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THE FUTURE PATH OF MINING INDUSTRY IN NIGERIA
The current status and the country positioning of the mining industry are driving ahead to an established future, and identifying this is one of the must; to forecast the progress of the industry, among the future includes;

ADVANCEMENTS IN MINING TECHNOLOGY

Nonetheless, the Industrial Revolution at the end of the eighteenth century had the most influence on the demand for and usage of minerals.

The mining industry experienced tremendous advancements in terms of scientific theory and mechanization, which have persisted to the present day, along with the skyrocketing demand for minerals.

Mining technology has advanced significantly during the past 200 years in many different fields. Instead of being revolutionary, such advancement is frequently done in an evolutionary way. But every so often, a ground-breaking discovery occurs that fundamentally alters the mining process.

The most significant development of the nineteenth century was the creation of dynamite. Among the most notable of these achievements in the 20th century was the development of continuous mining machinery, which removes softer materials like coal without the use of explosives. The first continuous miner was tested in 1940, and McKenna Metals Company's invention of tungsten carbide inserts in 1945 substantially increased its effectiveness (now Kennametal). The continuous miner had begun to take the place of previous coal mining techniques by 1950. The era of automated mining was arrived.

OCCUPATION

In the near future, the employment rates of men and women in mining districts compared to non-mining districts will drastically change and be affected because it has been established that the mining community will highly feel the impact of its industry, even though this is 20 km away from the mines industry. This effect will affect the live hood occupation where there will be a shift from agriculture to services for women and manual to professional work for the men.

MINING INDUSTRY'S DIGITAL TECHNOLOGY FUTURE

INTRODUCTION

Future technology offers a lot of opportunities. Digital advancements enable organizations to go from a reactive management strategy to targeting the future with insight and confidence. They also offer faster and better decision-making that decreases performance variability, while scaling equipment utilisation and safety performance.

Automated vehicles will increase safety, reduce expenses, and increase production. Data collection, inspection, stock control, and safety monitoring will all be done with drones. Lead times and inventory holding expenses for vital components will be decreased via 3D printing. Wearable technologies will be used to assist real-time machine instructions and improve operator safety. Low-cost real-time data across processes is provided through a sensor network with IoT capabilities.

The production of a virtual 3D clone of a physical asset, structure, piece of machinery, or full mining site is known as a digital twin. It is the baseline with real-time SCADA data attached to it and represents actual assets with accuracy. This includes real-time IT data on things like temperatures, pump pressures, flow rates, and more.

Users can gather, process, monitor, manage, and exchange data about a specific asset using a digital twin. This creates a comprehensive overview of both surface and subsurface infrastructures, allowing users to do "what if" studies and carry out right-time monitoring. It integrates reality data, engineering data, and IoT data.

A digital twin allows project teams to automate collaboration protocols thereby allowing efficacious co-operation. This helps to mitigate against mistakes and duplication through the incorporation of multiple data sources into a centralised digital reality model, providing team members with a single

The following technological developments will be crucial in the future mining industry:

• Integrated Real-Time Resource Planning - Through automated resource surveying and reconciliation, combined with equipment, material, and workforce tracking and visualisation, it is possible to improve the frequency of mine planning and scheduling. This will enable the best possible matching of resources and equipment, demand planning, and performance management.

• Adaptive Mine Planning - Mines already collect information on the ore body from a variety of sources, such as drill hole data and face inspections. The possibility is to apply advanced data analysis tools in combination with geological data to comprehend this faster and better.

• Predictive Maintenance: Preventing unanticipated downtime. Using and using predictive analytics on data from important equipment that is already available to anticipate breakdowns and proactively schedule maintenance work orders, including supply chain integration for part ordering

• Automated SHEQ procedures and predictive safety - Wearables allowed for employee communication and fatigue monitoring, as well as position tracking, digital compliance logging, and cognitive predictive analysis of safety issues. This could lower utility costs, increase productivity, and lower safety occurrences.

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