Improve operations without capital expense – get more out of your plant by applying advanced control in your existing PCS.
Modern plant control systems (PCS) whether Programmable Logic Controllers (PLC) or Distributed Control Systems (DCS), are extremely powerful process control and automation engines. In the mining industry these systems are used extensively for basic control functions, yet their use for more advanced process control is surprisingly less common. This is wasteful of the capabilities inherent in the PCS, as the use of advanced control in the PCS to stabilise and optimise mineral processing plants can lead to significant economic benefits.
SAG milling is arguably the most commonly used method of comminution in mineral processing. So why are so many SAG mills operating sub-optimally and why are they considered to be so difficult to control?
Operators often consider that the basic controls provided during commissioning are as ‘good as it gets’. Those that do seek improved performance often reach for a ‘packaged’, third-party solution. Few consider the capabilities that they have already paid for – in their PCS!
The ‘third-party package’ is an expensive and unnecessary capital expenditure. It adds yet another computer system to the control ecosystem and requires integration, maintenance and expert proprietary knowledge.
Optimise underperforming assets and remove the need for capital expenditure: Optimal control of the SAG mill can be achieved by using existing DCS or PLC.
It is commonly assumed that SAG mill control can only be successfully implemented using “black-box” solutions, this is just not true. By black-box solutions we are referring to advanced control algorithms or solutions which are contained in a separate computer, interfaced to the PCS. Another common name is “off-the-shelf” solutions, which is a misnomer since these systems require a considerable amount of setup and configuration.
SAG mill control fundamentally means managing the load in the mill by adjusting the feed-rate of ore to the mill and/or manipulating the rotational speed of the mill. The best way to measure load is to mount the mill on load cells. The load cells are calibrated to measure the total weight of water, grinding media (balls) and ore in the mill, but not the weight of the mill itself. While many mills today are mounted on load cells others employ bearing oil pressure as a proxy measurement of mill load.
Why use my existing Plant Control System to improve SAG Mill Control?
• No capital expenditure.
• One system controls all of your plant (No split responsibilities)
o For example, PCS are good at implementing routine control functions such as ratio control
• No additional learning curve for operations and maintenance personnel.
o Control strategies implemented in the PCS can be developed and maintained by existing plant personnel
• No proprietary software or system requiring specialist support
• Control loop structures degrade gracefully – this is a natural consequence of the loop “topology”.
• Many modern DCS systems are equipped with a 3rd or 4th generation computer language which can be used to implement complex logic structures which human operators perform.
• There is no need to deal with interfaces to separate computers. Complexity is reduced while robustness is increased.
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Author: Article by Andrew Thornton who is a mineral processing and advanced process control expert and MIPAC’s Principal Process Control Engineer.
More Information: SAG Mill Control
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