WHAT’S THE DOWNSIDE?
Using ‘polluters’ money’ to fund an electric furnace, the country will make its ‘biggest ever’ carbon cut, the Government says. Sounds too good to be true?
By helping the Glenbrook steel mill to buy an electric-powered furnace, Kiwis could cut nearly 800,000 tonnes of pollution off our collective footprint each year.
The Government approved a contribution of up to $140 million towards the furnace and said the deal would protect the planet, jobs and export revenue.
By preventing so much carbon, the deal offers great bang for the buck, said Climate Change Minister James Shaw. It’s ‘‘paid for by polluters’’, the minister argued. Yet the last time the country lost one million tonnes of pollution, we outsourced it: the closure of the Marsden Point petrol-refining factory meant these emissions vanished from New Zealand’s balance sheet, but were simply added to the tallies of the countries we purchase refined fuel from. And the deal doesn’t require new electricity generation to be built to compensate for the mill’s extra appetite. To understand the national and global impact, we need to look at how steel is currently made, and how the new furnace will change that.
Unhelpfully, steel doesn’t sit in the ground waiting to be mined. The hardy metal is a combination of iron and carbon. The closest natural resource is ironsand. It’s a good start, with plenty of iron. But there’s too much carbon and plenty of unwanted tag-alongs – including oxygen, which likes to bond with the iron. The Glenbrook mill, owned by Australian steelmaker BlueScope, consumes lots of coal transforming sand into steel.
In its kilns, coal releases heat and gases like carbon monoxide – which nabs the oxygen and becomes planet-heating carbon dioxide as a result. Next, the process simmers down the amount of carbon. Oxygen is pumped into a furnace that swirls the metal around. The removed carbon plus the oxygen creates yet more carbon dioxide.
All up, the steel mill has one of the largest carbon footprints in the country for its size – producing more than 1.8 million tonnes of emissions each year, more than 2% of the national total. The new electric arc furnace will replace the swirling furnace. In it, the virgin metal will get its carbon reduced, and other impurities simmered away. But electric furnaces can also be fed scrap steel, which is melted and purified.
Scrap steel already has about the right mix of iron and carbon. It skips the coal-hungry kiln stage, reducing fossil fuel use.
By using 50% scrap, BlueScope estimates it can close two out of the four kilns.
The new process will cut carbon dioxide by 45% – saving 800,000 tonnes annually, compared to its average emissions over five years.
BlueScope’s New Zealand chief executive Robin Davies said the plant will produce the same amount of steel, using a higher proportion of scrap.
BlueScope shifted away from scrap steel in 2015, after it purchased Pacific Steel and acquired its electric arc furnace. The Pacific Steel brand started to make its products from virgin metal (requiring those coal kilns) instead of recycled scrap.
Davies said the electric furnace was being decommissioned when the sale went through, and would not have met the Glenbrook mill’s requirements. ‘‘It was about half the size it would need to be and was installed in the ‘60s,’’ he added.
Scrapped not dumped
Although 500,000 tonnes of scrap steel typically leave Aotearoa every year, it isn’t waste material. It would have been recycled in offshore electric arc furnaces, said Jill Cooper – an industry consultant and the director of Advanced Materials Technologies. However, Cooper isn’t too worried that recycling more steel in New Zealand will mean emissions will be created overseas as a result. BlueScope isn’t the only steel mill shifting to scrap steel. It’s happening all over the world.
New Zealand currently sends about a quarter of all steel to landfill, according to a report by Thinkstep. If, say, demand increased, everyone could be encouraged to recover more. Virgin steel-makers are also cleaning up their act, Cooper said. Across the ditch, a factory will use a new electric furnace, plus cleaner ways to pull oxygen away from the iron. Natural gas does the same job for lower carbon emissions. So-called ‘‘green hydrogen’’ (produced from renewable electricity) pairs up with oxygen to produce water vapour instead of carbon dioxide.
