Thermal fragmentation tech readying for mining upswing

11th July 2019

By: Tracy Hancock

Creamer Media Contributing Editor

     

Font size: - +

Northriding-based underground drill and blast solutions provider MaXem Investments continues to locally develop the thermal fragmentation equipment from junior mining company Nippon Dragon Resources in preparation for an upswing in the mining market.

Established in 1997, MaXem, formerly a group of companies, has consolidated to form MaXem Investments, owing to “the tough operating environment in the mining market”, says MaXem MD Mark van Schaik.

The company has been the South African distributor of Canada-based Nippon’s exclusive and patented thermal fragmentation technology since September 2013 and adapts, designs, manufactures and modifies the equipment locally to meet the requirements of various orebodies.

Using some of the Canadian components, such as the thermal lance, as a starting point, MaXem has improved Nippon’s designs for local operating conditions and now manufactures these parts in South Africa.

While MaXem undertakes some of the manufacturing in-house, it has a network of South African suppliers that are contracted to perform other manufacturing aspects.

“We use about 90% local materials and suppliers; however there are unfortunately components, such as hydraulic pumps and actuators and electrical motors, that are imported, either by us or our suppliers,” notes Van Schaik, adding that MaXem is responsible for final assembly and quality control. 

Although thermal fragmentation technology is not new, recently being used in dimension stone and large-scale openpit operations for enlarging blast holes, the technology has been developed further, specifically for underground applications, he explains.

“Thermal fragmentation is a continuous mining method that does not rely on explosives. Soft explosives can, however, be used to break out any vein or rock remaining between the thermal holes. This blasting activity can be managed much more effectively within the mining cycle,” he notes.

A six-inch pilot hole is drilled into a vein or a rock using conventional long-hole drilling techniques. Thereafter, a strong, diesel-powered thermal lance is inserted into this pilot hole.

“The thermal lance creates heat energy which spalls the rock into small fragments. A hole can be spalled up to about 100 cm.”

To fully understand the use of the technology, MaXem has, thus far, only worked with gold producer Anglo Gold Ashanti (AGA) locally to develop a solid foundation and reference from which to move forward.

Between early-2014 and mid-2018 the company worked with AGA on three separate phases of testing at two of its underground mines in South Africa.

Of the more than 200 holes that were drilled and fragmented, several holes exceeded 30 m in length, and productivity ranged from between 3 t/h and 6 t/h.

During the testing, a hole was also drilled, fragmented, cleaned and backfilled in 25 hours, showing that it is possible to achieve acceptable production rates, says Van Schaik.

“Although thermal spalling has been shown to be an effective means of breaking the rock, more work needs to be done to perfect the cleaning of the holes in flat dipping orebodies and, therefore, allowing the complete mining cycle to operate smoother with more consistency,” he explains, noting that public–private partnership the Mandela Mining Precinct is assisting with ways to improve on the cleaning process.

AGA is involved with the Mandela Mining Precinct’s Non-Explosive Rock Breaking Programme and, as part of this relationship, MaXem, AGA and the Mandela Mining Precinct are writing a technical paper to detail their experience with thermal fragmentation. “We hope to have this ready in a few months.”

Van Schaik emphasises that there is a clear need to develop new and more efficient mining

methods to make mining safer and more profitable by mining deeper, improving productivity and reducing ore dilution.

“The thermal fragmentation mining method has been developed to solve this particular challenge. The team required to operate a unit consists of three people – two drilling operators and one thermal fragmentation operator,” he says.

In addition, with thermal fragmentation, less rock needs to be mucked, and hauled from the stope, resulting in further downstream savings.

Comments

The functionality you are trying to access is only available to subscribers.

If you are already a subscriber, you can Login Here.

If you are not a subscriber, you can subscribe now, by selecting one of the below options.

For more information or assistance, please contact us at subscriptions@creamermedia.co.za.

Option 1 (equivalent of R125 a month):

Receive a weekly copy of Creamer Media's Engineering News & Mining Weekly magazine
(print copy for those in South Africa and e-magazine for those outside of South Africa)
Receive daily email newsletters
Access to full search results
Access archive of magazine back copies
Access to Projects in Progress
Access to ONE Research Report of your choice in PDF format

Option 2 (equivalent of R375 a month):

All benefits from Option 1
PLUS
Access to Creamer Media's Research Channel Africa for ALL Research Reports, in PDF format, on various industrial and mining sectors including Electricity; Water; Energy Transition; Hydrogen; Roads, Rail and Ports; Coal; Gold; Platinum; Battery Metals; etc.

Already a subscriber?

Forgotten your password?

MAGAZINE & ONLINE

SUBSCRIBE

RESEARCH CHANNEL AFRICA

SUBSCRIBE

CORPORATE PACKAGES

CLICK FOR A QUOTATION