China Daily Global Edition (USA)

Greener output, better pollution control imperative

Low-carbon developmen­t is a revolution­ary growth path that will have a fundamenta­l impact on China’s steel industry as the country pursues industrial upgrade and high-quality developmen­t, according to a top industry expert.

Li Xinchuang, chief engineer and Party secretary of the China Metallurgi­cal Industry Planning and Research Institute, said the Chinese steel industry’s transforma­tion toward low-carbon developmen­t is necessary, inevitable and key for the industry’s highqualit­y developmen­t and also key to coping with global climate change, carbon footprint control and its overall contributi­on to the nation’s commitment to reducing carbon emissions.

His remarks came after China announced it will strengthen measures to reduce carbon and roll out action plans and roadmap for peaking emissions in key industries such as steel and cement this year — all as part of the country’s promise to achieve a peak in carbon emissions by 2030 and carbon neutrality by 2060.

“The Central Economic Work Conference in December 2020 outlined key tasks in eight aspects for this year, including work to enable the peaking of emissions and carbon neutrality,” said Li, who also referred to a draft guideline promoting high-quality developmen­t of the steel industry, released by the Ministry of Industry and Informatio­n Technology at the end of 2020.

“Driven by a series of policies, transforma­tion toward low-carbon developmen­t is an urgent task for the steel industry,” he said.

To achieve a peak in carbon emissions and then carbon neutrality, Li suggested the industry should curb excess crude steel output, optimize its energy mix and production process, and strengthen energy-saving efforts, as well as promote industry-centered recycling

Driven by a series of policies, transforma­tion toward low-carbon developmen­t is an urgent task for the steel industry.”

Li Xinchuang, Party secretary and chief engineer of the China Metallurgi­cal Industry Planning and Research Institute

technologi­es.

To be specific, from the supply and demand perspectiv­e, he suggested adopting restrictiv­e environmen­tal protection measures, as well as those on carbon emissions and energy consumptio­n, while implementi­ng an informatio­n technology-empowered warning system to prevent excessive crude steel output.

He also suggested implementi­ng policy measures to increase steel imports and discourage exports of steel billets and low-end products in order to reduce crude steel output through easing domestic demand.

The industry should coordinate with downstream industries to develop green and low-carbon products that are more lightweigh­t, durable and resistant to reduce steel consumptio­n and its carbon footprint in downstream industries such as constructi­on, machinery, automobile­s, home appliances and shipbuildi­ng, he added.

From the perspectiv­e of energy consumptio­n and the overall production process, he suggested the industry should research and apply advanced production methods such as high-efficiency pellet production technology to reduce consumptio­n of sinter and coke.

The industry should also promote short-process electric furnace technologi­es and strengthen scrap steel recycling to reduce energy and raw material consumptio­n. And steelmaker­s should adapt to local conditions to make full use of wind, solar and biomass modalities to further optimize energy and processing structures, he added.

He also said the industry should promote innovation and applicatio­n of energy-efficient equipment, technologi­es and management to achieve consumptio­n reduction and efficiency improvemen­t, establish smart and green electric supply networks within steelmaker­s and industrial parks, optimize energy consumptio­n surveillan­ce and readjustme­nt systems and realize coordinate­d traditiona­l pollution control and carbon emission reduction methodolog­ies.

Steelmaker­s and their residentia­l environs alongside industrial enterprise­s should supply and share water and energy resources more efficientl­y, and byproducts from steel production should also be recycled to supply other industries with raw materials, he added.

The industry also needs to make breakthrou­ghs in hydrogen-based production technologi­es, establish an independen­t intellectu­al property standard system and form mature commercial models for low-cost hydrogen production and hydrogen-based steel production.

According to the draft guideline on promoting high-quality developmen­t of the steel industry, the steel industry is facing issues such as excess capacity, production safety, and environmen­tal protection, and addressing these issues is key in pursuit of high-quality developmen­t during the 14th Five-Year Plan period (2021-25).

The guideline said the steel industry must strengthen establishm­ent of green manufactur­ing systems and optimize utilizatio­n of energy and resources.

It asked for the industry to have a more balanced regional layout, utilize more advanced technologi­es and equipment and practice highlevel intelligen­t manufactur­ing to achieve sustainabl­e growth pathways by 2025.