| Kulekhani Reservoir | |||||
| Location Map: | Nepal | ||||
| Coordinates: | 27.5903°N 85.1558°W | ||||
| Country: | Nepal | ||||
| Location: | Kulekhani, Indrasarowar Rural Municipality, Makwanpur District, Bagmati Province | ||||
| Purpose: | Power | ||||
| Status: | O | ||||
| Construction Began: | 1977 | ||||
| Cost: | US$117.84 million | ||||
| Owner: | Nepal Electricity Authority | ||||
| Dam Type: | Embankment, rock-fill | ||||
| Dam Crosses: | Kulekhani River | ||||
| Dam Length: | 397m (1,302feet) | ||||
| Dam Height: | 114m (374feet) | ||||
| Dam Elevation Crest: | 1534m (5,033feet) | ||||
| Dam Width Crest: | 10m (30feet) | ||||
| Dam Volume: | 4400000m2 | ||||
| Res Name: | Kulekhani Reservoir (Indra Sarobar) | ||||
| Res Capacity Total: | 85300000m2 | ||||
| Res Capacity Active: | 73300000m2 | ||||
| Res Capacity Inactive: | 12000000m2 | ||||
| Res Catchment: | 126km2 | ||||
| Res Surface: | 2.2km2 | ||||
| Res Max Length: | 7km (04miles) | ||||
| Res Elevation: | 1530m (5,020feet) | ||||
| Plant Name: | Kulekhani-I Hydropower Station | ||||
| Plant Coordinates: | 27.5402°N 85.1136°W | ||||
| Plant Commission: | Kulekhani I: 1982 Kulekhani II: 1986 Kulekhani III: 2019 | ||||
| Plant Type: | Conventional, diversion | ||||
| Plant Turbines: | Kulekhani I: 2 x 30 MW Pelton-type Kulekhani II: 2 x 16 MW Francis-type Kulekhani III: 2 x 7 MW Francis-type | ||||
| Plant Hydraulic Head: | Kulekhani I: 550m (1,800feet) Kulekhani II: 284.1m (932.1feet) Kulekhani III: 102.56m (336.48feet) | ||||
| Plant Capacity: | Kulekhani I: 60 MW Kulekhani II: 32 MW Kulekhani III: 14 MW (est.) Total: 106 MW | ||||
| Plant Annual Gen: | Kulekhani I: 211 GWh Kulekhani II: 104.6 GWh Kulekhani III: 40.85 GWh (commissioned in 2019) | ||||
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The Kulekhani Dam is a rock-fill dam on the Kulekhani River near Kulekhani in the Indrasarowar Rural Municipality of Makwanpur District in Bagmati Province, Nepal. The primary purpose of the dam is hydroelectric power generation and it supports the 60 MW Kulekhani I, 32 MW Kulekhani II and 14 MW Kulekhani III Hydropower Stations. Construction began in 1977 and Kulekhani I was commissioned in 1982. Kulekhani II was commissioned in 1986 and a third power station, the 14 MW Kulekhani III was expected to be commissioned in May 2015 but was delayed due to issues with the builder. The US$117.84 million project received funding from the World Bank, Kuwait Fund, UNDP, Overseas Economic Cooperation Fund and OPEC Fund. It is owned by Nepal Electricity Authority.[1] [2]
The 114m (374feet) tall dam creates a reservoir called Indra Sarobar which stores 85300000m2 of water.
From the reservoir, water is sent to the Kulekhani I Hydropower Station via a 5.8km (03.6miles) headrace tunnel to a gate house which controls the flow of water to the power station. From the gate house water travels down a 1340m (4,400feet) long penstock where it reaches the underground power station. It contains two 30 MW Pelton turbine-generators. The difference in elevation between the reservoir and the power station affords a net hydraulic head of 550m (1,800feet).
Water discharged from the Kulekhani I power station enters a series of tunnels and diversions where it reaches the Kulekhani II Hydropower Station which is also located underground and contains two 16 MW Francis turbine-generators. The elevation difference between the reservoir and the power station affords a net hydraulic head of 284.1m (932.1feet). The dam and reservoir are in the Bagmati River basin while the power stations are in the Rapti River basin.[1]
Construction of the Kulekhani III Hydropower Station had been underway since 2008 and is now finally complete as of 2019.[3] The Nepal Electricity Authority (NEA) had extended the completion deadline of the Kulekhani 3 Hydropower Project for the fifth time to January 2018 as construction was running late due to its slowpoke contractor.[4] The project’s civil contractor Sino Hydro has completed 100 percent of the construction, and there has been full progress in the installation of the turbine, water gate and transmission lines to evacuate the electricity generated by the plant. It will use the tailwaters of Kulekhani II and have an installed capacity of 14 MW.[5]