An efficient comprehensive methodology is described that allows interactive forecasting of distribution-substation load growth and load sharing, with application to the determination of an economically feasible timing schedule for adding substation capacity. A BASIC-language implementation illustrating some of its capabilities is discussed. Load growth is expressed by a Gompertz model using parameters evaluated from historical data; however, other load-growth models can be easily implemented. Load transfer, which can be set to begin at any percentage of the substation capacity, is accomplished stochastically in the algorithm by means of a quasi-Markov process. Default load transfer threshold, load transfer flags, and other parameters are under direct control of the user and can be set to conform to individual base-case and historical data. The implementation of this algorithm for minicomputer use as an interactive planning and instructional tool is discussed, and an example is presented. >
[1]
Edwin Vennard.
Management of the electric energy business
,
1979
.
[2]
Edwin Vennard,et al.
The electric power business
,
1970
.
[3]
R. L. Sullivan,et al.
Power system planning
,
1977
.
[4]
Y.Y. Haimes,et al.
Methodology for large-scale systems
,
1978,
Proceedings of the IEEE.
[5]
Enver Masud.
An Interactive Procedure for Sizing and Timing Distribution Substations Using Optimization Techniques
,
1974
.
[6]
Dean Isaacson,et al.
Markov Chains: Theory and Applications
,
1976
.
[7]
Applied Statistical Techniques
,
1981
.
[8]
D.M. Crawford,et al.
A mathematical optimization technique for locating and sizing distribution substations, and deriving their optimal service areas
,
1975,
IEEE Transactions on Power Apparatus and Systems.