Cement grinding is energy-intensive. Process technology optimisation and the optimal utilisation of grinding units can significantly enhance the efficiency of the comminution process. The products obtained from high-efficiency grinding plants do not however fully satisfy the requirements of the European market.
The introduction of a further degree of freedom in production in the form of separate finest grinding has so far not been implemented in the cement industry. The pinpointed use of superfine and coarse particles considerably improves the void filling of loose cement and thus the cement properties. Specific power demand for multi-stage, adapted finest comminution is reduced. Influencing of the particle size distribution under near-practical conditions permits control of the hydration process and strength development. Small finest grinding units are less capital-intensive and mixing with separate fine ground particles can be performed directly in existing mixing equipment. The modelling of mixtures provides a more profound insight into the effect of particle shape and particle size distribution on void filling and thus on the cement properties.
The design of particle size distributions can promote the use of new cement constituents over the long term. Cement properties are optimised, the CO2 balance is improved through clinker substitution and more sustainable use can be made of resources.