In mining, reducing emissions while maintaining or increasing throughput has become one of the industry's biggest challenges. Sustainability and productivity are traditionally opposing one another, but thanks to the increasing use of AI in mining, the contradiction is increasingly disappearing. This transformative technology allows operations to cut emissions while increasing output.
Digital transformation in the mining industry is underpinned by AI. Operations can improve efficiency, reduce waste, and meet sustainability goals without compromising production.
Traditionally, mining operations used static operating models and manual tuning. Higher throughput and mining productivity came at the cost of excessive energy use. Conversely, initiatives to reduce emissions (e.g., equipment throttling, reducing process intensity) would normally reduce productivity or the recovery target.
With the AI revolution in mining, this has changed. Operations can use data in real time to find and correct inefficiencies in ways that legacy systems cannot.
Using AI, operations can monitor and assess the performance of the entire plant and suggest changes that would lead to higher throughput and lower energy use and greenhouse gas emissions.
AI actively alters process parameters, such as grind size, reagent dosing, and pump speeds to minimize energy use while maximizing recovery.
Models predict the best possible operating windows for critical equipment, including SAG mills, flotation cells, and conveyors. This aids in maintaining equilibrium between load and power draw, minimizing waste and enhancing operational stability.
AI streamlines activities to prevent wait times and wasted energy from bottlenecks along the workflow.
AI-powered scheduling technology strategically determines optimal processing times to meet daily changing energy prices, production targets, and emissions targets.
BHP has shown that the implementation of AI in real-time helps mining companies examine energy trends and strategically alter operating processes to enhance productivity and reduce emissions.
NTWIST’s AI platform has proven to have quantifiable results across several of its customers. One customer in the mining sector realized:
AI helps to optimize mining operations to enhance performance and improve sustainability at the same time.
According to Schneider Electric, AI-based optimization from the gate to the mill, along the entire mining process, is essential for meeting the decarbonization goals for mining organizations, without negatively affecting production efficiency.
Further studies by The Oregon Group have shown that AI operational intelligence has led to a 10%–20% increase in production and a 30% reduction in emissions for the mining industry.
Artificial intelligence (AI) technologies are developing rapidly, offering the potential for a new competitive edge for mining companies. AI tools help with numerous issues, such as:
As sustainability goals grow, so do AI solutions for the mining industry to help the industry remain profitable and environmentally responsible.
Mining companies looking for a competitive edge using AI need not fear a complete overhaul of existing business practices. The initial steps to employing AI may be as simple as:
Our company, NTWIST, focuses on the mining industry. We ensure the employment of AI in suggested work practices through rapid applications, and several mining companies report measurable productivity increases in under 90 days.
Mining companies historically found trade-offs as a norm since companies could hardly produce more work while reducing environmental impact. AI changes that by optimizing operations, allowing intelligent systems to operate more efficiently, all while using less energy and emitting fewer greenhouse gases.
AI provides real-time operational intelligence and predictive analytics. Combined with machine learning, these tools can be the key for mining companies to achieve a positive impact on work and productivity. At NTWIST, we optimize operations throughout the mining industry while aligning us all with the sustainability goals of the mining industry.
Mining companies no longer must consider increasing throughput and lowering emissions as competing objectives. By using AI, mining companies have the tools to increase operational efficiency while also becoming more sustainable.
As the digital transformation of the mining sector continues, AI in mining will be key to optimizing mining operations, lowering the sector’s environmental footprint, and allowing companies to better achieve long-term operational goals.
NTWIST generates AI-powered solutions to facilitate this transformation.
In a real and tangible manner, AI makes negative environmental impacts less by optimizing operations which consume significant energy. It achieves this by improving operational systems, decreasing idling time of equipment, and addressing and optimizing operational inefficiencies—all in real-time.
Certainly. AI-based optimization systems are able to tune working parameters to maximize throughput simultaneously while minimizing energy used and other wasted resources.
The primary advantages of AI in mining are enhanced productivity, decreased operational expenses, diminished downtime, amplified recovery rates, and reduced greenhouse gas emissions.
Most mining companies start seeing quantifiable improvements in operations within the first couple of months of implementing AI optimization systems.
Definitely. Most AI systems are designed to fit into the prevailing control systems, sensors, and operational data systems without necessitating the replacement of the entire operational structure.
Machine learning is the ability to review both historic and real-time operational data to forecast results, detect inefficiencies, and propose process enhancements to increase productivity and sustainability.
References
BHP. (2024). Artificial Intelligence Is Unearthing a Smarter Future. Retrieved from https://www.bhp.com/news/bhp-insights/2024/08/artificial-intelligence-is-unearthing-a-smarter-future
Schneider Electric. (2024). Unlocking Mill Efficiency: Leveraging AI Insights for Enhanced Mining Benefits. Retrieved from https://blog.se.com/industry/2024/11/26/unlocking-mill-efficiency-leveraging-ai-insights-for-enhanced-mining-benefits/
The Oregon Group. (2024). The AI Revolution in Mining: Opportunities and Risks. Retrieved from https://theoregongroup.com/energy-transition/technology/the-artificial-intelligence-revolution-in-mining-opportunities-and-risks