100% target achievement

Tasmania is taking 10,500 gigawatt hours (GWh) per year as a baseline consumption.

Tasmania is part of the interconnected National Electricity Market. Every minute of everyday consumption levels fluctuate, as does energy generation from rainfall, wind and solar photovoltaic panels.

We look at average annual consumption (expressed in gigawatt hours per year) balanced against the expected annual average renewable energy generation, based on installed capacity and average generation. This can be summarised as:

Expected annual renewable energy generation from installed Tas renewables ≥ average annual demand

Tasmania has now reached a position, following the commissioning of the Cattle Hill Wind Farm and the 29 (of 31) turbines at Granville Harbour Wind Farm, where we have the installed capacity to meet our annual electricity needs from on-island renewable energy generation.

What is our installed capacity?

In 2017, the Tasmanian Energy Security Taskforce assessed the long-term average inflows to the hydro storages as being the equivalent of 9 000 GWh per year.

We have windfarms at Woolnorth (Bluff Point and Studland Bay) and at Mussel roe, Cattle Hill and Granville Harbour. Our total installed capacity for wind generation is 568 MW.

Wind, like rain, can vary from season to season, but Tasmania is blessed with a world class wind resource. The "capacity factor" of a wind farm represents the average output of a wind farm against its installed capacity.

For example, a wind farm with an installed capacity of 100 MW and a capacity factor of 40 per cent would have its expected output calculated by multiplying its capacity of 100 MW by 8,760 hours in the year by 40 percent. This would equal 350,400 megawatt hours (MWh), or 350.4 GWh. In AEMO's 2019 Integrated System Plan, the capacity factor for wind in the relevant Tasmanian locations has been assessed as ranging from 37 per cent to a potential maximum of 51 per cent in some years.

We have taken a very conservative approach, and used a 35 per cent capacity factor to calculate expected wind generation output.

Based on this calculation, our combined total of 560.8 MW of installed wind capacity could be expected to generate 1,719 GWh of electricity in a year. This means that Tasmania now has the installed capacity and expected yield from hydro and wind farms to be able to generate, on a net basis, just over 10,719 GWh per year of renewable electricity. This is illustrated in Table 1 below.

Using our methodology, we can apply this total generation output as follows:

Expected annual renewable energy generation from installed Tas renewables of 10,719.41 GWh is greater than baseline consumption of 10,500 GWh.

On average we can expect to have enough rain so that inflows to Tasmania's hydro dams are sufficient to generate a robust 9 000 gigawatt hours per year. Some years we may have less, but this will be balanced by the years when we have more. In the years when we have more rainfall, we will be able to generate more than 100 per cent of our baseline needs. And this is when we will be on net export – selling reliable, renewable energy into the national grid.

Not quite. That is why we refer to meeting our target on a "net basis". Hydro Tasmania will still import electricity via Basslink, and we may still, on occasions, need to use gas-fired generation at the Tamar Valley Power Station.

The way the national electricity market works means that we can import electricity from the mainland at times when Victorian prices are particularly low. This means that we can keep water in our major storages, our "batteries", so that we have enhanced energy security. It also means that when electricity demand and prices in Victoria are higher, we can export electricity to the mainland.

The Energy Security Annual Report, issued by the independent Monitor and Assessor, notes that the Tamar Valley Power Station (TVPS) at Bell Bay provides diversity and acts as a safeguard in Tasmania's energy mix. It contributes to Tasmania's energy security, though its utilization has been decreasing with the development of wind generation in the State.

Tasmania currently has around 31 000 customers with connected solar PV systems^[1]. Much of the generation is used by the households or businesses where it is installed and cannot be independently measured. It is estimated that solar contributes in the order of 200 GWh per year, or around 2 per cent of consumption^[2]. This includes both the electricity consumed on the premises as well as exported to the grid.

^[1] OTTER Energy in Tasmania Annual Report (PDF), February 2020

^[2] Source – Opennem.org.au, based on data from AEMO Bureau of Meteorology and the Australian PV Institute

The target relates only to renewable sources for electricity generation. Gas and other fuel sources still have a place while they are the most practical and economic options, particularly for direct heat and for transport.

Future innovations, including the opportunities presented from hydrogen technology, and the potential for electric vehicles, will provide greater opportunities for emissions reductions beyond the electricity generation sector.