View the replay of the webinar and discover steel solutions that not only offer environmental benefits and improved durability, but that can also make a significant step in achieving the sustainability goals required for your business and our planet.
• The benefits of Magnelis® coated steel for increasing durability, including for foundations in soils or concrete
• The benefits of high strength steel, in terms of weight, cost, and CO2 footprint reduction
• Additional benefits in terms of preservation of natural resources and processability
• Reducing steel’s CO2 footprint and boosting sustainability credentials via such steps as using recycled materials, electric furnaces, implementing circular carbon technologies, and using renewable electricity
• XCarb® Green steel certificates and associated customer benefits
Creating a circular steel economy with XCarb®
Overall, ArcelorMittal’s goal is to create a circular steel economy. To achieve this, it has launched its XCarb® programme, and has already earmarked 10 billion USD to reduce its European CO2 emissions intensity by 35% by 2030 and be carbon neutral by 2050. The programme encompasses circular carbon and carbon storage projects and clean power generation. It further aims to use hydrogen instead of natural gas in the direct reduction of iron ore (DRI).
Watch the webinar: Reducing the environmental impact of PV mounting structures
In partnership with PV Magazine, ArcelorMittal held a webinar on sustainability and the CO2 footprint reduction of solar mounting structures.
More than 300 participants attended this February 2022 event - project developers, manufacturers and supply chain members, energy supplier and utilities, EPCs / Installers / O&Ms, and investors - and gave an overall high rating of 4.2/5 to the session.
Click on the image below to watch the webinar replay:
Steel: the material of choice, including Magnelis®
Sustainability and the environmental impact of PV plants is fast climbing up the agenda. Indeed, it is becoming increasingly essential to consider the entire life cycle of PV when making decisions about materials and products. For PV plants, mounting systems have a key role to play in improving solar’s green credentials, from the perspective of both projects and companies.
Steel is the material of choice when it comes to mounting systems due to its relative low cost, robustness, infinite recyclability potential, and its long-term durability when combined with the latest generation of protective coatings against corrosion. Given these benefits, and combined with new production technologies, the use of steel will continue to grow in popularity when it comes to the engineering and manufacturing of mounting structures with a minimised environmental footprint.
Backing up these assertions, PV Magazine webinar partner, ArcelorMittal, a leading supplier of steel and a major actor in the solar industry, talked about its foray into the world of low CO2 steel and presented solutions to improve mounting structure design, durability, and environmental impact.
One of the company’s focusses is to promote the adoption of higher strength steel products which have the potential to reduce the weight of components by up to 30% via structural design optimisation to reduce costs and, simultaneously, lower CO2 emissions.
ArcelorMittal is also continuing to strengthen the corrosion resistance of its Magnelis® coated steel to increase the lifetime of solar investments. Complementing this, is the product’s design and manufacturing process, which uses fewer natural resources and generates less run-off in soil and water, among other benefits.
ArcelorMittal Europe Communications