The claim
Few issues are more polarising in Australian politics than energy policy.
On one side of the debate, there are those who argue Australia cannot afford to trade away a comparative advantage by forsaking coal, while on the other there are those who say a large-scale switch to renewable energy is inevitable and desirable.
Thrown into the mix is the question of whether Australia should embrace nuclear power as a base-load, low-emissions energy source.
Former prime minister Malcolm Turnbull chipped in to the debate with a recent tweet claiming: “The bottom line is renewables + storage are cheaper than new coal let alone the loopy current fad of nuclear power which is the current weapon of mass distraction for the backbench.”
Is new generation from renewables plus storage cheaper than new coal or nuclear generation? RMIT ABC Fact Check investigates.
The verdict
Turnbull’s claim is a fair call.
There is some uncertainty around cost estimates for different power generation technologies.
Under current policy settings and economic conditions, it is generally cheaper to produce electricity from wind or solar sources than it would be using a new coal or nuclear plant, with or without “storage”.
However, the issue is complex.
As energy experts consulted by Fact Check said, the extent to which variable power generated from renewable sources requires back-up (or “firming” as it is technically known) to deal with intermittency depends on the proportion of our power being generated from such sources.
For most states, except South Australia, this is not yet an issue. It is, however, likely to become an issue if the rapid uptake of renewable energy continues.
Put simply, the greater the reliance on renewables, the greater the need to spend additional money providing back-up sources of energy to safeguard supply.
In turn, this would be expected to add to the cost of renewables over time.
With this in mind, Fact Check assessed Turnbull’s claim on the basis of current policy, environmental and economic conditions.
Turnbull refers to “new coal”. Leading experts consulted by Fact Check pointed out that new coal-fired power plants would most likely be required to accept a “risk premium” when obtaining finance, reflecting uncertainty over international and domestic climate and energy policy, future clean-up costs, and higher construction risks.
According to some estimates, interest rates faced by new coal projects as a consequence would be twice those applying to wind or solar projects. Factoring this in makes new coal an even less attractive proposition.
The best available data suggests that under current conditions, nuclear energy would not be a cheaper source of electricity than renewables, as Turnbull points out.
Setting the parameters
Turnbull referred to “new generation”. Fact Check takes this to mean the current cost of building and operating a new plant of a given size — whether powered by wind, solar, coal or nuclear — under existing policy settings and economic conditions.
Although evidence suggests the cost of renewables will continue to fall, Fact Check has not attempted to form a judgement about Turnbull’s claim based on future projections.
As the Grattan Institute’s energy program director Tony Wood said: “When people start projecting what the cost is going to be in the future, we only know one thing, and that is that they are wrong. The only question is in which direction and by how much.”
Energy produced by power stations, whether from renewable or fossil fuel sources, is typically measured in megawatt hours (MWh).
A megawatt hour is roughly equivalent to the amount of electricity used by about 300 homes during one hour.
Comparing direct running costs can paint a misleading picture. Some technologies are more expensive to build, but cheaper to run.
Others involve lower capital costs, but higher running costs.
To deal with this issue, analysts use a measure referred to as the “levelised” cost of electricity, incorporating the cost of capital, among other things.
This concept is explained in the Independent Review into the Future Security of the National Electricity Market, headed by Chief Scientist Alan Finkel.
“The levelised cost of electricity (LCOE) is a measure of the average cost of producing electricity from a specific generating technology. It represents the cost per megawatt hour (MWh) of building and operating a generating plant in order to breakeven over an assumed financial life.
“Key inputs to calculating the LCOEs include capital costs, fuel costs, fixed and variable operating and maintenance (O&M) costs, financing costs, and assumed usage rates for each technology type. The LCOEs do not include transmission or distribution costs.”
Experts consulted by Fact Check said this measure can be misleading for a variety of reasons (not discussed in this fact check), although it remains the best available metric for comparing the costs.
In making his claim, Turnbull used the present tense. Fact Check regards 2020 as a reasonable representation of the prevailing situation, while acknowledging that energy markets are in a state of flux, and thus, has used estimates from 2020.
Fact Check has not considered in detail the cost of generating electricity using gas (primarily because Turnbull’s claim related to the cost of coal fired power versus renewables).
