Victorian Regions of Interest

Edition 2, Revised 18/7/2016

Regions of Interest for Nuclear Power Plants in Victoria

This plan envisages 11 Reactors being constructed in Victoria by 2040 providing 12.3GW of capacity operating at a capacity factor of 0.92 to provide 99 TWh of annual power. The image shows selected regions of interest  placed on the existing grid. Some regions have power plant numbers assigned to them. These are shown in red and total 11 in number. Lower priority regions have infrastructure limitations and no reactors have been assigned to them. They may be given a higher priority after a detailed evaluation.

Victorian regions for nuclear power plants
Victorian regions for nuclear power plants
Vic poi 1
Vic poi 2

Victoria and the National Grid

From a cost perspective advantages are gained where new low carbon generation sources are able to maximise the use of the existing National electricity grid.
In Victoria some sites such as those in the La Trobe Valley can readily meet the needs of nuclear power plants because they would be replacing similarly sized coal and gas plants. Elsewhere substantial reconstruction of the grid will be required to distribute power from the new Nuclear generating sites. Nuclear power plants are large and are best built with multiple reactors at each site. This means the transmission lines need to be at least 330 kV and ideally 500kV.

New sites will need to be located close by the grid or will require regional grid expansion to be taken into account. This will include in most cases new switchyards and transformers in addition to the transmissions lines.

A very detailed discussion of the challenges being faced by countries integrating different forms of energy generation onto their grids can be found at: Electricity Transmission Grids – World Nuclear Association

Cooling Nuclear plants in Victoria

In Victoria brown coal fired plants were constructed adjacent to available coal mines and other infrastructure.
New nuclear plants will where possible take advantage of the resource used for cooling at these plants. In the La Trobe Valley, this is fresh water.
In an effort to reduce the environmental impact upon inland water resources, modern nuclear power plants are being designed to use a hybrid system of air and water cooling. During periods of low water availability the degree of air cooling can be increased though at a modest reduction in power output.

While recirculating systems such as evaporative cooling towers don’t add heat to the river or lake, they do consume water through evaporation. In Australia the availability of sizeable inland rivers are limited though a number of large reservoirs such as Hume Reservoir near Albury or the reservoirs at Eildon or Dartmouth could be studied for their suitability possibly used with hybrid systems.
At coastal plants such as that in the Portland, South Gippsland or Cape Liptrap regions, sea water would be the sole form of cooling.

The tabulation shows the anticipated type of cooling at each plant

Australia’s long coastlines provide many options for locating nuclear power plants.

An excellent and detailed outline of the cooling options is available at: Cooling Power Plants | Power Plant Water Use for Cooling – World Nuclear Association