Carbon Free Steel on the Way
September 2, 2020
While for now it’s best to keep our eyes on the low hanging fruit ( ie shutting down coal) it’s good to know that technologies are moving along which will help with some of the stickier de-carbonizing problems down the road.
The steel industry accounts for some 5-8% of the world’s carbon dioxide emissions, as well as around 10-15% of the its total coal demand.
So far, however, the steel-making process has withstood engineers’ best efforts to clean it up: there are simply too few low-cost replacements of key inputs such as coking coal and coke.
Swedish company HYBRIT took a step toward changing that on Monday, August 31st. At an event attended by Sweden’s Prime Minister Stefan Löfven, HYBRIT — which is owned by steelmaker SSAB, state-owned utility Vattenfall and miner LKAB — began test operations at a pilot “fossil-free” steel-making plant.
By substituting hydrogen and zero-carbon electricity for coking coal and other fossil fuels traditionally used to make steel, the firm says it could have the first fossil-free steel on the market by 2026, even if commercial production wouldn’t come until later. Its pilot plant in Lulea, Sweden, will produce sponge iron, a crucial ingredient for its steel-making process, while carrying out tests between 2020 and 2024 to see which production processes are most efficient.
A number of Europe’s steel companies, as well as several ventures in the U.S., Canada and elsewhere, are testing methods to decarbonize steel, demand for which is set to rise around the world, potentially drastically. But HYBRIT is arguably the leader in the space: company executives are eager not to be castigated by millions of Swedes if their belching steel plants are the reason Sweden fails to meet its 2045 deadline to achieve carbon neutrality.
“With HYBRIT technology, we will eliminate carbon dioxide emissions in steel production,” said Martin Lindqvist, President and C.E.O. of SSAB. “We have the opportunity to revolutionize an entire industry and show that net zero emissions are possible. We must take that chance.”
It will be no picnic. In an earlier study, HYBRIT concluded that fossil-free steel, given current prices of electricity, coal and carbon dioxide emissions, would be 20-30% more expensive than steel made the usual way. However, as environmental regulations steadily make carbon-intensive industries more and more expensive, prices for fossil-free steel will eventually fall to competitive levels, HYBRIT believes.
Experts agree that, policy changes aside, it will be years before even the most innovative companies manage to bring prices of low or zero-carbon steel production down far enough to compete with traditional steel. In one analysis of potential ways to achieve the feat, consultants at McKinsey said that pure hydrogen-based steel production might become “cash cost competitive” sometime between 2030 and 2040 in Europe. But even in cases where cost competitiveness is eventually achieved, the report noted: “Only if customers value carbon-reduced/neutral products, and are willing to pay for decarbonization, can this shift in production technologies happen.”
September 2, 2020 at 10:23 am
“too few low-cost replacements”
But there are replacements. As soon as we start to think of steel and other difficult-to-decarbonize things as necessary components of a sustainable society, we can stop worrying about whether they still profit the already-rich and begin to produce what’s needed for a transition to a clean safe renewably-powered society. The problem is not technology, it’s our attachment to an economic system that’s destroying civilization and most life on Earth.
Many people can more easily imagine the end of the world than giving up capitalism. That makes the root cause a psychological problem. Recognizing the climate and larger ecological crisis as an emergency and moving into emergency mode as a society solves a lot of economic, technological, logistical, political, psychological, and other problems.
September 2, 2020 at 3:09 pm
… and therein lies the root of our problem
September 2, 2020 at 6:04 pm
If carbon were priced commensurate to its long-term costs, the competition discussion would evaporate. Things are always cheaper when you dump part of your costs on other people.
September 2, 2020 at 1:47 pm
By definition steel contains carbon. OK only 0.08% to 2.14% by weight but still carbon.
Iron with very low carbon content 0.002% -0.08% or without carbon altogether is soft although inclusions of slag (silica) can make wrought iron a slightly tougher material
Steels with higher carbon content are cast or pig irons
September 2, 2020 at 1:48 pm
Can’t edit line beginning “classifies …” should be deleted
September 2, 2020 at 6:01 pm
So how exactly does the carbon bound to steel affect atmospheric forcing?
September 2, 2020 at 8:39 pm
Carbon bound to steel,
in plants and animals,
underground,
underwater,
is not in a compound in the atmosphere that blocks re-radiated energy.
There are no stupid questions, only stupid people.
September 3, 2020 at 1:13 pm
“770 kg of coal are used to produce 1 tonne of steel” in Basic Oxygen Furnaces which currently produce about 74% of the world’s steel.
https://www.worldcoal.org/coal/uses-coal/how-steel-produced#:~:text=Around%200.6%20tonnes%20(600%20kg,produced%20in%20Electric%20Arc%20Furnaces.
September 2, 2020 at 6:00 pm
So how exactly does the carbon bound to steel affect atmospheric forcing?
September 2, 2020 at 8:40 pm
A question so dumb, you had to ask it twice.