Uma Oya Hydropower Complex

The Uma Oya Hydropower Complex (also internally called Uma Oya Multipurpose Development Project or UOMDP) is an irrigation and hydroelectric complex in the Badulla District of Sri Lanka. Early assessments of the project date back to 1989, when the first studies was conducted by the country's Central Engineering and Consultancy Bureau. The complex involves building a dam across Dalgolla Oya, and channelling water over a 3975 m tunnel to Mathatilla Oya, both of which are tributaries of the Uma Oya. At Mathatilla Oya, another dam is constructed to channel 145000000 m3 of water per annum, via a 15290 m headrace tunnel to the Uma Oya Power Station, where water then discharged to the Alikota Aru via a 3335 m tailrace tunnel.

The construction of the complex was inaugurated in April 2008 by former President Mahinda Rajapaksa and President Mahmoud Ahmadinejad. The total project cost is estimated to be approximately US$529 million (approximately Rs. 80 billion), 85% of which is provided by the Government of Iran.

The project was officially inaugurated by the President of Iran Dr. Ebrahim Raisi and President of Sri Lanka Ranil Wickremasinghe on the 24th of April 2024.

History
In 2008 Sri Lankan government began the project with Iranian funding and the foundation stone for the project without obtaining Environmental Clearance for the project. Environmental Impact Assessment (EIA) Report of the Uma Oya Project was prepared by the University of Sri Jayawardhanapura and was submitted in November 2010. During the 30 working days the EIA was open to the public for review and comments Central Environmental Authority received many letters from environmental organizations who called the EIA inadequate. However despite the objections CEA gave clearance for the project.

Puhulpola Dam
Dalgolla Oya is impounded by the roller-compacted concrete Puhulpola Dam (PD), which is a gravity dam measuring 175 m and 45 m in length and height, respectively. The damming of this river creates the Puhulpola Reservoir (PR), which has a gross storage of 634826 m3. The dam has a volume of approximately 50000 m3, and consists of three chute spillways, allowing a combined discharge of up to 2828 m3/s.

Water from the Puhulpola Reservoir is channelled to the Dyraaba Dam's reservoir via a 3975 m horse-shoe shaped free-flow conveyance tunnel, measuring 4.10 m and 3.95 m in width and height respectively, and with a discharge capacity of 15 m3/h. Construction of the tunnel was completed on 14 January 2017. To build the tunnel, a drill-and-blast excavation method was used to displace approximately 55000 m3 of earth.

Dyraaba Dam
With a concrete volume of more than 70000 m3, the Dyraaba Dam (DD) measures 165 m, 50 m, and 6 m, in length, height, and crest width, respectively. It is constructed 986 m above mean sea level (MSL), and can withstand an estimated flood level of 995 m MSL. Just like the Puhulpola Dam, the Dyraaba Dam consists of three chute spillways, allowing a combined discharge of up to 2161 m3/s.

The dam creates the Dyraaba Reservoir (DR) which has a gross storage of 970135 m3 and active storage of 600000 m3. Water from the reservoir is channelled through a 15290 m long circular pressurised-flow headrace tunnel measuring 4.25 m in diameter, which has a discharge capacity of 19.5 m3/h. To build the tunnel, a 180 m long TBM was used to displace approximately 222000 m3 of earth.

Uma Oya Power Station
The two pelton turbine generators of 60 megawatt are fed via a 600 m vertical pressure shaft, after passing through the long tailrace tunnel. 68000 m3 of earth was cleared to create the underground Uma Oya Power Station cavern. The 120 megawatt power station will generate up to 231 GWh per year.

The 5000 m2 switchyard premises is built at 504 m above MSL. Power from the switchyard is delivered over 21.5 km of double-circuit 132KV transmission line, consisting of more than 70 transmission towers, to the Badulla Substation.

The annual discharge of approximately 145000000 m3 of water from the power station is distributed out via a 3335 m cross-basin tailrace tunnel for agriculture use on 15 km2 or existing land and 45 km2 of new lands, including irrigation of 14 separate tanks.