Renewable energy ready to supply all of Australia’s electricity

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There are already technically feasible scenarios to run the Australian electricity industry on 100% renewable energy without significantly affecting supply.

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The Conversation



In a recent article on The Conversation, University of Melbourne Professor Emeritus Frank Larkins wrote that Australia’s targets to increase renewable energy will make electricity more expensive, thanks to problems with consistency and storage.

But Professor Larkins is several years behind developments in renewable energy and its integration into electricity grids. In fact, we already have technically feasible scenarios to run the Australian electricity industry on 100% renewable energy — without significantly affecting supply.

When the sun doesn’t shine…

Professor Larkins states that hydro, wind, solar depend on:

irregular weather patterns, which lead to uncertain and intermittent power output. This is a big challenge for electricity generators and retailers, and it can cost lots of money.

But the problem of “consistency” or variability of some renewable energy sources is now better understood, both from empirical experience with lots of wind power in electricity grids, and from hourly computer simulations of electricity supply and demand performed for many states, countries and global regions.

For instance, South Australia nominally has two coal-fired power stations, several gas-fired ones, and at least 15 operating wind farms. Wind now supplies an annual average of 27% of South Australia’s electricity generation. As a result, one of the coal stations is now shut down for half the year and the other for the whole year. And the state’s electricity supply system is operating reliably without the need for any additional non-renewable energy supply.

In Germany, the northern states of Schleswig-Holstein and Mecklenburg-Vorpommern have about 100% and 120%, respectively, of their electricity generated from the wind. Of course they use their transmission links with neighbouring states (including each other) to assist in balancing supply and demand with such high wind penetrations.

100% renewable — without supply problems

But Australia’s National Electricity Market (NEM) has no such links to other electricity supplies. How could it increase generation from renewable energy without hurting electricity supply?

Ben Elliston, Iain MacGill and I at UNSW have performed thousands of computer simulations of the hour-by-hour operation of the NEM with different mixes of 100% commercially available renewable energy technologies scaled up to meet demand reliably.

We use actual hourly electricity demand and actual hourly solar and wind power data for 2010 and balance supply and demand for almost every hour, while maintaining the required reliability of supply. The relevant papers, published in peer-reviewed international journals, can be downloaded from my UNSW website.

Using conservative projections to 2030 for the costs of renewable energy by the federal government’s Bureau of Resources and Energy Economics (BREE), we found an optimal mix of renewable electricity sources. The mix looks like this:

  • Wind 46%;
  • Concentrated solar thermal (electricity generated by the heat of the sun) with thermal storage 22%;
  • Photovoltaic solar 20% (electricity generated directly from sunlight);
  • Biofuelled gas turbines 6%; and
  • Existing hydro 6%.

So two-thirds of annual energy can be supplied by wind and solar photovoltaic — energy sources that vary depending on the weather — while maintaining reliability of the generating system at the required level. How is this possible?

It turns out that wind and solar photovoltaic are only unable to meet electricity demand a few times a year. These periods occur during peak demand on winter evenings following overcast days that also happen to have low wind speeds across the region.

Since the gaps are few in number and none exceeds two hours in duration, there only needs to be a small amount of generation from the so-called flexible renewables (those that don’t depend on the vagaries of weather): hydro and biofuelled gas turbines. Concentrated solar thermal is also flexible while it has energy in its thermal storage.

The gas turbines have low capital cost and, when operated infrequently and briefly, low fuel costs, so they play the role of reliability insurance with a low premium.

No need for batteries

Our research, together with similar extensive hourly computer simulations by others spanning up to a decade from Europe and the USA (reviewed in Chapter 3 of “Sustainable Energy Solutions for Climate Change”), refute Professor Larkins’ statement that “We need baseload electric power [from non-renewable sources] to guarantee security of supply”.

Many regions of the world could operate a 100% renewable electricity system reliably without any baseload power stations. Indeed, in electricity supply systems with a lot of renewable energy, inflexible coal and nuclear baseload power stations get in the way. What we really need to balance the variability of wind and photovoltaic solar are the flexible renewable energy power stations: hydro, solar thermal and biofuelled gas turbines.

This mix needs only a little storage from hydro and solar thermal to maintain reliable supply. With enough fuel, biofuelled gas turbines could also be considered storage. Such a mix has no need for expensive batteries or hydrogen fuel cells.

Using BREE’s conservative projections for the costs of renewable energy technologies in 2030, we find that the cost of 100% renewable energy is A$7-10 billion per year more than that of the existing polluting fossil fuelled system. Although this is a 50% increase, it is likely to be less than the damage caused by the increased frequency of heatwaves, droughts and floods in a business-as-usual scenario.

