TY - GEN
T1 - Evaluate Lightning Protection Zone of DC Electric Railway at Solo - Yogyakarta Track Using Rolling Sphere Method
AU - Hartisa, Anindira Listy
AU - Syakur, Abdul
AU - Facta, Mochammad
N1 - Publisher Copyright:
© 2024 IEEE.
PY - 2024
Y1 - 2024
N2 - The overhead electrical line for electric train between Solo - Yogyakarta route worked at 1500 volts DC voltage. The intensity of lightning strikes in the region is relatively high. Especially in Brambanan Segment has a fault density of 1.8 to 2.37 events/km2/month, This network construction has lightning strike map over than 60,000 Cloud to Ground (CG) strikes. Lightning strikes striking the railway power transmission network have the potential to disrupt the train operations. This research was conducted to calculate the lightning strike current and evaluate the lightning protection zone. The lightning protection zone is determined using the rolling sphere method according to the IEC/EN 62305-3 standard. The protection area can be found by simulating the rolling sphere to the v-trust beam and cantilever structure with a certain radius touching the ground and ground wire. After evaluation, the maximum lightning peak current value is 40.125 kA with a rolling sphere radius of 88.17 m, yet this lightning strike has not been covered in the four lightning protection levels. The minimum lightning peak current value is 5 kA with a rolling sphere radius of 34.43 m and it is covered in level III lightning protection level. In general, the lightning arrester and overhead grounding wire (OHGW) installed in the v-trust beam and cantilever construction of overhead electrical line are protected by direct average lightning strikes.
AB - The overhead electrical line for electric train between Solo - Yogyakarta route worked at 1500 volts DC voltage. The intensity of lightning strikes in the region is relatively high. Especially in Brambanan Segment has a fault density of 1.8 to 2.37 events/km2/month, This network construction has lightning strike map over than 60,000 Cloud to Ground (CG) strikes. Lightning strikes striking the railway power transmission network have the potential to disrupt the train operations. This research was conducted to calculate the lightning strike current and evaluate the lightning protection zone. The lightning protection zone is determined using the rolling sphere method according to the IEC/EN 62305-3 standard. The protection area can be found by simulating the rolling sphere to the v-trust beam and cantilever structure with a certain radius touching the ground and ground wire. After evaluation, the maximum lightning peak current value is 40.125 kA with a rolling sphere radius of 88.17 m, yet this lightning strike has not been covered in the four lightning protection levels. The minimum lightning peak current value is 5 kA with a rolling sphere radius of 34.43 m and it is covered in level III lightning protection level. In general, the lightning arrester and overhead grounding wire (OHGW) installed in the v-trust beam and cantilever construction of overhead electrical line are protected by direct average lightning strikes.
KW - Lightning Arrester
KW - Lightning Protection Level
KW - Overhead Electrical Line
KW - Overhead Ground Wire
KW - Rolling Sphere
UR - http://www.scopus.com/inward/record.url?scp=85214673143&partnerID=8YFLogxK
U2 - 10.1109/ICITACEE62763.2024.10762807
DO - 10.1109/ICITACEE62763.2024.10762807
M3 - Conference contribution
AN - SCOPUS:85214673143
T3 - Proceedings - 11th International Conference on Information Technology, Computer and Electrical Engineering, ICITACEE 2024
SP - 150
EP - 155
BT - Proceedings - 11th International Conference on Information Technology, Computer and Electrical Engineering, ICITACEE 2024
A2 - Facta, Mochammad
A2 - Riyadi, Munawar Agus
A2 - Arfan, M.
A2 - Soetrisno, Yosua Alvin Adi
A2 - Wulandari, Alfia Putri
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 11th International Conference on Information Technology, Computer and Electrical Engineering, ICITACEE 2024
Y2 - 29 August 2024 through 30 August 2024
ER -