It is worth noting that gas remains a relatively inexpensive source of electricity that remains broadly competitive with new coal (or slightly cheaper) on a levelised basis, and it represents a more flexible source of energy capable of responding to periods of peak demand.
Nor has Fact Check considered the ramifications of the federal government “underwriting” a new coal fired plant (as some Coalition MPs are calling for), aside from noting this would expose taxpayers to a level of additional risk.
The cost of new coal
Turnbull referred to “new coal”.
Many of Australia’s existing coal-fired power plants are nearing the end of their lives and are producing electricity relatively cheaply because the costs associated with building them have long been met.
NSW’s Liddell power station, commissioned between 1971 and 1973, for example, is approaching 50 years old, while a section of Victoria’s Yallourn W plant is more than 40 years old.
As the director of the Energy Change Institute at the Australian National University, Ken Baldwin, recently pointed out, nine of Australia’s 12 biggest operating coal-fired power stations are more than 30 years old.
While it has been a number of years since a coal-fired power plant was built in Australia, some research has been devoted to comparing how much it would cost — on a “levelised” basis — to produce power using a newly built, coal-fired power station.
The most up-to-date and comprehensive estimates come from the CSIRO and the Australian Energy Market Operator (AEMO).
These figures were provided to Fact Check by the CSIRO, and match a graph contained in the report GenCost 2018: Updated projections of electricity generation technology costs.
The CSIRO and AEMO estimated that a new black coal-fired power station would produce power at a levelised cost of $82.10 to $111.00 per megawatt hour, or $96.60 as a mid-point.
Electricity from a brown coal-fired plant would be more expensive, costing between $93.70 and $121.00 per megawatt hour (mid-point $107.40).
These figures are somewhat higher than the estimates used in the Finkel review of the National Electricity Market, which were, in turn, produced by advisory firm Jacobs Consultancy.
It found a new coal-fired plant would generate electricity at a levelised cost of $76 per megawatt hour.
However, as a footnote in the review makes clear, this does not assume a risk premium for coal.
Experts consulted by Fact Check said this is not a realistic assumption under current policy, environmental and economic conditions.
Baldwin said: “It is harder to get finance for those big [coal] projects, whereas it is easy to get finance for those small-scale solar builds which can be done incrementally and very quickly.
“The same is true of wind — you can put a turbine up and then another one, so the project risk on that is much less, and hence the cost of finance is much less.”
Elsewhere in the Finkel Review, it was estimated that the average cost of capital for new coal — that is the average interest rate at which a coal first plant could be financed — would be more than double the capital cost of renewable projects: 14.9%, compared to 7.1%.
That factors in, among other things, a 5% “risk premium” for coal.
Applying these different estimated capital costs would result in a higher levelised cost for new coal.
According to the CSIRO/AEMO analysis, if a 5% risk premium is added to the capital cost of new coal-fired power generation, the levelised cost for black coal rises to between $123.30 and $165.90 per megawatt hour, or $144.60 as a mid-point.
For brown coal, it rises to between $157.10 and $205.60 per megawatt hour (mid-point $181.40).
These are not the only estimates available. A 2015 report by the CO2 Cooperative Research Centre estimated the levelised cost for high-efficiency coal to be $80 per megawatt hour, again without assuming a risk premium.
The cost of renewables
In making his claim, Turnbull did not specify a particular type of renewable power. However, in an Australian context, it is reasonable to assume he was referring to that generated by wind and solar, which are by far the most cost-competitive and widely available technologies, according to experts.
The cost of both wind and solar power has fallen rapidly in recent years, while the uptake of renewables has increased dramatically.
According to an article by The Energy Change Institute at the Australian National University, Australia during 2018 and 2019 was likely to install about 10,400 megawatts of renewable energy (wind, large-scale solar and roof-top solar), representing about 30% of Australia’s peak energy demand.
The levelised cost of wind and solar, as recently estimated by the CSIRO and AEMO, is between $51.20 and $64.40 per megawatt hour for wind, or $57.80 as a mid-point, and between $44.50 and $61.50 per megawatt hour for solar (mid-point $53).
