Optimisation Aspects of Compressive Crushing
Paper in proceedings, 2008

Compressive crushing is applied in crushing plants used in mineral, mining, and aggregate industry for fragmentation of rock materials. From a global perspective, the total volume of crushed rock is massive and corresponds to several billion tons. All societies have to fulfil a daily need of rock material products and its derivatives such as metals and minerals. The business for metals and minerals is global while the aggregates production is mainly a local industry. This paper presents a broader overview of optimisation with respect to product yield, use of natural resources and energy consumption. High level plant optimisation of compressive crushing plants is covered as well as real-time optimisation and optimisation of single production units. Each of three optimisation areas are presented and a discussion around how these three areas will be able to communicate with each other is given. Several models, e.g. process performance behaviour with respect to wear, as well as fitness functions can be common for all three areas. Well-defined and representative fitness functions are of the utmost importance in order to assure that the optimisation results reflect the production targets. It is concluded that great benefits can be achieved by linking together different areas of optimisation. The future for compressing crushing lies, without a doubt, in tailored processes both with respect to machines optimised for each customer, plant parameters and operation routines as well as an on-line adjustment, which takes into account current information and control possibilities.



Fitness function


Magnus Evertsson

Chalmers, Product and Production Development, Product Development

Erik Hulthén

Chalmers, Product and Production Development, Product Development

Elisabeth Lee

Chalmers, Product and Production Development, Product Development

Per Svedensten

Proceedings of the XXIV International Mineral Processing Congress

Vol. 1 40-49

Subject Categories

Mineral and Mine Engineering

Production Engineering, Human Work Science and Ergonomics

Other Mechanical Engineering

Other Materials Engineering

Other Civil Engineering

Areas of Advance




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