CALCULATION ANALYSIS OF QUASI-DYNAMIC HOSTING CAPACITY IN DISTRIBUTION FEEDER
The massive target of installing renewable energy is the focus of this research. Several industrial sectors continue to install PLTS to support green energy. One of the focuses in this research is to see the maximum impact of installing PLTS at 1 point and sharing capacity for each customer. This...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/70085 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The massive target of installing renewable energy is the focus of this research.
Several industrial sectors continue to install PLTS to support green energy. One of
the focuses in this research is to see the maximum impact of installing PLTS at 1
point and sharing capacity for each customer. This research uses a radial
distribution network system close to the distribution network in Indonesia, where
the load profile takes into account the characteristics of Industrial loads,
Commercial loads, and Residential loads. This study uses the line equation theorem
method to calculate the voltage increase by considering 2 current measurement
points, namely the current at the end and the current at the base. The voltage
increase obtained is accumulated to be summed up with the customer afterwards.
The results are obtained by considering several scenarios such as voltage
limits, voltage limits and line loading, and voltage limits, thermal, harmonics in
accordance with regulations. The results obtained are close to those of the
simulations performed on the software hosting capacity at DIgSILENT. In the
Voltage limit scenario, the distribution of each capacity gets the highest voltage of
1.019 pu. The voltage and thermal limits of 40%, the highest voltage yield is 0.999
pu and the channel load is 19.106% based on the capacity division of each
customer. The scenarios with voltage and thermal limits of 100%, the highest
voltage results are 1.026 pu and the highest thermal is 93,926%. Meanwhile, the
regulatory limits that consider voltage, thermal, harmonics, and reverse. The
results obtained for the highest voltage is 1,003pu, the highest line loading is
39.556s%, for the voltage distortion value obtained is 36,338 kV |
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