An 11 kV steady state residential aggregate load model. Part 1: aggregation methodology

Adam Collin; Ignacio Hernando Gil; Jorge Acosta; Sasa Z. Djokic

doi:10.1109/PTC.2011.6019381

An 11 kV steady state residential aggregate load model. Part 1

aggregation methodology

Adam Collin, Ignacio Hernando Gil, Jorge Acosta, Sasa Z. Djokic

Research output: Contribution to conference › Paper

36 Citations (Scopus)

Abstract

This paper, which is part one of a two-part series, presents a general methodology for the development of improved aggregate load models for steady state power system analysis. Using the UK residential load sector as an example, the paper shows how component-based low voltage (LV) aggregate load models can be obtained using measurements, statistical and other available data and information on load structure and active/reactive power demands. The presented aggregate LV load models are connected to typical LV and medium voltage (MV) network configurations, in order to obtain correct aggregate load models at higher voltage levels. Part two paper discusses how the presented aggregate load models can be modified to include the analysis the effects of demand side management and microgeneration technologies have on the overall performance of LV/MV networks.

Original language	English
Pages	1-8
Number of pages	8
DOIs	https://doi.org/10.1109/PTC.2011.6019381
Publication status	Published - Jun 2011
Event	IEEE Powertech 2011. International Conference on Electric Power Engineering, Trondheim 2011 - Trondheim, Norway Duration: 19 Jun 2011 → 23 Jun 2011

Conference

Conference	IEEE Powertech 2011. International Conference on Electric Power Engineering, Trondheim 2011
Country	Norway
City	Trondheim
Period	19/06/11 → 23/06/11

Fingerprint

Agglomeration

Electric potential

Reactive power

Systems analysis

Keywords

aggregate load model
component-based load modelling
demand side management
load flow
micro and small-scale generation
residential load sector/sub-sector

ASJC Scopus subject areas

Electrical and Electronic Engineering
Energy Engineering and Power Technology

Cite this

Collin, A., Hernando Gil, I., Acosta, J., & Djokic, S. Z. (2011). An 11 kV steady state residential aggregate load model. Part 1: aggregation methodology. 1-8. Paper presented at IEEE Powertech 2011. International Conference on Electric Power Engineering, Trondheim 2011, Trondheim, Norway. https://doi.org/10.1109/PTC.2011.6019381

An 11 kV steady state residential aggregate load model. Part 1 : aggregation methodology. / Collin, Adam; Hernando Gil, Ignacio; Acosta, Jorge; Djokic, Sasa Z.

2011. 1-8 Paper presented at IEEE Powertech 2011. International Conference on Electric Power Engineering, Trondheim 2011, Trondheim, Norway.

Research output: Contribution to conference › Paper

Collin, A, Hernando Gil, I, Acosta, J & Djokic, SZ 2011, 'An 11 kV steady state residential aggregate load model. Part 1: aggregation methodology' Paper presented at IEEE Powertech 2011. International Conference on Electric Power Engineering, Trondheim 2011, Trondheim, Norway, 19/06/11 - 23/06/11, pp. 1-8. https://doi.org/10.1109/PTC.2011.6019381

Collin A, Hernando Gil I, Acosta J, Djokic SZ. An 11 kV steady state residential aggregate load model. Part 1: aggregation methodology. 2011. Paper presented at IEEE Powertech 2011. International Conference on Electric Power Engineering, Trondheim 2011, Trondheim, Norway. https://doi.org/10.1109/PTC.2011.6019381

Collin, Adam ; Hernando Gil, Ignacio ; Acosta, Jorge ; Djokic, Sasa Z. / An 11 kV steady state residential aggregate load model. Part 1 : aggregation methodology. Paper presented at IEEE Powertech 2011. International Conference on Electric Power Engineering, Trondheim 2011, Trondheim, Norway.8 p.

@conference{92be419b96f04c7995b84ff2e53f9f98,

title = "An 11 kV steady state residential aggregate load model. Part 1: aggregation methodology",

abstract = "This paper, which is part one of a two-part series, presents a general methodology for the development of improved aggregate load models for steady state power system analysis. Using the UK residential load sector as an example, the paper shows how component-based low voltage (LV) aggregate load models can be obtained using measurements, statistical and other available data and information on load structure and active/reactive power demands. The presented aggregate LV load models are connected to typical LV and medium voltage (MV) network configurations, in order to obtain correct aggregate load models at higher voltage levels. Part two paper discusses how the presented aggregate load models can be modified to include the analysis the effects of demand side management and microgeneration technologies have on the overall performance of LV/MV networks.",

keywords = "aggregate load model, component-based load modelling, demand side management, load flow, micro and small-scale generation, residential load sector/sub-sector",

author = "Adam Collin and {Hernando Gil}, Ignacio and Jorge Acosta and Djokic, {Sasa Z.}",

year = "2011",

month = "6",

doi = "10.1109/PTC.2011.6019381",

language = "English",

pages = "1--8",

note = "IEEE Powertech 2011. International Conference on Electric Power Engineering, Trondheim 2011 ; Conference date: 19-06-2011 Through 23-06-2011",

}

TY - CONF

T1 - An 11 kV steady state residential aggregate load model. Part 1

T2 - aggregation methodology

AU - Collin, Adam

AU - Hernando Gil, Ignacio

AU - Acosta, Jorge

AU - Djokic, Sasa Z.

PY - 2011/6

Y1 - 2011/6

N2 - This paper, which is part one of a two-part series, presents a general methodology for the development of improved aggregate load models for steady state power system analysis. Using the UK residential load sector as an example, the paper shows how component-based low voltage (LV) aggregate load models can be obtained using measurements, statistical and other available data and information on load structure and active/reactive power demands. The presented aggregate LV load models are connected to typical LV and medium voltage (MV) network configurations, in order to obtain correct aggregate load models at higher voltage levels. Part two paper discusses how the presented aggregate load models can be modified to include the analysis the effects of demand side management and microgeneration technologies have on the overall performance of LV/MV networks.

AB - This paper, which is part one of a two-part series, presents a general methodology for the development of improved aggregate load models for steady state power system analysis. Using the UK residential load sector as an example, the paper shows how component-based low voltage (LV) aggregate load models can be obtained using measurements, statistical and other available data and information on load structure and active/reactive power demands. The presented aggregate LV load models are connected to typical LV and medium voltage (MV) network configurations, in order to obtain correct aggregate load models at higher voltage levels. Part two paper discusses how the presented aggregate load models can be modified to include the analysis the effects of demand side management and microgeneration technologies have on the overall performance of LV/MV networks.

KW - aggregate load model

KW - component-based load modelling

KW - demand side management

KW - load flow

KW - micro and small-scale generation

KW - residential load sector/sub-sector

UR - http://dx.doi.org/10.1109/PTC.2011.6019381

U2 - 10.1109/PTC.2011.6019381

DO - 10.1109/PTC.2011.6019381

M3 - Paper

SP - 1

EP - 8

ER -

Access to Document

10.1109/PTC.2011.6019381