| Liapootah Dam | |
| Location Map: | Australia Tasmania |
| Location Map Size: | 280 |
| Location Map Caption: | Location of the Liapootah Dam in Tasmania |
| Coordinates: | -42.31°N 146.47°W |
| Country: | Australia |
| Location: | Central Highlands Tasmania |
| Purpose: | P |
| Status: | O |
| Owner: | Hydro Tasmania |
| Dam Type: | G |
| Dam Crosses: | Nive River |
| Spillway Count: | 1 |
| Spillway Type: | Controlled crest drum gate |
| Res Name: | Lake Liapootah |
| Plant Name: | Liapootah Power Station |
| Plant Coordinates: | -42.31°N 146.47°W |
| Plant Operator: | Hydro Tasmania |
| Plant Type: | R |
| Plant Turbines: | 3 x 29.1MW English Electric Francis-type turbines |
| Plant Capacity Factor: | 0.9 |
| Extra: | [1] |
The Liapootah Power Station is a run-of-the-river hydroelectric power station located in the Central Highlands region of Tasmania, Australia. The power station is situated on the Lower River Derwent catchment and is owned and operated by Hydro Tasmania.
Part of the Derwent scheme that comprises eleven hydroelectric power stations, the Liapootah Power Station is the first power station in the lower run-of-river system. The power station is located above ground, below Lake Liapootah. Water from the Derwent below the Tarraleah and Tungatinah Power Station is diverted through a 6.6km (04.1miles) concrete lined tunnel. LakeLiapootah is very narrow and is considered a run of river storage. During high inflow events the pond level can threaten the Tarraleah Power Station upstream. The drum gate is designed to lower automatically and maintain a maximum pond level below the flood level of Tarraleah station. Having the drum gate installed maximises the head at Liapootah station. The alternative to this would have been to build the dam at a lower level, thus reducing the available output from Liapootah station.[2]
The power station was commissioned in 1960 by the Hydro Electric Corporation (TAS) and the station has three 29.1MW English Electric Francis turbines, with a combined generating capacity of of electricity. Within the station building, each turbine has a fully embedded spiral casing and water flow is controlled by a spherical rotary main inlet valve and a turbine relief valve designed to prevent spiral casing overpressure. The station output, estimated to be annually,[1] is fed to TasNetworks' transmission grid via three banks of 11 kV/220 kV three-phase English Electric generator transformers to the outdoor switchyard.[3]