Mitigating Voltage Drop Limitations in A Long-Distance Transmission Network: A Case Study of the Nigerian 48-Bus System
- Ogbodo Ikechukwu Ogbodo, Nwaogaidu Simeon Obinna, Egbonwonu Emmanuel livinus, Asanya Onyebuchi Nduka
- DOI: 10.5281/zenodo.21387763
- ISA Journal of Engineering and Technology (ISAJET)
Voltage drop remains one of the major operational
challenges affecting long-distance transmission networks, particularly in
developing power systems where generating stations are located far from major
load centers. Excessive voltage drop leads to poor voltage regulation,
increased transmission losses, reduced power transfer capability, and weakened
system stability. This study investigates the application of the Thyristor Controlled
Series Capacitor (TCSC) for mitigating voltage drop limitations in the Nigerian
48-bus transmission network. The Nigerian 330 kV grid was modeled as a 48-bus
interconnected power system comprising generating stations, transmission
substations, and load centers. Load flow simulation was carried out under two
operating scenarios: without compensation and with TCSC integration. Bus
voltage profiles and voltage drop indices were compared to evaluate the
effectiveness of the device. The results showed that, under the uncompensated
condition, several buses experienced significant undervoltage, with the most
critical bus voltage recorded at 0.90321 p.u. After the installation of the
TCSC, weak buses recorded noticeable voltage improvement, and the minimum bus
voltage increased to 0.93048 p.u. Major weak buses such as Jos, Markurdi, Ikot
Ekpene, Ugwuaji, and New Haven showed substantial recovery toward acceptable
operating limits. The average network voltage drop decreased from 0.00962 p.u.
to 0.00550 p.u., representing a 42.83% reduction. The improvement was achieved
through the ability of the TCSC to reduce effective transmission line
reactance, thereby minimizing reactive voltage losses and enhancing power
transfer across long-distance corridors. The study concludes that TCSC is an
effective and technically viable FACTS solution for improving voltage regulation,
strengthening voltage stability, and enhancing transmission efficiency in the
Nigerian power grid. Its deployment can provide a cost-effective alternative to
network expansion while improving reliable electricity delivery to distant load
centers.
Index Terms: Voltage Drop, TCSC, FACTS Devices, Nigerian
48-Bus System, Voltage Stability, Transmission Network, Load Flow Analysis.