Contingency Analysis of the Electricity Transmission Network of Uganda.
Abstract
The operation of the Ugandan Grid is based on the Single outage Contingency criterion.
Contingency is the failure of any power system equipment. Contingency analysis is the
study of the outage of the components. Uganda’s transmission network has not met the
n-1 contingency criterion as evidenced by the blackouts following the failure of some lines
mainly due to faults and vandalism. The main aim of the project was to assess the impacts
of the failure of the most critical transmission lines on the branch power flows and voltage
performance of the network and provide recommendations for long-term planning of the
network. The case study was the whole Transmission Network of Uganda and the network
data was collected from Uganda Electricity Transmission Company Limited (UETCL). The
network was modeled in DigSILENT Power Factory software 15.1 and load flow analysis and
contingency analysis were performed to identify the most critical lines to the operation of the
grid and the impacts of failure of these extremely important lines were determined. From the
analysis of the results, the most critical transmission lines to the operation of the network
are 220kV Kawanda-Masaka lines, 220kV Bujagali-Kawanda lines, 132kV Owen Falls-Lugogo
lines, and 132kV Owen Falls-Mukono North line. For secure operation of the Western wing
of the network, we recommend the proposed construction of the 132kV Kapeeka-Kiboga Mubende-Nkonge line or the proposed 220kV Kafu-Kinyara-Hoima line. Also, we recommend
that the single circuit lines in the central region should be upgraded to double circuit lines
because most of the load n the network is in the central region and is ever-growing. With
Karuma HPP, 400kV Karuma-Kawanda link, and the shunt reactor at Opuyo substation all
on, the operation of the Northern and Eastern parts of the network is secure and stable.
Operating Karuma at full capacity significantly reduces the loading of some lines and helps
improve the bus voltages. Also, when operated at full capacity, Karuma HPP in combination
with 1 or 2 other generators can reliably supply the whole country.