Abstract
In the raymond mill grinding process, precise control of operating load is vital for the high product quality. However, strong external disturbances, such as variations of ore size and ore hardness, usually cause great performance degradation. It is not easy to control the current of raymond mill constant. Several control strategies have been proposed. However, most of them (such as proportional–integral–derivative and model predictive control) reject disturbances just through feedback regulation, which may lead to poor control performance in the presence of strong disturbances. For improving disturbance rejection, a control method based on model predictive control and disturbance observer is put forward in this article. The scheme employs disturbance observer as feedforward compensation and model predictive control controller as feedback regulation. The test results illustrate that compared with model predictive control method, the proposed disturbance observer–model predictive control method can obtain significant superiority in disturbance rejection, such as shorter settling time and smaller peak overshoot under strong disturbances.
Highlights
The raymond mill is an important mechanical equipment and widely used in fine powder production, for example, in the production of silicon carbide powder.[1,2] It grinds to obtain fine powder products with special size range
The key goals of raymond mill are to guarantee the stability of the powder product size and precise control of operating load, which require the effective control of the feed rate of fresh ore.[2]
The strong external disturbances including the variations of feed ore size ds and ore hardness dh will result in the fluctuation of the current of raymond mill
Summary
The raymond mill is an important mechanical equipment and widely used in fine powder production, for example, in the production of silicon carbide powder.[1,2] It grinds to obtain fine powder products with special size range. The key goals of raymond mill are to guarantee the stability of the powder product size and precise control of operating load, which require the effective control of the feed rate of fresh ore.[2] various disturbances, including external ones and internal ones (model mismatch), always exist.
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