Blog

Drilling Deeper: Innovations in Mining Drill Rigs and Techniques

Extracting vital resources is key to economic growth, with materials such as coal, oil, gas, and minerals being exploited for numerous industrial activities.

Image Credit: michaelroushphotography/Shutterstock.com Bullet-Shaped Dome PDC Insert 13mm

Drilling Deeper: Innovations in Mining Drill Rigs and Techniques

Over the past few decades, drilling technology has rapidly evolved, with several innovative solutions emerging in recent years to address key challenges in the mining industry. This article will explore some of the current rig innovations and techniques driving the industry forward in the 21st century.

Automation has become a game changer in several industries in recent decades. The power of automation lies in its ability to reduce labor costs, increase efficiency and profits, and improve safety, a critical need in mines, which are some of the most dangerous working environments in the world.

Automated drilling rigs (ADRs) have emerged as a critical innovation driving technological progress in the modern mine. Requiring fewer workers to operate than conventional rigs, ADRs provide mine operators with a wealth of benefits, including less downtime, more efficient exploration, and built-in safety features.

Smart capabilities are central to ADRs, giving them significant advantages over traditional drilling rigs. Integrated AI and machine learning capabilities help to optimize equipment, reducing downtime and maintenance costs while improving safety for workers.

One of the key benefits AI brings to ADRs is improved decision-making capabilities. A controlled input/output system optimizes analytical decisions, taking them out of the hands of operators and mitigating the risk of human error, which could severely affect the entire drilling process.

Mines are notoriously dangerous environments. Add to this the need to exploit ever-depleting resources in increasingly remote and hard-to-reach locations, and it can be seen that innovation is needed to ensure the continued economic viability of resource extraction.

Traditionally, exploration would have been carried out by teams of workers, using helicopters and other vehicles to seek out critical minerals and plan new mines. However, this approach is time-consuming, costly, and can have severe safety issues for workers undertaking this critical endeavor.

Drones can significantly improve exploration capabilities. Able to operate remotely and safely, this innovative technology can safely survey an area either above or below ground in a fraction of the time needed with a much more attractive financial investment and return.

Drone-in-a-box solutions, such as RocketDNA’s technology, give mine operators the tools to efficiently survey and explore target areas and gather critical data, such as topography and geology, informing drilling decisions.

These drones operate autonomously with their landing pad and charging base (also the box), with one operator able to fly multiple drones. However, while the technology is mature and better able to operate in weather conditions that hinder satellite exploration, regulatory approval is a critical bottleneck.

Zero-emission mines are slowly becoming a reality, integrating several innovative green technologies that reduce their carbon footprint. This is one of the main aims of the industry, which is traditionally one of the world's most carbon-intensive and polluting sectors.

Several sustainable practices have been developed in recent decades, focusing on technological innovation and improved efficiency. Central to the mining industry's evolution into a low-carbon ecosystem is the rapid electrification of equipment and processes, with renewable energy increasingly powering new mines.

Portable drilling rigs can be easily broken down and transported to remote locations, reducing carbon emissions and disturbance to local ecosystems. The industry is currently exploring energy-efficient rigs, water-recycling systems, better tailings management, and many other innovative approaches.

While regulatory pressures persist, market demand and technological innovation are pushing sustainability in the sector.

Deep-sea mining has been touted as one of the next frontiers in resource extraction. This highly controversial practice could hold the key to overcoming a fundamental economic challenge: resource depletion.

The ocean floor contains critical minerals urgently needed to power the current energy revolution, with abundant lithium, manganese, and other materials. However, the sector is subject to intense scrutiny and regulatory hurdles due to the catastrophic damage it could cause to fragile marine ecosystems.

Technologies such as seabed mineral collection systems, robotic mining vehicles, and lifting systems are being developed. AI-enabled sensors, GPS systems, and other emerging technologies enable better control systems.

Unique environmental conditions in the deep ocean provide some critical challenges for the sector: equipment must withstand extreme pressure, for instance.

Furthermore, the remoteness of locations means that maintenance is difficult if an asset breaks down. Digital twins could help enhance predictive maintenance and reduce downtime and associated costs, improving the economic viability of deep-sea mining.

Real-time monitoring of rigs and other equipment in mines is crucial. Predictive maintenance, information on ore characteristics, and multiple mission-critical factors are improved by using AI- and IoT-enabled sensors, which feed data back to central hubs, which are then analyzed and used in decision-making processes.

These enhanced capabilities improve rig performance, ore and mineral extraction, safety, and efficiency. Furthermore, it improves a mine’s bottom line, which is especially critical in an increasingly volatile market.

Mining is a highly volatile industry, with several key challenges for the future but, conversely, prospects. Specific issues related to the sector's environmental impact, geopolitical risk, resource depletion, public scrutiny, shareholder action, and regulatory pressures persist.

The industry is known for its reluctance to embrace new technologies and working practices due to high capital costs and staff training. However, the will to transform mining is growing, with many leading companies investing heavily in a sustainable future.