These cost estimates are somewhat lower than other estimates. For example, the estimates contained in the Finkel Review produced by Jacobs Consultancy found a levelised cost for wind of $92 per megawatt hour, and $91 for large-scale solar.
According to experts, however, these cost estimates are excessive, given the current contract prices being entered into for wind and solar.
Baldwin said when the assumptions for the electricity modelling in the Finkel review were finalised in February 2017 they were already out of date.
For example, in May 2017 the Victorian government locked in a fixed price for wind of $50 to $60 per megawatt hour over 12 years in a deal with Origin Energy’s Stockyard Hill Wind Farm.
Also, the recently announced Golden Plains wind farm is expected to replace up to one-third of the power that was generated by the closed Hazelwood power station at less than $50 per megawatt hour.
According to experts, long-term renewable contracts are similar to the levelised cost because they covered a large part of the expected life of the asset.
What about storage?
Turnbull specifically referred to “renewables plus storage”.
Fact Check assumes Turnbull was referring either to battery storage or pumped-storage hydroelectricity, where excess renewable energy is used to pump water uphill into a reservoir so that it can be released to produce hydro-electricity during periods of high demand.
This effectively “stores” the excess renewable energy for later use when prices are higher.
The CSIRO has provided estimates for the cost of wind and solar power with two hours battery storage and with six hours of pumped hydro.
Wind energy, with two hours of battery storage is estimated to cost between $98.20 per megawatt hour and $124.70 per megawatt hour on a levelised basis, or $111.50 as a mid-point.
The cost of solar combined with battery storage is higher, estimated at between $108.70 and $157.60 per megawatt hour (mid-point $133.20).
Combining renewables with pumped hydro is somewhat cheaper, although, as experts noted, finding suitable locations for such an approach can be difficult. Wind combined with pumped hydro, it is estimated to cost between $83.40 and $106.10 per megawatt hour, (mid-point $94.80).
Solar combined with pumped hydro is estimated to cost between $88.80 and $129.30, (mid-point $109.10).
The Finkel review did not contain an estimate for wind energy combined with storage, although it did provide an estimate for the cost of large-scale solar combined with three hours of battery storage, estimating an average levelised cost of $138 per megawatt hour.
This is broadly consistent with the CSIRO/AEMO estimate.
If only it were that simple…
Most states, apart from South Australia and Tasmania, which is mostly reliant on hydro-electricity, still produce the majority of their energy from fossil fuels.
The latest figures from the Department of Environment and Energy show NSW derives just 17.4% of its power from renewables, while Victoria gets 17.3%, followed by Queensland (8.8%) and Western Australia (8.2%).
Tasmania draws 94.6% of its electricity from renewables, almost entirely through hydro power.
South Australia is the state most reliant on what analysts refer to as “variable” renewable energy, with a 51.2% dependency.
As previously outlined, as the proportion of power generated from renewables continues to rise, so too will the amount of back-up power needed to ensure the stability of the national electricity grid.
Currently that grid allows for the transfer of electricity between the states, allowing some “smoothing” of supply.
This adds further complexity to the issue of renewables versus traditional forms of power generation.
Battery storage provides a part of the solution, but can only cover a relatively small number of hours.
Grattan’s Tony Wood said the system could cope with renewables “up to a point” because of flexibility built into the national electricity grid.
But he said beyond roughly 50% reliance on renewables “you have to start thinking about alternatives and balancing”.
“As you get beyond that — as those other states and territories introduce more renewables, and you get coincident periods of low wind, particularly in summer unfortunately when the demand is highest — then you have got to start really seriously dealing with the balancing arrangements, which, right now, as best we know it, are a combination of pumped hydro and gas.
“The outlying thesis here is, once you get up into the very high numbers — 60, 70, 80% — then you might have to put up with gas for a while yet, which is a problem for your emissions.”
CSIRO Chief Energy Economist Paul Graham said in states that had not yet reached 50% renewables, it was not necessary to add storage because the system was flexible enough to cope.
The cost of nuclear
Australia has been debating the merits of nuclear energy for decades. The December 2006 Uranium Mining, Processing and Nuclear Energy review, headed by scientist and business leader Ziggy Switkowski, found it would be likely to cost between 20 and 50% more than power produced from a new coal-fired plant at current fossil fuel prices and would take up to 15 years to build.
