Rule-based Energy Management System in an Experimental Microgrid with the Presence of Time of Use Tariffs

Rule-based Energy Management System in an Experimental Microgrid with the Presence of Time of Use Tariffs

This paper aims to investigate a method of peak load shaving through the utilization of solar PV and battery energy storage whilst creating a cost effective Energy Management System (EMS). This is achieved by utilizing a rule-sets to manage and optimize a scheduling system with a forecasting algorit...

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Main Authors: Moghimi Mojtaba, Leskarac Domagoj, Bennett Christopher, Lu Junwei, Stegen Sascha
Format: Article
Language:English
Published: EDP Sciences 2016-01-01
Series:MATEC Web of Conferences
Online Access:http://dx.doi.org/10.1051/matecconf/20167010011
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spelling doaj-620b45822720427b879927c0eab6cb1e2021-02-02T00:10:04ZengEDP SciencesMATEC Web of Conferences2261-236X2016-01-01701001110.1051/matecconf/20167010011matecconf_icmit2016_10011Rule-based Energy Management System in an Experimental Microgrid with the Presence of Time of Use TariffsMoghimi Mojtaba0Leskarac Domagoj1Bennett Christopher2Lu Junwei3Stegen Sascha4Griffith School of Engineering, Griffith UniversityGriffith School of Engineering, Griffith UniversityGriffith School of Engineering, Griffith UniversityGriffith School of Engineering, Griffith UniversityGriffith School of Engineering, Griffith UniversityThis paper aims to investigate a method of peak load shaving through the utilization of solar PV and battery energy storage whilst creating a cost effective Energy Management System (EMS). This is achieved by utilizing a rule-sets to manage and optimize a scheduling system with a forecasting algorithm. As Time of Use (ToU) tariffs change throughout the day, a cost benefit can be achieved when a smart energy storage system is appropriately employed. The EMS operation is tested on an experimental microgrid with commercial load considering payback period calculation.http://dx.doi.org/10.1051/matecconf/20167010011
collection DOAJ
language English
format Article
sources DOAJ
author Moghimi Mojtaba
Leskarac Domagoj
Bennett Christopher
Lu Junwei
Stegen Sascha
spellingShingle Moghimi Mojtaba
Leskarac Domagoj
Bennett Christopher
Lu Junwei
Stegen Sascha
Rule-based Energy Management System in an Experimental Microgrid with the Presence of Time of Use Tariffs
MATEC Web of Conferences
author_facet Moghimi Mojtaba
Leskarac Domagoj
Bennett Christopher
Lu Junwei
Stegen Sascha
author_sort Moghimi Mojtaba
title Rule-based Energy Management System in an Experimental Microgrid with the Presence of Time of Use Tariffs
title_short Rule-based Energy Management System in an Experimental Microgrid with the Presence of Time of Use Tariffs
title_full Rule-based Energy Management System in an Experimental Microgrid with the Presence of Time of Use Tariffs
title_fullStr Rule-based Energy Management System in an Experimental Microgrid with the Presence of Time of Use Tariffs
title_full_unstemmed Rule-based Energy Management System in an Experimental Microgrid with the Presence of Time of Use Tariffs
title_sort rule-based energy management system in an experimental microgrid with the presence of time of use tariffs
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2016-01-01
description This paper aims to investigate a method of peak load shaving through the utilization of solar PV and battery energy storage whilst creating a cost effective Energy Management System (EMS). This is achieved by utilizing a rule-sets to manage and optimize a scheduling system with a forecasting algorithm. As Time of Use (ToU) tariffs change throughout the day, a cost benefit can be achieved when a smart energy storage system is appropriately employed. The EMS operation is tested on an experimental microgrid with commercial load considering payback period calculation.
url http://dx.doi.org/10.1051/matecconf/20167010011
work_keys_str_mv AT moghimimojtaba rulebasedenergymanagementsysteminanexperimentalmicrogridwiththepresenceoftimeofusetariffs
AT leskaracdomagoj rulebasedenergymanagementsysteminanexperimentalmicrogridwiththepresenceoftimeofusetariffs
AT bennettchristopher rulebasedenergymanagementsysteminanexperimentalmicrogridwiththepresenceoftimeofusetariffs
AT lujunwei rulebasedenergymanagementsysteminanexperimentalmicrogridwiththepresenceoftimeofusetariffs
AT stegensascha rulebasedenergymanagementsysteminanexperimentalmicrogridwiththepresenceoftimeofusetariffs
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