The Impact of PV and WTG Integration on Transient Stability in the Meulaboh Distribution Grid

Robi Kurniawan; Muhammad Daud; Arnawan Hasibuan; Mukhlis Abd. Muthalib; Adi Setiawan; Nelly Safitri

doi:10.4028/p-P0eRzD

Paper Titles

Hazard and Risk Analysis of Main Dam Work of Rukoh Dam Construction Project Pidie Regency
p.17

The Stage of Function Analysis for Value engineering (ve) on the Rukoh Dam Steering Construction Project
p.25

Analysis of the Relationship between Project Manager’s Leadership Style and Construction Project Success in Aceh
p.33

Study of the Influence of Hydro Oceanography on the Opening Plan of Estuary Channels at the Ceurape Kuala Bireun District
p.43

Flood Risk Level Analysis Based on Community Perception and Expert Team Perception
p.51

Planning of Wind Power Plant as Additional Energy Source at Malikussaleh Mosque
p.65

Techno-Economic Assessment of the Development of a Biogas Power Plant Made from Liquid Palm Oil Waste in Rantau Sub-District
p.73

The Impact of PV and WTG Integration on Transient Stability in the Meulaboh Distribution Grid
p.79

Analysis of the Use of Electric Energy in a Single Phase Induction Motor to Drive a Bio-Pellet Machine from Empty Palm Bunch
p.87

HomeConstruction Technologies and ArchitectureConstruction Technologies and Architecture Vol. 14The Impact of PV and WTG Integration on Transient...

The Impact of PV and WTG Integration on Transient Stability in the Meulaboh Distribution Grid

Abstract:

One of the key factors driving global interest in generating large quantities of electricity from renewable energy sources is global warming. As a consequence of advancements in solar cell fabrication, wind turbine technology, and converter technology, PV solar and Wind Turbine Generators (WTG) have emerged as the most promising renewable energy sources for large-scale electricity generation. If the current commissioning rate continues, the capacity of PV and Wind Turbine Generators will necessitate modifications to various aspects of the power system and may impact system stability. This research broadly examines technical challenges, particularly transient stability issues, associated with the large-scale integration of PV and Wind Turbine Generators into the power system. Furthermore, this research also reviews dynamic models by applying three-phase short-circuit connections at critical network points and observes their influence on transient stability of the system. Simulations are conducted using ETAP 19.0 software, which was employed to model the 20 kV distribution system network (Lamno and Calang) from the Main Substation of Muelaboh City Area. Finally, this paper summarizes research findings regarding techniques and solutions to address transient stability issues in the electric power system associated with the large-scale integration of PV and WTG into the distribution system.

You might also be interested in these eBooks

International Conference on Applied Engineering, Sciences, Technology and Innovation

View Preview

Info:

Periodical:

Construction Technologies and Architecture (Volume 14)

Pages:

79-86

DOI:

https://doi.org/10.4028/p-P0eRzD

Citation:

Cite this paper

Online since:

August 2024

Authors:

Robi Kurniawan, Muhammad Daud*, Arnawan Hasibuan, Mukhlis Abd. Muthalib, Adi Setiawan, Nelly Safitri

Keywords:

Software Etap, Solar PV, Wind Turbine Generators

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] H. R. Shabani, A. Hajizadeh, M. Kalantar, M. Lashgari, and M. Nozarian, "Transient stability analysis of DFIG-based wind farm-integrated power system considering gearbox ratio and reactive power control," Electr. Eng., p.1–17, 2023.