loader image

Antofagasta Minerals partners with ABB to accelerate decarbonisation initiatives

Reading Time: 2 minutes

Antofagasta Minerals and ABB have signed a Memorandum of Understanding (MoU) to accelerate decarbonisation initiatives by electrifying and automating mining operations in Chile.

The collaboration aims to develop and implement a net zero emission haulage solution by leveraging ABB’s expertise as well as its eMine™ solutions.The mining industry is striving to close the gap in demand for copper driven by the energy transition, while simultaneously wrangling the challenge of decarbonising their own operations. Currently, anticipated mine supply from announced projects is expected to meet only 70% of copper requirements by 2035. Net zero emission haul trucks have been identified as a key solution for achieving large scale decarbonisation for mines around the world. This collaboration between ABB and Antofagasta Minerals represents a significant step toward advancing the adoption of electrification in mining and defining best practice for the industry.Under its purpose to “develop mining for a better future”, Antofagasta Minerals is at the forefront of decarbonisation. It is working towards reducing its emissions by 50% by 2035 and achieving carbon neutrality by 2050, having already reduced its Scope 1 and Scope 2 carbon dioxide emissions by 928 000 t. Through the development of the trolley trial at its Los Pelambres operation, the company has played a pivotal role in advancing the implementation of electrical solutions in the mining ecosystem. Antofagasta Minerals expects electrification will present viable solutions for reducing emissions in its haulage processes and is aiming to test battery powered trucks and trolley assist technologies in the next few years.ABB is supporting Antofagasta Minerals with its decarbonisation roadmap by supplying advanced technology solutions from its eMine portfolio. Specifically, the parties intend to utilise ABB’s eMine consultative studies to define the techno-economic optimum for the all-electric mine, evaluating decarbonisation technologies, impact on mine operation and design, as well as power distribution.Furthermore, in recognition of the critical role net zero emission haul trucks play in meeting the greenhouse gas emission reduction goals, ABB and Antofagasta Minerals will collaborate, alongside other third parties, to accelerate the development of net zero emission haulage solutions. Antofagasta Minerals will act as an early adopter and test site for technology and has committed to using ABB’s eMine Trolley System. The system is known to reduce diesel consumption by up to 90% in specific environments while lowering energy costs and overall environmental impact. This technology not only reduces emissions in the short term, but also enables the future implementation of battery technology in the mining industry.“Our shared vision in achieving more sustainable processes and operations in the mining industry drives us to innovate and push the boundaries of what is possible,” said Max Luedtke, Global Business Line Manager Mining, ABB. “Industry collaboration is vital to achieving the progress needed to reduce the industry’s environmental impact. As one of the industry’s largest copper players, Antofagasta Mineral’s support is invaluable to this pursuit. Combined with ABB’s holistic eMine framework, this is a major step towards achieving the all-electric mine of the future and fuelling decarbonisation efforts. We are fully invested in the collaborative journey to develop further solutions.”

Read the article online at:

This article was published by:

Visit the original article here

share this article
  • This field is for validation purposes and should be left unchanged.

Subscribe to receive the latest business and industry news in your inbox.

  • This field is for validation purposes and should be left unchanged.

latest from the industry
real estate news

Whitepaper

  • This field is for validation purposes and should be left unchanged.

  • This field is for validation purposes and should be left unchanged.

Use