A study of optimal capacity of BESS to mitigate unstable of solar power generation

Yusuke Hida; Yuki Miyaguchi; Ryuichi Yokoyama; Kenji Iba

A study of optimal capacity of BESS to mitigate unstable of solar power generation

Yusuke Hida^*, Yuki Miyaguchi, Ryuichi Yokoyama, Kenji Iba

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

8 Citations (Scopus)

Abstract

Sustainable energy resources such as solar energy are in the spotlight to achieve post-carbon-society. However, the vast space is required to install PV generators compared with other distributed generators. The optimal usage of PV generator has to be investigated if it is installed in the limited areas. On the other hand, the output of PV power generator is not constant and varies depending on climate conditions. It causes difficulty in the power system operation and control when introduced into distributed networks or demand side. BESS (battery energy storage system) attracts attention as the device which is able to mitigate the change of PV generation output. As the first step in this paper, the relation between the solar radiation on PV and typical installation parameters such as azimuth and tilt angle of PV array is investigated as the usage of PV generators. In the second step, the combination of PV generation system and BESS is discussed from the viewpoint of cost and CO2-emission when installed on demand side, and the optimal installation capacities of PV generators and BESS are calculated.

Original language	English
Title of host publication	Proceedings - International Symposium: Modern Electric Power Systems, MEPS'10
Publication status	Published - 2010
Event	International Symposium on Modern Electric Power Systems, MEPS'10 - Wroclaw Duration: 2010 Sept 20 → 2010 Sept 22

Other

Other	International Symposium on Modern Electric Power Systems, MEPS'10
City	Wroclaw
Period	10/9/20 → 10/9/22

Keywords

BESS
CO2-emission
Demand side
Optimal capacity
PV generation
Reverse power flow
Tilt angel

ASJC Scopus subject areas

Energy Engineering and Power Technology
Electrical and Electronic Engineering

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Cite this

@inproceedings{a3c4714d375c4666ba1c9693fc08f44a,

title = "A study of optimal capacity of BESS to mitigate unstable of solar power generation",

abstract = "Sustainable energy resources such as solar energy are in the spotlight to achieve post-carbon-society. However, the vast space is required to install PV generators compared with other distributed generators. The optimal usage of PV generator has to be investigated if it is installed in the limited areas. On the other hand, the output of PV power generator is not constant and varies depending on climate conditions. It causes difficulty in the power system operation and control when introduced into distributed networks or demand side. BESS (battery energy storage system) attracts attention as the device which is able to mitigate the change of PV generation output. As the first step in this paper, the relation between the solar radiation on PV and typical installation parameters such as azimuth and tilt angle of PV array is investigated as the usage of PV generators. In the second step, the combination of PV generation system and BESS is discussed from the viewpoint of cost and CO2-emission when installed on demand side, and the optimal installation capacities of PV generators and BESS are calculated.",

keywords = "BESS, CO2-emission, Demand side, Optimal capacity, PV generation, Reverse power flow, Tilt angel",

author = "Yusuke Hida and Yuki Miyaguchi and Ryuichi Yokoyama and Kenji Iba",

year = "2010",

language = "English",

isbn = "9788392131571",

booktitle = "Proceedings - International Symposium: Modern Electric Power Systems, MEPS'10",

note = "International Symposium on Modern Electric Power Systems, MEPS'10 ; Conference date: 20-09-2010 Through 22-09-2010",

}

TY - GEN

T1 - A study of optimal capacity of BESS to mitigate unstable of solar power generation

AU - Hida, Yusuke

AU - Miyaguchi, Yuki

AU - Yokoyama, Ryuichi

AU - Iba, Kenji

PY - 2010

Y1 - 2010

N2 - Sustainable energy resources such as solar energy are in the spotlight to achieve post-carbon-society. However, the vast space is required to install PV generators compared with other distributed generators. The optimal usage of PV generator has to be investigated if it is installed in the limited areas. On the other hand, the output of PV power generator is not constant and varies depending on climate conditions. It causes difficulty in the power system operation and control when introduced into distributed networks or demand side. BESS (battery energy storage system) attracts attention as the device which is able to mitigate the change of PV generation output. As the first step in this paper, the relation between the solar radiation on PV and typical installation parameters such as azimuth and tilt angle of PV array is investigated as the usage of PV generators. In the second step, the combination of PV generation system and BESS is discussed from the viewpoint of cost and CO2-emission when installed on demand side, and the optimal installation capacities of PV generators and BESS are calculated.

AB - Sustainable energy resources such as solar energy are in the spotlight to achieve post-carbon-society. However, the vast space is required to install PV generators compared with other distributed generators. The optimal usage of PV generator has to be investigated if it is installed in the limited areas. On the other hand, the output of PV power generator is not constant and varies depending on climate conditions. It causes difficulty in the power system operation and control when introduced into distributed networks or demand side. BESS (battery energy storage system) attracts attention as the device which is able to mitigate the change of PV generation output. As the first step in this paper, the relation between the solar radiation on PV and typical installation parameters such as azimuth and tilt angle of PV array is investigated as the usage of PV generators. In the second step, the combination of PV generation system and BESS is discussed from the viewpoint of cost and CO2-emission when installed on demand side, and the optimal installation capacities of PV generators and BESS are calculated.

KW - BESS

KW - CO2-emission

KW - Demand side

KW - Optimal capacity

KW - PV generation

KW - Reverse power flow

KW - Tilt angel

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M3 - Conference contribution

AN - SCOPUS:80053092715

SN - 9788392131571

BT - Proceedings - International Symposium: Modern Electric Power Systems, MEPS'10

T2 - International Symposium on Modern Electric Power Systems, MEPS'10

Y2 - 20 September 2010 through 22 September 2010

ER -

A study of optimal capacity of BESS to mitigate unstable of solar power generation

Abstract

Other

Keywords

ASJC Scopus subject areas

UN SDGs

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