ZIP load modeling for single and aggregate loads and CVR factor estimation-Reference-Cited by-同舟云学术

ZIP load modeling for single and aggregate loads and CVR factor estimation

Published:2022-08-05 Issue:6 Volume:23 Page:839-858
ISSN:1553-779X
Container-title:International Journal of Emerging Electric Power Systems
language:en
Short-container-title:

Author:

Zhang Yiqi¹,Liao Yuan²^ORCID,Jones Evan¹,Jewell Nicholas³,Ionel Dan¹

Affiliation:

1. Department of ECE , University of Kentucky , Lexington , KY , USA

2. Department of ECE , University of Kentucky , 453 F Paul Anderson Tower , Lexington , KY 40506 , USA

3. LG and E and KU Energy LLC , Louisville , KY , USA

Abstract

Abstract ZIP load modeling has been used in various power system applications. The aggregate load modeling is common practice in utility companies. However, little research has been done on the theoretical formulation of the aggregate load and on various factors that affect accurate estimation of the parameters. This paper proposes new methods to systematically formulate the aggregate ZIP load model using the single ZIP load model and comprehensively examines the factors that may affect aggregate ZIP load estimation. Moreover, novel analysis of reactive power ZIP parameter calculation considering different compensating device modeling is presented. ZIP parameter estimation methods including least squares method, optimization method, and neural network method have been used in this paper to estimate ZIP parameters. The proposed new method was illustrated using the IEEE 13-bus and 34-bus systems built in OpenDSS. In addition, the ZIP parameter estimation is also performed using field data, and the conservation through voltage reduction (CVR) factor is further computed based on the estimated ZIP load model. The results provide guidance on calculation and interpretation of CVR estimates. Note that this paper was first presented at PAC world conference 2021 which provides no published conference proceedings.

Funder

LG&E and KU Energy LLC

Publisher

Walter de Gruyter GmbH

Subject

Energy Engineering and Power Technology

Link

https://www.degruyter.com/document/doi/10.1515/ijeeps-2022-0052/pdf

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