. Optimal cable profile of l.v. radial distributors. Two mathematical programming methods , 1976 .

[3] J. K. Snelson,et al. Logical design of branched l.v. distributors , 1970 .

[4] R. L. Grimsdale,et al. The design of housing-estate distribution systems using a digital computer , 1960 .

[5] L. R. Foulds. Optimization Techniques: An Introduction , 1981 .

[6] H. N. Tram,et al. Optimal conductor selection in planning radial distribution systems , 1988 .

[7] M. J. Carson,et al. Design of low-voltage distribution networks. Interactive computer method based on the calculus of variations , 1973 .