| Pushihe Pumped Storage Power Station | |
| Coordinates: | 40.421°N 124.6836°W |
| Country: | China |
| Location: | Kuandian County, Liaoning Province |
| Status: | O |
| Construction Began: | August 2006 |
| Opening: | September 2012 |
| Res Name: | Pushihe Upper |
| Res Capacity Total: | 12560000m2 |
| Lower Res Name: | Pushihe Lower |
| Lower Res Capacity Total: | 29050000m2 |
| Plant Pumpgenerators: | 4 x 300 MW Francis pump turbines |
| Plant Hydraulic Head: | 326m (1,070feet) |
| Plant Capacity: | 1,200 MW |
| Plant Annual Gen: | 1 billion kWh |
The Pushihe Pumped Storage Power Station is a pumped-storage hydroelectric power station located 540NaN0 northeast of Dandong in Kuandian County of Liaoning Province, China. It was constructed between August 2006 and September 2012. The power station operates by shifting water between an upper and lower reservoir to generate electricity. The lower reservoir was formed with the creation of the Pushihe Lower Dam on the Pushihe River, a tributary of the Yalu River. The Pushihe Upper Reservoir is located in a valley above the east side of the lower reservoir. During periods of low energy demand, such as at night, water is pumped from Pushihe Lower Reservoir up to the upper reservoir. When energy demand is high, the water is released back down to the lower reservoir but the pump turbines that pumped the water up now reverse mode and serve as generators to produce electricity. The process is repeated as necessary and the plant serves as a peaking power plant.[1]
The lower reservoir, which was constructed between December 2006 and 2009, is created by a 34.1m (111.9feet) tall and 336m (1,102feet) long gravity dam on the Pushihe River. It can withhold up to 29050000m2 of water, of which 16210000m2 can be pumped to the upper reservoir. The upper reservoir is created by a 76.5m (251feet) tall and 691m (2,267feet) long concrete-face rock-fill dam. It was constructed between April 2007 and November 2009. It can withhold up to 12560000m2 of water, of which 10290000m2 can be used for power production. Water from the upper reservoir is sent to the 1,200 MW underground power station down near the lower reservoir through four 1368.4m (4,489.5feet) long headrace/penstock pipes. The drop in elevation between the upper and lower reservoir affords a hydraulic head (water drop) of 3260NaN0.[2]