Modeling and simulating an electrical grid subsystem for power balance analysis

Luminita Cristiana Totu, John-Josef Leth, Rafal Wisniewski

Publikation: Bidrag til bog/antologi/rapport/konference proceedingKonferenceabstrakt i proceedingForskning

193 Downloads (Pure)

Resumé

We present an approach for power balance analysis in Smart Grids where the physical behavior of different electrical devices is modeled at unit level, and the collective load and generation curves can later be obtained by aggregation. In this way, new behaviors, flexibilities and intelligent strategies for power consumption and generation can be easily introduced at the user-level and the system-level impact analyzed on the aggregated profiles. The future aim is to investigate bottom-up balancing strategies, where units with a flexible energy band can react independently to power balance signals such as dynamic prices.
OriginalsprogEngelsk
TitelProceedings of the 17th Nordic Process Control Workshop
Antal sider4
Publikationsdato2012
Sider170-173
StatusUdgivet - 2012

Fingerprint

Band structure
Power generation
Electric power utilization
Agglomeration

Citer dette

Totu, L. C., Leth, J-J., & Wisniewski, R. (2012). Modeling and simulating an electrical grid subsystem for power balance analysis. I Proceedings of the 17th Nordic Process Control Workshop (s. 170-173)
Totu, Luminita Cristiana ; Leth, John-Josef ; Wisniewski, Rafal. / Modeling and simulating an electrical grid subsystem for power balance analysis. Proceedings of the 17th Nordic Process Control Workshop . 2012. s. 170-173
@inbook{ea9fa606e11744eaab6b67755c62338e,
title = "Modeling and simulating an electrical grid subsystem for power balance analysis",
abstract = "We present an approach for power balance analysis in Smart Grids where the physical behavior of different electrical devices is modeled at unit level, and the collective load and generation curves can later be obtained by aggregation. In this way, new behaviors, flexibilities and intelligent strategies for power consumption and generation can be easily introduced at the user-level and the system-level impact analyzed on the aggregated profiles. The future aim is to investigate bottom-up balancing strategies, where units with a flexible energy band can react independently to power balance signals such as dynamic prices.",
keywords = "Smart Grids , power balance, Modeling",
author = "Totu, {Luminita Cristiana} and John-Josef Leth and Rafal Wisniewski",
year = "2012",
language = "English",
pages = "170--173",
booktitle = "Proceedings of the 17th Nordic Process Control Workshop",

}

Totu, LC, Leth, J-J & Wisniewski, R 2012, Modeling and simulating an electrical grid subsystem for power balance analysis. i Proceedings of the 17th Nordic Process Control Workshop . s. 170-173.

Modeling and simulating an electrical grid subsystem for power balance analysis. / Totu, Luminita Cristiana; Leth, John-Josef; Wisniewski, Rafal.

Proceedings of the 17th Nordic Process Control Workshop . 2012. s. 170-173.

Publikation: Bidrag til bog/antologi/rapport/konference proceedingKonferenceabstrakt i proceedingForskning

TY - ABST

T1 - Modeling and simulating an electrical grid subsystem for power balance analysis

AU - Totu, Luminita Cristiana

AU - Leth, John-Josef

AU - Wisniewski, Rafal

PY - 2012

Y1 - 2012

N2 - We present an approach for power balance analysis in Smart Grids where the physical behavior of different electrical devices is modeled at unit level, and the collective load and generation curves can later be obtained by aggregation. In this way, new behaviors, flexibilities and intelligent strategies for power consumption and generation can be easily introduced at the user-level and the system-level impact analyzed on the aggregated profiles. The future aim is to investigate bottom-up balancing strategies, where units with a flexible energy band can react independently to power balance signals such as dynamic prices.

AB - We present an approach for power balance analysis in Smart Grids where the physical behavior of different electrical devices is modeled at unit level, and the collective load and generation curves can later be obtained by aggregation. In this way, new behaviors, flexibilities and intelligent strategies for power consumption and generation can be easily introduced at the user-level and the system-level impact analyzed on the aggregated profiles. The future aim is to investigate bottom-up balancing strategies, where units with a flexible energy band can react independently to power balance signals such as dynamic prices.

KW - Smart Grids

KW - power balance

KW - Modeling

M3 - Conference abstract in proceeding

SP - 170

EP - 173

BT - Proceedings of the 17th Nordic Process Control Workshop

ER -

Totu LC, Leth J-J, Wisniewski R. Modeling and simulating an electrical grid subsystem for power balance analysis. I Proceedings of the 17th Nordic Process Control Workshop . 2012. s. 170-173