The renewable scenarios would be economically competitive with the fossil system either with a carbon price of A$50 per tonne of CO2 (reflecting part of the environmental and health damage from fossil fuels) or, in the absence of a carbon price, by removing the existing subsidies to the production and use of fossil fuels and transferring them temporarily to renewable energy.

As an alternative to BREE’s cost estimates, Bloomberg New Energy Finance calculates that wind and solar are already cheaper than new build coal and gas in Australia. If this is correct, 100% renewable systems are already economically competitive with a new fossil-fuelled system.

Australia could be more ambitious

Is Australia’s Renewable Energy Target of 41,000 gigawatt hours per year in 2020 “ambitious”? Not on a world scale. The table below compares several countries’ renewable energy contributions, as well as their official long-term targets.

 Considering that Australia has much greater solar energy and wind potential than the European countries, its present renewable contribution and its 2020 target are both modest.

Moving to 100% renewable electricity is safe, technically feasible and affordable. It can cut greenhouse gas and other emissions and land degradation, while creating local jobs and energy security. It is ready to go!


Source: The Conversation. Reproduced with permission.

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  1. Tony Pfitzner 5 years ago

    A very useful analysis.

    There may be no need for batteries, but the grid will get them anyway. A large percentage of household and other small scale pv will include battery storage and electric vehicles.

  2. Motorshack 5 years ago

    “Indeed, in electricity supply systems with a lot of renewable energy, inflexible coal and nuclear baseload power stations get in the way.”

    That is arguably the funniest line in the entire renewable energy debate.

    All that whingeing about baseload by proponents of the current power system, and then it turns out that, in a truly sophisticated power system, coal and nuclear are just too clunky to be worth the bother.

    One could probably say the same for the politicians pushing coal and nuclear – they just get in the way, because they cannot react fast enough to changes in the real world.

    • suthnsun 5 years ago

      Si si Motorshack!

    • José DeSouza 5 years ago

      Yes, we need to educate ourselves and many others about the benefits of going all renewables:
      So that when next election comes maybe we can kick out those pollies who need our vote to get elected but would rather slavishly be at the service of their fossil fuel cronies instead of standing by the common good.

  3. Miles Harding 5 years ago

    Unfortunately for Australia, complete asses in Canberra.

  4. Alexander Dudley 5 years ago

    The NSW government is still pushing ahead with using “thinning products” as a biofuel- unfortunately these “thinning products” are the result of clearing native vegetation which is very ecologically dubious. As an ecologist I see an unmitigated disaster looming. However, invasive grasses are a massive ecological issue- perhaps modifying roadside slashing equipment to collect these grasses (rather than distribute them as presently the case) could be an ecologically friendly means of collecting biofuel while reducing roadside fuel levels.

  5. Frosty Wooldridge 5 years ago

    If you give any country endless energy supplies, it’s like giving a mad teenager who loves video war games a machine gun in the middle of a 100,000 spectator soccer game. He will mow down everyone without realizing his own folly. To give Australia endless renewable energy means Australia will continue growing beyond its arable land capacity, its water capacity, its quality of life, its standard of living, its connection to the natural world, and worst, it will overwhelm every other creature. Endless energy insures endless growth, which, in the end guarantees collapse. Ask any 450 pound obese person who he or she likes their endless growth. Frosty Wooldridge, 6 continent world bicycle traveler

    If we don’t halt population growth with justice and compassion, it will be done for us by nature, brutally and without pity – and will leave a ravaged world. ~Nobel Laureate Dr. Henry W. Kendall

    “The raging monster upon the land is population growth. In its presence, sustainability is but a fragile theoretical construct. To say, as many do, that the difficulties of nations are not due to people, but to poor ideology and land-use management is sophistic.” Harvard scholar and biologist E.O. Wilson

    “Unlimited population growth cannot be sustained; you cannot sustain growth in the rates of consumption of resources. No species can overrun the carrying capacity of a finite land mass. This Law cannot be repealed and is not negotiable.” Dr. Albert Bartlett, , University of Colorado, USA.

    “Most Western elites continue urging the wealthy West not to stem the migrant tide [that adds 80 million net gain annually to the planet], but to absorb our global brothers and sisters until their horrid ordeal has been endured and shared by all—ten billion humans packed onto an ecologically devastated planet.” Dr. Otis Graham, Unguarded Gates

    Lester Brown, author of Plan B 4.0 Saving Civilization said, “The world has set in motion environmental trends that are threatening civilization itself. We are crossing environmental thresholds and violating deadlines set by nature. Nature is the timekeeper, but we cannot see the clock.”

    “Somehow, we have come to think the whole purpose of the economy is to grow, yet growth is not a goal or purpose. The pursuit of endless growth is suicidal.” David Suzuki

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