Nonlinear optimal power flow with intertemporal constraints

Author

Nejdawi, I.M. ; Clements, K.A. ; Kimball, L.M. ; Davis, P.W.

Author_Institution

Worcester Polytech. Inst., MA, USA

Volume

20

Issue

5

fYear

2000

fDate

5/1/2000 12:00:00 AM

Firstpage

74

Lastpage

75

Abstract

This letter describes an interior point dynamic optimal power flow (OPF) algorithm and illustrates its application to a model network that includes large energy-intensive consumers such as metal smelters that are able to reschedule demand to reduce electricity cost subject to meeting the day´s production quota. Although the behavior predicted by the algorithm is no surprise (those consumers whose demand is price sensitive reschedule their power purchases to periods of lower energy cost), its efficiency demonstrates the power of the approach. Relaxation of intertemporal and operational constraints leads to an algorithm in which an inner loop rapidly solves a series of relatively small quadratic programming problems via an interior point method while an outer loop is performing computations analogous to an iterative load flow calculation

Keywords

iterative methods; load flow; quadratic programming; scheduling; demand rescheduling; electricity cost reduction; energy-intensive consumers; interior point dynamic optimal power flow; intertemporal constraint; iterative load flow; lower energy cost periods; metal smelters; nonlinear optimal power flow; power purchases; small quadratic programming problems; Cost function; Hoses; Load flow; Phase shifters; Power systems; Smelting; Voltage;

fLanguage

English

Journal_Title

Power Engineering Review, IEEE

Publisher

ieee

ISSN

0272-1724

Type

jour

DOI

10.1109/39.841359

Filename

841359