Since the report was produced, the question of whether nuclear energy could be feasible for Australia has been rekindled in light of new “small modular reactors”, which, according to the Finkel Review, represent “a more flexible technology, with faster construction and delivery times”.
Estimates produced by the CSIRO and AEMO suggest such a reactor could generate power at a levelised cost of between $250.10 and $326.70 per megawatt hour, (midpoint $288.40).
Consulting firm Lazard also produces estimates for the levelised cost of energy. Its latest report, released in November 2018, found a levelised cost for nuclear power of between $US112 and $US189, which translates to $165 to $278 in Australian dollars.
How do different technologies stack up?
As can be seen in the following graph, if the mid-point is taken, both wind and solar without storage is cheaper than coal, whether a risk premium is applied or not.
According to experts, in most states except South Australia, additional renewables would currently not require backup, given the reliance on them is currently well below 50% of power generation.
Nevertheless, Turnbull referred to “backup” when making his claim. Wind and solar — with battery storage — are not cheaper than coal, assuming no risk premium is applied to the financing of coal.
Wind, backed up by pumped hydro, remains slightly cheaper than black coal with no risk premium applied. Solar, backed up by pumped hydro, is marginally more expensive.
However, as discussed, it is realistic to assume coal-fired power stations would be more costly to finance. If a risk premium is applied, wind and solar plus back-up remains unambiguously cheaper than coal as a source of energy
Nuclear power, on the other hand, is estimated to be well over double the cost of coal, wind or solar, regardless of risk premiums or backup.
The CSIRO and the Finkel review both predicted the cost of solar and wind energy would continue to fall into the future, while the cost of coal-fired power would remain relatively static.
As outlined, Fact Check has assessed the claim on the basis of current price estimates, while acknowledging the energy market is fast evolving.
What the experts say
Fact Check consulted with four of Australia’s leading energy policy experts.
CSIRO Chief Energy Economist Paul Graham said whether or not Turnbull’s statement is accurate “depends on the view you take on whether you can access financing for coal plants that would not impose a climate policy risk premium”.
“With such a risk premium it is clear coal cannot compete,” Graham said.
“If you ignore the financing issue for coal, the statement would appear to remain true if you take the mid-point of the low-high range [of cost estimates].
“However, if you take the lowest end of the range for coal, without a risk premium, it is slightly lower than the lowest-cost renewable with storage.”
Graham said in states where variable renewables contributed less than 50% of power needs, “that is, everywhere except South Australia”, it was not necessary to add storage to renewables because there was enough flexibility in the existing generation stock.
“As such, at present, the ‘standalone’ renewable costs are the most relevant costs of renewables in those states. These are much lower than coal.”
Grattan’s Wood said financing risk needed to be factored in when considering the cost of new coal-fired generation.
“If I accept that most likely we are going to see a serious transitioning to a much lower emissions future across the entire economy, then it is hard to see how you are going to get 30 or 40 years’ life out of a coal-fired power station.
“In which case, the capital costs have to be recovered over say, 20 years, in which case the cost of that power is no longer $80 or $90, it is now $100 or $120 a megawatt hour.”
Wood said under current conditions the system could cope with additional renewables in most states. However, the costs of backup could increase into the future.
“You have to be careful that you don’t claim the answer is either zero per cent renewables without a problem, or 100% renewables without a problem,” he added. “Neither is true.”
Baldwin said Turnbull was basically correct.
“If you are going to build a new, electricity generating source … to provide an equivalent amount of power — let’s say, you are replacing a coal-fired power station — then the cheapest way to do it is with renewable energy and at this stage probably most likely wind, with solar not far behind,” Baldwin said. “To build a new coal-fired power station will be more expensive, and similarly with a nuclear power station.”
Bruce Mountain, director of the Victoria Energy Policy Centre at Victoria University, stressed that it was difficult to compare different technologies, primarily because they served different purposes.
Professor Mountain said coal-fired plants tended to be inflexible, producing power regardless of whether the demand was there or not, whereas renewables with storage had the flexibility to sell power to the grid at times of high demand (and high prices).
