A New Era in the Deep Earth

Enjoy

At this moment, a thousand meters or more below the earth’s surface, railways are running. These railways are at work inside some of the world’s most advanced mines.

If the idea of this seems vague or strange, it’s no wonder: Mining railways are not well-known by the public. Hollywood films like “Indiana Jones and The Temple of Doom” portray them as rickety wagons with rusting tracks. Video games and even roller-coaster rides portray mining railways, and the deep earth, as eerie and chaotic. Perhaps, more generally, the public has no clear idea what a deep mine could be like.

Sweden's northernmost town is home of the largest and most modern underground iron ore mine in the world.
A visit to the LKAB mine in Kiruna Sweden's northernmost town is home of the largest and most modern underground iron ore mine in the world.

At the exterior of the mine, only a few people are required at a control center to oversee loaders, which are placing the mine’s ore onto above-ground railway trains. What is underground is even more interesting.

A truck drives you through circular tunnels down to the ‘1365 level.’ This level, which is actually about 1365 meters below the original top of the mountain above, is the newest deep frontier. Here, a sub-control center awaits with only a handful of people inside: Some use joysticks to ensure train cars are properly loaded with iron ore, remotely drilled on levels above the cars and dropping through chutes. Others watch monitors, showing train cars unloading ore into crushers and conveyors and then onto hoists that lift it to the surface.

Once, this mine might have been filled with men and equipment, and drills and dynamite. Today, the mine resembles an ultra-modern subway system: Driverless trains glide through smooth, clear tunnels. The workers in the sub-control center largely observe as a high-tech signaling system manages loading and hauling.

It’s not just the LKAB mine where you’ll find such streamlined operations. Advanced railway mining systems like this are found world-wide: at copper mines in the Chile, coal mines in Columbia, Indonesian gold mines, and other mines around the world.

 is one of the most powerful electric locomotives in the world. They are in service in Kiruna in an extreme climatic environment where iron ore trains of 8200 t are hauled from mines in the inland to the coasts of Sweden and Norway.
The IORE locomotive is one of the most powerful electric locomotives in the world. They are in service in Kiruna in an extreme climatic environment where iron ore trains of 8200 t are hauled from mines in the inland to the coasts of Sweden and Norway.
Advanced signalling systems

Bombardier’s advanced signaling system uses a central computer that optimizes train routes and priorities. The traffic control centre ‘Interlocking’ communicates via radio with the ‘Onboard,’ a small computer fitted onto the train that controls where and how fast the train can go. Designed for industrial applications and automation, the industrial solution includes features such as integrated loading/ unloading and a built-in driverless system.

High-Tech Meets Deep Earth

An advanced signalling system is distinguished by what you don’t need: a lot of equipment beside the tracks. Additional equipment not only brings up the price of a signalling system’s installation and maintenance; it can also add safety risks for maintenance workers. Interest in high-tech signalling systems is growing not just for underground mines but also for mine to port operations. With today’s lower commodity prices, mining operators are upgrading signalling systems to lower operating costs while improving safety.

Standing inside the deepest part of Sweden’s LKAB mine, more than 1300 meters below the surface, is a pleasant surprise: Fully automated driverless trains of twenty or more cars move along well-maintained tracks, with almost no extra equipment. It’s all very clean, with no operational dust, and worker safety is maximized. The new railway mining era has arrived: Smart railway mining inside the deep earth.