Disruptive technology in the mining industry
Opportunities, risks, and avoiding and resolving disputes
Australia | Publication | november 2020
Introduction
Technological innovation continues to disrupt the status quo in established industries. While new technologies offer many new opportunities within the mining industry, the corresponding risks and potential disputes are not far off. In this article, we focus on these opportunities and risks as well as disputes that might arise from changes in the mining industry and emerging avenues for avoiding and resolving such disputes.
Opportunities
New technology has the ability to increase efficiency and productivity of mining operations. The industrial internet of things automatically connects machines and people using intelligent sensors and radio frequency identification devices (RFID) to create an extensive network of interactions which can enable computes to interact with mining operations without human intervention. This has the potential to improve visibility and traceability throughout the life cycle of a mine and to automate maintenance and operation. New computing technology enables information collected from this network, which would have previously been too large and complex to deal with in traditional ways, to be processed in real time allowing for informed, data-based decisions to be made efficiently and accurately. Efficiency and productivity are also advanced by predicative maintenance and 3D and 4D printing which allows for replacement parts to be printed and ready on site exactly when needed minimizing maintenance shut downs.
As mining is one of the most energy and water intensive industries, green technologies not only contribute to lowering the environmental impacts of a mine but can also reduce operating costs. Mining companies have started to replace diesel powered trucks with electric vehicles. Through autonomous systems and machine learning, equipment can adapt to the grade and hardness of materials which allows for the optimization of energy use in mining processes such as crushing.
Biological techniques have also begun to reduce the environmental impacts of mines and increase revenue. New technologies are being developed to replace the use of cyanide for treating tailing with a new mixture safe for human consumption that can be used many times over. Research on the ability of micro-organisms to eat the copper present in tailings which can later be extracted from the bacteria to be reprocessed before sale is being developed so that minerals present in residual waste can be recovered and used to help fund waste treatment expenses.
As the demand for certain metals, such as lithium and cobalt, which are vital to new technologies, increases the mining industry is turning to new technologies to mine what could not be mined practically or profitably before. Big data and digital twinning have reduced the cost of exploration while robots and drones bring mining to new depths and smaller spaces unsuitable for human workers. Machine learning allows for the optimization of mining operations and the mining of metals and minerals which would have previously been too expensive.
The safety of workers has always been a concern in the mining industry. Advancements in virtual reality and robotics have been able to protect workers by creating the ability to test dangerous operations in virtual environments or by removing workers altogether. Virtual reality blast walls project onto a canvas and allow workers to test blast holes and practice detonating explosives to observe how rocks react. Some equipment, such as smart helmets, can enhance vision, indicate danger zones, and even record when a driver is fatigued and needs to take a break.
Along with increased safety comes a reduction in associated liability risks. As industry names like Komatsu, Cat, and Hitachi are bringing forward automated haulage systems, the prevalence of autonomous trucks have reduced accidents in mines making jobs safer for workers and profits higher in the absence of injury payouts and lost productivity.
One of the largest impacts technology will have on the mining sector is on the workforce. With automation and robots taking away jobs, predominantly male and lower skilled workers will be the most significantly impacted. But not all employment impacts will be negative. Technology has introduced new fields outside the core competencies’, such as biochemistry, bio engineering and computer science into the mining industry. With advancement come more opportunities for educated and skilled workers and for the existing workforce to be trained to take on new opportunities.
Mitigating risks associated with innovation
Any business innovation, whilst creating opportunities, also creates new areas for disputes. Legal and regulatory risk in the mining industry is already a complex matrix, complicated by the fact that industry players are often global, operating in multiple legal jurisdictions.
New technologies inherently come with significant risk (some known, but many ‘known-unknowns’) as well as often novel regulatory and legal issues. Add to that, new players in the sector have emerged as technology companies begin to invest into mining operations. For example, automotive companies such as Tesla, have begun strategically investing in mining to ensure access to the metals required for production. This brings risk with the opportunities, as the sector expands beyond familiar counterparties and new players introduce uncertainty stemming from different approaches to doing business. Technological innovation also requires new arrangements between host governments and mining companies, particularly where upfront investments are still high but do not necessarily guarantee significantly higher profits. Disputes with local communities and host states may also arise where technology disrupts the benefits of industry for locals, including for example by reducing the need for infrastructure and workforce. A balance between positive and negative impacts on local communities must still be found and new disputes require expedient and innovative solutions.
These issues are complicated by the fact that there is no single, universal legal system. Global companies implementing cutting edge technologies across multiple jurisdictions find themselves facing a plethora of different and often conflicting legal and regulatory systems. Frequently, laws that would apply to new technology and any arising dispute were developed in a world and a time that did not even contemplate the existence of such technologies. Take autonomous vehicles as an example, as AVs become the status quo, regulatory and legal frameworks for vehicles premised on human control be found inept to deal with related issues. Liability for coding errors is likewise more complicated in situations without any human involvement. With emerging technologies in a global industry there are often fundamental questions of jurisdiction and governing law, raising key questions of which court(s) has jurisdiction to hear disputes and which law(s) should be applied.
As disputes arise, multiple legislators and courts will grapple with these issues and laws will evolve to address challenges created by fast emerging new business realities. Given the pace of legislative change, much of this evolution will occur as a result of litigation. In many instances, mining companies may not be willing to be the first to tackle these issues in public courts, particularly where precedents may be set.
A key role for arbitration
International arbitration has always played a significant role in resolving disputes in the mining sector. Its core tenets – including a near global regime for enforcement of arbitral awards (due to the global reach of the New York Convention); use of specialist arbitrators; confidentiality; and flexibility of process. Arbitration is equally particularly well suited for dealing with disputes arising out of innovative technologies. Arbitration, being a flexible process which may be designed by and adapted to the parties and specific circumstances, is best placed to cope with the speed and uncertainty of rapid change. Arbitration allows the appointment of specialist arbitrators who understand the particular issues within the industry or the technology in question – indeed, many tribunals include an appointed non-legal arbitrator who is an expert in a particular field. They can also be supported by expert evidence. Arbitration can also offer efficiencies that the courts cannot, although such efficiencies – as with everything in the arbitral process – is largely within the parties’ control. Last but not least, it allows for global enforcement of awards – a particularly important element given many ventures involving technological innovation are cross-border, or indeed, transnational.
Conclusion
In these exciting times, with emerging technologies offering incredible opportunities, parties need to ensure they consider the potential for new areas of risk as well as the opportunities. Parties must ensure that they incorporate appropriate contractual protections but also effective and enforceable mechanisms for enforcing their contracts and resolving disputes. A robust and broad arbitration agreement remains one important a part of risk mitigation.
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