Tuesday, November 02, 2021

Reinventing steelmaking for a green revolution



Reinventing steelmaking for a green revolutionLiquid iron is tapped into a chute from the blast furnace at steelmaker SSAB in LuleƄ, northern Sweden (AFP/Jonathan NACKSTRAND)

Issued on: 02/11/2021 - 07:42
LuleƄ (Sweden) (AFP)

In a gleaming new building in the northern Swedish town of Lulea, steelmaker SSAB is using a new manufacturing method that could revolutionise the highly-polluting industry by eliminating nearly all its CO2 emissions.

But making the method work at scale poses major challenges and the technique may not be the 'silver bullet' everyone is hoping for. Critics argue it may just push emissions elsewhere.

Finding ways to decarbonise steel, an indispensable component of modern industry, is one of the keys to drastically reducing carbon emissions to meet climate goals.

Among heavy industries, iron and steel production is the number one contributor to CO2 emissions, according to the International Energy Agency.

The World Steel Association estimates the industry accounts for about seven to nine percent of man-made emissions worldwide, with an estimated 2.6 billion tonnes of CO2 emitted in 2020.

In Lulea, the sterile appearance of the new building stands in stark contrast to the nearby soot-covered blast furnace it's meant to replace.

Alight with the signature orange glow of melted metal as liquid iron spews out, the blast furnace is the main method for producing steel today.

"By switching technology from a normal blast furnace where we use coal and emit CO2, we end up with regular water instead," SSAB site manager Monica Quinteiro tells AFP during a visit to the HYBRIT pilot facility.

"We can reduce the CO2 emissions from steelmaking by 90 percent," she adds.


Finding ways to decarbonize steel, an indispensable component of modern industry, is one of the keys to drastically reducing carbon emissions to meet climate goals Jonathan NACKSTRAND AFP


HYBRIT is a collaboration between steelmaker SSAB, state-owned utility Vattenfall and mining company LKAB.


Removing oxygen

The iron ore that comes out of a mine is usually rich in oxides, chemical compounds made up of iron and oxygen, the most well-known form of which is rust.

To make steel, that oxygen needs to be removed.

Air heated to more than 1,000 degrees Celsius (1,832 F) is fed into the blast furnace, causing coke to react with the oxygen which is then released as CO2, resulting in nearly two tonnes of CO2 for every tonne of steel produced.

In the HYBRIT facility, the oxygen is removed differently.

"Instead of using heated air, we are circulating hot hydrogen gas," Quintero explains.

The hydrogen, like the carbon in the coke, binds with the oxygen in the iron ore, instead creating water.


SSAB site manager Monica Quinteiro holds hot-briquetted iron
 Jonathan NACKSTRAND AFP

While so-called direct reduction of iron isn't totally new, HYBRIT distinguishes itself by using hydrogen -- produced from electrolysis -- and ensuring that all of the electricity in the production process is from renewable sources.

While steel is made up of mostly iron, some carbon needs to be added.


"But that's a very, very small amount that we need to add at the end of the manufacturing process," Martin Pei, SSAB chief technical officer and HYBRIT project initiator, tells AFP.

If the successful pilot scheme can be scaled up, "We can in principle solve the root cause of the CO2 emissions," Pei explains.

In August, SSAB shipped the first batch of steel plates -- 25 tonnes -- made with the new process -- which it labels fossil-free -- to truckmaker Volvo.

It's a drop in the ocean compared to the 1.86 billion tonnes of steel shipped by steelmakers in 2020, according to the World Steel Association.

But SSAB aims to make 1.5 million tonnes of "fossil-free steel" a year as of 2026, compared to its current production of 7.5 million tonnes a year.

The biggest hurdle to full-scale production is access to electricity, especially that produced from renewable sources.

To operate at scale, SSAB would need an estimated 15 terawatt hours (TWh) of electricity a year, and for their mining operations LKAB needs 55 TWh.

Together that represents roughly a third of Sweden's total electricity consumption.


Hidden costs?

Not everyone is a fan of the approach.

"It takes such massive amounts of electricity, at a time when electricity production is already strained," Christian Sandstrom, an associate professor at the Jonkoping International Business School, told AFP.


Claims of producing fossil-free steel have been disputed by academics Jonathan NACKSTRAND AFP

Sandstrom and two colleagues wrote a paper criticising the project in October and questioning the "fossil-free" label.

"The net effect of this hydrogen-based steel is a higher consumption of electricity and from what we can see there are no signs that electricity is going fossil-free," Sandstrom said.

Scaling up SSAB's production would hardly make a dent in emissions from steel globally: in terms of tonnage, SSAB only ranked 52 among global steel producers in 2020, according to the World Steel Association.

But others are betting this may be the future.

In February, the newly formed Swedish company H2 Green Steel announced plans to build a facility that would be operational in 2024.

And China's HBIS, the world's third-largest steel producer, in May announced it had started production on a demonstration facility for its own direct reduction of iron using hydrogen.

© 2021 AFP

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