OPTIMIZED ALLOCATION OF SOLAR PHOTOVOLTAIC IN BATAM-BINTAN POWER SYSTEM 2021 â 2025
It is essential to justify the readiness of PLN Batam as operation region of electricity with dominant fossil generation plant against target of 23% of renewable energy mix in 2025. This thesis will justify optimized allocation of solar PV in Batam-Bintan power System 2021 – 2025 through five...
Saved in:
| Main Author: | |
|---|---|
| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/55443 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | It is essential to justify the readiness of PLN Batam as operation region of electricity
with dominant fossil generation plant against target of 23% of renewable energy mix
in 2025. This thesis will justify optimized allocation of solar PV in Batam-Bintan power
System 2021 – 2025 through five cascaded stages of consideration: Technical
Minimum Loading (TML), Georgaphical and Frequency, Cost, System Flexibility and
Grid Impact. Techincal Minimum Loading (TML) consideration deliver that maximum
capacity that can connect to Batam-Bintan power system 2025 about 322 MW. Then,
frequency and geographical consideration states that maximum capacity of one solar
photovoltaic power plant is 7 MW since f Indeks Kekuatan Sistem (IKS) of BatamBintan 2025 power system about 36 MW and three qualified substations for
independent solar photovoltaic are Batu Besar, Sri Bintan and Kijang. Cost
consideration through cost optimization simulation then clarified that 21 MW solar PV
in 2025 may produces cost saving $ 2.7 millions. Last but not least, justification for 21
MW solar photovoltaic installed capacity in 2025 using grid impact consideration
(load flow, short circuit, and frequency stability) deliver that connecting 21 MW solar
PV in 2025 have no issues. Finally, this paper propose novelty to justify readiness of
operation region of electricity in Indonesia with dominant fossil generation plants to
deal with high level renewable energy penetration within five years by conducting
comprehensive and sequentially engaged stage.
|
|---|