He said the capital costs of coal tended to be higher for three reasons:
- Coal plants take longer and cost more to build
- They carry higher clean-up and closure risks
- They face future energy policy risks, including the possibility of border taxes penalising countries that fail to price emissions
“So those three differential risk profiles … will be expressed in the cost of capital, which, for coal, will be very much higher than it would be for wind and solar,” he added. “I would guess a cost of capital for a coal-fired plant of probably twice the effective cost of capital for wind and solar.”
Principal researcher: Josh Gordon, economics and finance editor
Sources
- Alan Finkel, Karen Moses, Chloe Munro, Terry Effeney, Mary O’Kane, Independent Review into the Future Security of the National Electricity Market, Australian Government, June 2017
- Paul W Graham, Jenny Hayward, James Foster, Oliver Story and Lisa Havas, GenCost 2018 Updated projections of electricity generation technology costs, CSIRO, AEMO, December 2018
- Ken Baldwin, FactCheck Q&A: is coal still cheaper than renewables as an energy source?, The Conversation, August 14, 2017
- Ken Baldwin, Renewables will be cheaper than coal in the future. Here are the numbers, The Conversation, September 27, 2017
- Ken Baldwin, Andrew Blakers and Matthew Stock, Australia’s renewable energy industry is delivering rapid and deep emissions cuts, The Energy Change Institute, Australian National University, September 10, 2018
- Westwind energy, Media Release, Minister for Planning approves Planning Permit for the Golden Plains Wind Farm, January 14, 2019
- Department of Environment and Energy, Australian Energy Statistics, Table O Australian electricity generation, by fuel type, physical units, March 2019
- Lazard, Lazard’s levelized cost of energy analysis – version 12.0, November 2018
- Ziggy Switkowski, George Dracoulis, Arthur Johnston, Peter Johnston, Warwick McKibbin and Mr Martin Thomas, Uranium Mining, Processing and Nuclear Energy – Opportunities for Australia?, Department of Prime Minister and Cabinet, December 2006
- CO2 Cooperative Research Centre, Australian Power Generation Technology Report, November 2015
Thanks. Really comprehensive. In looking at the cost of backup to renewables does this include the current phenomenon of getting energy to pump hydro pretty much for nothing during periods of high renewable power generation? And is that something that is likely to be the case into the future?
The need to replace all fossil fuels within the lifetime of today’s children is creating a mounting imperative. We have not been making sufficient progress in that direction with renewables and storage, so a global industrial response is needed. In WW2 small Liberty ships were mass produced with a many-fold cost reduction to win the Battle of the Atlantic. We must similarly plan forward for the mass production of small nuclear reactors.
I would agree with most of the analysis according to a strict interpretation of “generating costs”, but these costs aren’t the main issue, which is “cost to the consumer”. Generating costs are a relatively small proportion of the total final cost (often as little as 15-20%), with the larger proportions being in distribution infrastructure (“poles and wires”), marketing and administration, which are independent of the generating source. Even a halving of the cost of one source against another would only mean a few percent change in the final cost. Further, Tony Wood is wrong about solar and wind cost predictions – just Google “solar PV costs” and look at numerous detailed images of PV costs inexorably and systematically decreasing over more than 40 years. Try this one for example: http://www.rapidshift.net/solar-pv-shows-a-record-learning-rate-28-5-reduction-in-cost-per-watt-for-every-doubling-of-cumulative-capacity/.
The nuclear option cited is a small modular reactor. Are there any operating currently anywhere? How much did they they cost?How long did they take to build?
Do we really trust our regulators to do a proper job of regulating the build or are we just buying apartments in Sydney again ?
Impressively comprehensive summary of a complex and fraught issue. The alleged new generation nuclear is a furphy. Where is just one successful up and running example built on time and budget ? We need workable solutions now not in twenty years. Did I forget waste disposal ?
The notable omission is insurance. The biggest obstacle to the Adani mine is insurance. The biggest uncertainty with new coal plants is the various construction, completion and disaster insurances. By far the biggest insurance problem is nuclear. There is none available to the best of my knowledge. Look at any and every insurance policy you have. Somewhere down the bottom of the fine print is an absolute exclusion for all ionizing radiation be it nuclear war, power plant leakage of any other cause. All nuclear risk is carried by government which means effectively you and me. Someone please correct me if I’m wrong.