All of this presents a considerable risk but an opportunity for mining companies. Technological innovation, ongoing research and development, and evolving working practices are causing a paradigm shift in the mining industry, ensuring its continued relevance and importance in the 21st century.

The Sustainable Underground Mining Project: Eliminating CO2 Emissions with Smart Technology

Equipment & Contracting (2019) 6 Crucial Innovations in the Mining Industry [online] Available at: https://www.equipmentandcontracting.com/6-crucial-innovations-in-the-mining-industry

Sunarto, E (2023) RocketDNA CEO explains why ‘drone-in-a-box’ is a game-changer for the company and drones industry [online] stockhead.com.au. Available at: https://stockhead.com.au/tech/rocketdna-ceo-explains-why-drone-in-a-box-is-a-game-changer-for-the-company-and-drones-industry/

Legge, H et al. (2021) Creating the zero-carbon mine [online] mckinsey.com. Available at: https://www.mckinsey.com/industries/metals-and-mining/our-insights/creating-the-zero-carbon-mine

Buckley, T, Jones, A & Clarke, M (2021) Use of an Adaptive Management System to Minimize Impacts of Deep-Sea Nodule Collection, Marine Technology Society Journal, 6 pp.110-116. [online] ingentaconnect.com. Available at: https://doi.org/10.4031/MTSJ.55.6.1

Bryce, B & Engdahl, C (2021) Mining 4.0: How innovation is shaping mines of the future [online] miningdigital.com. Available at: https://miningdigital.com/smart-mining/mining-40-how-innovation-shaping-mines-future

Nunoo. N.A (2018) How Artificial Intelligence Will Benefit Drilling [online] jpt.spe.org. Available at: https://jpt.spe.org/how-artificial-intelligence-will-benefit-drilling

Vella, H. (2013) Green technologies: making mining more sustainable and energy efficient. [online] Available at: https://www.mining-technology.com/features/feature-green-technologies-sustainable-energy-efficient

Liu, Z et al. (2023) Deep-sea rock mechanics and mining technology: State of the art and perspectives. International Journal of Mining Science and Technology [online, in proof] sciencedirect.com. Available at: https://doi.org/10.1016/j.ijmst.2023.07.007

Disclaimer: The views expressed here are those of the author expressed in their private capacity and do not necessarily represent the views of AZoM.com Limited T/A AZoNetwork the owner and operator of this website. This disclaimer forms part of the Terms and conditions of use of this website.

Reg Davey is a freelance copywriter and editor based in Nottingham in the United Kingdom. Writing for AZoNetwork represents the coming together of various interests and fields he has been interested and involved in over the years, including Microbiology, Biomedical Sciences, and Environmental Science.

Please use one of the following formats to cite this article in your essay, paper or report:

Davey, Reginald. (2023, November 23). Drilling Deeper: Innovations in Mining Drill Rigs and Techniques. AZoMining. Retrieved on February 13, 2024 from https://www.azomining.com/Article.aspx?ArticleID=1772.

Davey, Reginald. "Drilling Deeper: Innovations in Mining Drill Rigs and Techniques". AZoMining. 13 February 2024. <https://www.azomining.com/Article.aspx?ArticleID=1772>.

Davey, Reginald. "Drilling Deeper: Innovations in Mining Drill Rigs and Techniques". AZoMining. https://www.azomining.com/Article.aspx?ArticleID=1772. (accessed February 13, 2024).

Davey, Reginald. 2023. Drilling Deeper: Innovations in Mining Drill Rigs and Techniques. AZoMining, viewed 13 February 2024, https://www.azomining.com/Article.aspx?ArticleID=1772.

Do you have a review, update or anything you would like to add to this article?

The Thermo Scientific ARL X’TRA Companion represents an excellent choice for routine analysis with its advanced/Bragg-Brentano benchtop X-Ray diffractometer configuration. It incorporates cutting-edge technological elements to ensure precision, accuracy, safety, and user-friendliness.

The Avio® 550 Max is a compact, fully simultaneous ICP-OES instrument with Scott/Cross-FlowTechnology.

ATLAS is a state-of-the-art TPMS telematics gateway that allows monitoring all your sensors with a single device.

In this interview, Dr. Uwe König, the Global Mining Segment Manager at Malvern Panalytical, talks to AZoMining about the importance of technology and sustainability in mining.

AZoMining speaks to Francois Nell at Sandvik about the importance of mining sustainability and why equipment rebuilding and upgrades play their part in reducing fuel consumption.

AZoMining speaks to Philip Gross, CEO of Snow Lake Lithium, about the development of the world's first electric lithium mine. This is a particularly important development within mining and highlights the significance of accelerating green mining across the world.

AZoMining.com - An AZoNetwork Site

Drilling Deeper: Innovations in Mining Drill Rigs and Techniques

Basic Cutters Polycrystalline Diamond Inserts Owned and operated by AZoNetwork, © 2000-2024