Huntly’s shadow
Contact Energy will supply the electricity to be consumed by Glenbrook’s new furnace. The gentailer operates two hydro dams and five geothermal power stations, is currently building a sixth and plans to expand another. Geothermal stations release some carbon emissions to the atmosphere, though generators can retrofit systems to pipe the gases back underground. After it sells one gas plant to Fonterra in June, Contact will own one power station that requires fossil fuels. It features a gas-burning plant in Taranaki that runs day-to-day and two ‘‘peaker plants’’ that fire up when consumer demand for electricity spikes. Contact’s day-to-day or ‘‘baseload’’ plant will run at least until the end of winter 2024. From 2027, the electric furnace will draw 30MW of power from the grid, equivalent to 37,500 homes.
The Glenbrook mill is already a large consumer of electricity. As well as offering competitive power prices, the BlueScopeContact deal requires the steel mill to reduce operations at times when demand outpaces supply, such as cold winter mornings.
That will reduce the load on the peaker plants. However, the national grid also relies on coal and gas generation for day-to-day power.
As well as providing extra electricity during peak periods, the Huntly power plant also burns gas to generate baseload power, and is likely to do so for the rest of the decade. When gas is in short supply, coal feeds the fires. A new electricity-guzzling furnace could delay the phaseout of baseload operations at Huntly.
However, a Contact spokesperson said the company would not build new generation to supply the Glenbrook steel mill, with the power to ‘‘come from our existing portfolio’’. ‘‘We have more than $1.1 billion of renewable development under way as well as a pipeline of geothermal, wind and solar projects.’’
Polluter pays?
BlueScope will contribute $160m of the $300m upgrade. Davies said the Government cofunding allows his company ‘‘to bring the investment forward’’.
Using revenue from pollution penalties, the Government will kick in up to $140m. It will put at least $110m towards the furnace, another $10m if the tech is ready in January 2027 and an additional $20m for further emissions reductions.
BlueScope is not the first high-emitting company to receive this type of Government
contribution to green upgrades.
Fonterra, McCain and Silver Fern Farms received funding to replace coal boilers with renewable tech. But until the steel mill, grants of no more than $5m were approved.
Launched in 2020, the Government Investment in Decarbonising Industry fund offers businesses up to 50% of the cost when they switch from fossil-fuelled to renewable technology.
The National Party opposed the scheme. Energy spokesperson Stuart Smith described it as ‘‘corporate welfare’’ and was concerned consumers were funding upgrades that should be happening anyway.
But he didn’t commit to canning it. A National-led government would consider the fund’s future at the time, Smith said. Minister Shaw defended the $140m contribution, noting it would come from the proceeds of the Emissions Trading Scheme (ETS). Many polluters must purchase and surrender a carbon unit for every tonne of emissions produced.
Consumers pay a bit more for petrol, natural gas and coal as a result. In theory, Glenbrook should have been surrendering units and contributing to ETS proceeds since 2010.
In that way, the company could be getting some of its money back through the Government’s $140m contribution.
But a tool designed to reduce, though not eliminate, the financial burden means some large polluters pay no penalties or even profit off the ETS – all completely legally.
Lawmakers intended that BlueScope and other highemitting companies would pay 13% towards their annual pollution bill, with the rest of the carbon credits provided free.
But the credit-awarding process is notoriously overgenerous.
BlueScope received nearly 2.2 million free credits in 2021.
Stuff requested its carbon footprint from all sources – including coal, gas and electricity generation – because this could demonstrate whether the company was making the intended contributions.
The company declined to provide the data. Because the steel-maker purchases electricity and fossil gas from other companies that surrender carbon credits on its behalf, it is not possible to tell from publicly available data how much of a contribution it makes.
A spokesperson did not provide figures for electricity and gas, citing ‘‘commercial sensitivity’’. But the company disputed that over- or underallocation had occurred.
ETS revenue predominantly comes from polluters that don’t receive free units. Big contributors include fossil fuel extractors such as Todd Energy, fossil fuel importers such as Z Energy, and power generators Genesis and Contact – and consequently, the families and small businesses buying petrol, gas and electricity.