Title :
Optimal Distribution System Horizon Planning–Part I: Formulation
Author :
Fletcher, Robert H. ; Strunz, Kai
Author_Institution :
Snohomish County PUD, Everett, WA
fDate :
5/1/2007 12:00:00 AM
Abstract :
This paper is the first of a two-part paper on optimal distribution system planning. The horizon distribution planning problem and optimal distribution system model formulation are described. The horizon planning mission is to minimize future costs by determining optimal design parameters given assumptions about the future. Prior work addressed short-range and expansion planning of subsets or combinations of design parameters. The many distribution requirements and associated constraints inhibited an all-inclusive evaluation of total horizon design requirements for the 20+ year period. The proposed model and optimization formulation provides a generalized horizon planning approach and introduce a fully functioning comprehensive horizon planning model using a perspective that encompasses all necessary parameters and constraints. Parameters include: substation and distribution transformer capacities; number, size, and lengths of distribution feeders and secondary conductors; and primary voltage class. Optimal design voltage drops and reliability indices are determined. The horizon planning optimization application is described and solved in the second companion paper using continuous constrained nonlinear programming methods. The application is demonstrated with Snohomish PUD case studies
Keywords :
optimisation; power distribution planning; power distribution reliability; Snohomish PUD; continuous constrained nonlinear programming; costs minimization; horizon planning; optimal distribution system; reliability indices; voltage drops; Conductors; Constraint optimization; Cost function; Minimization methods; Optimization methods; Power distribution; Power system planning; Power system reliability; Substations; Voltage; Circuit optimization; losses; minimization methods; optimization methods; power distribution economics; power distribution lines; power distribution planning;
Journal_Title :
Power Systems, IEEE Transactions on
DOI :
10.1109/TPWRS.2007.895173
