Shift in thinking positive for uptake of new tech

5th May 2017

By: Tasneem Bulbulia

Senior Contributing Editor Online

     

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Mineral processing specialist Multotec is taking advantage of the prioritisation of water recovery and treatment in mining operations by creating awareness in the industry about its unconventional water treatment methods.

Multotec’s Samplers, Solid/Liquid and Magnetic Separation (SSM) division GM, Bheka Majola tells Mining Weekly that mines predominantly use sedimentation as the conventional method of recycling water. While he commends its cost effectiveness, Majola indicates that it is not efficient, with a large percentage of water lost to evaporation and seepage.

Subsequently, ‘makeup’ water is required to compensate for this deficit, which is sourced from municipalities or boreholes close to the mine, with mines located in water-restricted areas relying entirely on municipal water. Further, mines that use a borehole to source water rely on the strength of the borehole. Most mines rely, however, on municipalities for fresh water – albeit to varying degrees – and are, therefore, susceptible to the penalties and problems this presents.

Majola says mines located in areas with water restrictions are the most susceptible to a surcharge by municipalities for excessive water use, but clarifies that they have not yet been adversely affected, as recent rains suspended the implementation of these proposed penalties for heavy industrial users. However, he believes that, in future, the threat of enforcement of such penalties will definitely affect water use by mines.

Multotec SSM division process engineer Carien van der Walt reinforces this sentiment, noting that, as the supply of water in South Africa becomes more constrained, the cost of water will increase exponentially as municipalities try to enforce reduced water consumption.

Unconventional Technology

Van der Walt laments that water treatment by mines has been regarded as a “grudge purchase” because, although they are obligated to do so, it does not impact on production and costs enough to warrant its being a primary focus.

Multotec is involved in moving away from conventional water treatment methods and this mindset. Traditionally a mining equipment supplier, the company shifted its focus to water recovery and treatment following the creation of its water treatment division in 2013.

Van der Walt emphasises the troublesome nature of mine water because, as it comes into contact with ores, for example, during processing, it becomes difficult to treat.

To address the situation, Multotec is preparing the local market for continuous ionic filtration (CIF) technology, which it acquired in 2014 from its Australia-based partner, Clean TeQ.

CIF enables mines to treat water on site, producing water of potable quality. Van der Walt says the operating cost of treating water will be less than the cost of actually buying it from municipalities and will also produce higher levels of water recovery than those of conventional technology. “You’re essentially producing less waste in the process of actually treating this water.”

The Clean-iX technology also facilitates the recovery of metals from water streams, thereby creating an additional value stream other than the low-cost water. Van der Walt enthuses that this potentially produces valuable metals that the mine can sell in addition to its standard output.

The company is pioneering the distribution of CIF in Africa through the development of a market for this technology by educating the mining industry on CIF’s benefits, as well as conducting testwork and compiling case studies for its application.

Majola says driving the uptake of the technology has been particularly challenging, given that water and water treatment have not been “top of mind” in the mining industry. The introduction of CIF has been negatively affected by people being wary of new products, owing to the capital costs involved in implementation. With the technology being introduced during a period when capital investment was “few and far between” in the mining industry, further difficulties were encountered in educating customers on the product.

Further, CIF is ideal for tackling acid mine drainage (AMD), Majola points out, noting that Multotec has approached companies involved in AMD treatment to illustrate how CIF complements their work.

Van der Walt says AMD, caused by South Africa’s long gold mining history, is a “legacy” issue, especially in the Witwatersrand area. AMD is currently regulated, with treatment being mandatory for mine owners, which was not the case before.

Therefore, old, unused mines are problematic, as they contain AMD and this contaminated water can rise to the surface or overflow into interconnected mines. This is compounded by the difficulty in determining who owns these mines and, subsequently, ascribing responsibility regarding their rehabilitation with government to treat AMD. Majola states, however, that, if the water can be successfully treated to a potable standard, it presents a valuable water resource.

Polishing Process

Multotec is also actively aiming to educate the mining industry on the benefits and opportunities provided by its polishing filter, the Ishigaki Fibre-Wakishimzu (FW), licensed by the company in 2014 from its Japanese partner manufacturer and equipment designer Ishigaki, which can be used as a clarifier in applications such as underground water seepage treatment.

Majola indicates that natural water seepage is par for the course in underground mining operations, which becomes contaminated as it comes into contact with the ore, producing water that contains suspended solids and, in some cases, acid mine water. Seepage is collected and cleaned in clarifiers, the overflow of which goes into what is termed clear-water dams.

He notes that this water contains suspended solids, despite being clarified, resulting in a lot of settling, even in the dam. The solids settled in the clear-water dams have to be regularly cleaned out of the dam, a time-consuming and maintenance-intensive process, as this requires constant monitoring and cleaning, says Majola. Further, the pumps used in the process to pump the clear water to surface are also subject to wear, as they are sensitive to suspended solids.

The FW polishing filter circumvents this wear – decreasing the need for maintenance and associated costs – by providing an extra step to filter out and reduce suspended solids. Underground water seepage is subsequently treated underground and then clearer water is pumped to surface to be used as raw water. The filter also eliminates the constant need to clean out the clear-water dams.

Majola says that the filter’s small, compact and lightweight qualities allow for easy use in confined underground spaces and notes that its design and size make it easier to maintain. Van der Walt adds that the filter’s power consumption is less than that of conventional filters.

A challenge in implementing this technology was identifying applications where suspended solids were relatively low, about less than 100 parts per million, with little variation in the suspended solids, as the polishing filter is sensitive to these factors. This was mitigated by focusing only on applications that fit these criteria.

Edited by Tracy Hancock
Creamer Media Contributing Editor

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