Another storm of controversy about the role of wind energy is certain to erupt after the latest report about the state-wide blackout in South Australia by the Australian Energy Market Operator.

In its second update, AEMO has pointed the finger at settings on certain wind farms and fossil fuel generators in the events immediately before and after the state-wide outage last month, but the handling of the report has also raised questions about the actions of the market operator itself – both before and after the event.

The report dismisses suggestions – mostly from the Coalition and mainstream media – that it was the intermittent nature of wind energy that was the cause of the blackout. But it also underlines the failure of the market operator to make any preparations for the storm that it could obviously see spreading across the state.

The AEMO makes clear that it was major voltage disturbances – six in 80 seconds – caused by the collapse of three major transmission lines that led to the blackout. “Five transmission line faults, resulting in six voltage disturbances on the network, led to the SA region black system,” it writes.

But – not for the first time – AEMO’s press release and executive summary differs in emphasis to the detailed report, and focuses on the role of the so-called “self protect mechanisms” in wind farms rather than major voltage collapse that followed the collapse of the transmission lines.

Even though these self protect mechanisms are just a matter of software and are easily fixed, AEMO’s emphasis has horrified many in the wind industry, who suggest that the market operator is deliberately allowing wind to be blamed even though its report highlights a collapse of voltage that could have been the main cause of the outage. They also point to basic errors in its report, and its failure to take any preventative action as the storms approached.

“What we see in this report is a concerted effort to focus solely on the wind farms as if the system is perfect and the market perfect,” said one wind farm operator. “I think we are now at war with the system operator.”

In the summary, AEMO points to the role of wind farm self protect mechanisms as the straw that broke the grid’s back, noting that many wind farms were designed to switch off after riding through as few as two voltage events. (This is disputed by some wind farms, who suggest their limit was actually three).

These so-called fault ride-through limits relate to factory settings – what South Australia energy minister Tom Koutsantonis describes as a “software issue” – and these have now been fixed at most of the wind farms. Those wind facilities without such limits rode through the events without any problems until the inter-connector closed.

AEMO was also careful to point out that the role of wind energy in the blackout had nothing to do with its “intermittency” or its ability to generate through high wind events, as many wind critics had suggested in the aftermath of the blackout. (See our separate story “Blackout report blows away big myths about role of wind energy”).

“The most well-known characteristic of wind power, variation of output with wind strength (often termed ‘intermittency’), was not a material factor in the events of 28 September 2016,” it notes in the report.

However, the point of contention lies around AEMO’s assertion that it was the role of the self protect mechanisms and the loss of 445MW of output that caused the Heywood inter-connector to overload and trip, separating South Australia from the rest of the grid and precipitating the system-wide blackout.

Energy experts point to the detail of the report and the collapse of voltage that occurred before two of the biggest wind farms switched off, suggesting that the system was unstable and would have tripped anyway.

As the AEMO report noted, voltage after the collapse of the last transmission line fell to 40 per cent of the line’s rating. Given that most equipment, as the AEMO report notes, is designed to self protect if voltage falls by more than 10 per cent, they wonder why the market operator would expect a generator should ride through voltage collapse of such magnitude.

They point to this graph below, showing the voltage change immediately after a failed attempt to re-connect the third major transmission line to have collapsed after the storms. The energy experts say that this shows a massive voltage collapse that was happening anyway.

“To suggest that loss of generation is the final straw is misleading,” said one. “When you see this graph it is clear that the whole system had become unstable, and nothing was going to ride through that voltage collapse.”

“No power grid in the world is designed to manage the rapid consecutive collapse of three major transmission lines like the SA system sustained on 28 September,” said Kane Thornton, the CEO of the Clean Energy Council.

The wind industry is angry and frustrated that while the exact cause is unlikely to be known until the final report is completed in six months time, wind energy has been left to take the rap in the interim – and for a technical issue that is easily fixed and may not even have been as significant a factor as AEMO is making out.

And while the report does make clear that the issues with the wind farms are technical, and easily fixed, there is no doubt that the political and ideological debate will be fierce, and won’t be confined to the facts.