The combined influence of different compositions of grinding media and surfactants on the efficiency of the clinker grinding process

Objective. Currently, cement is crushed in mills to a specific surface area of 2500-3000 and 3500-4500 cm²/g or more. Further grinding of clinker sharply worsens the properties of the resulting product. The purpose of the study is to ensure maximum efficiency of the grinding process by determining the optimal combined influence of a different assortment of grinding media and surfactants.

Method. When grinding the material, a surfactant (surfactant) is introduced. Triethalamine (TEA) was used as a surfactant – grinding intensifier. Triethalamine is added immediately before grinding into the mill, in an amount of 0.03% in terms of dry matter of the mass of clinker loaded into the mill.

Result. By adding a surfactant when grinding clinker, you can obtain a finished product, while the grinding time is reduced by 1.5 times.

Conclusion. The results of experimental studies indicate a significant influence of different compositions of grinding media on the resulting grain composition and properties of cement.

1. Annenko D.M. study of the processes of formation of the grain composition of cement in closed-cycle ball mills. Dissertation for the degree of Candidate of Technical Sciences. Belgorod State Technological University named after. V.G. Shukhova. Belgorod, 2009. (In Russ.)

2. Barbanyagre V.D., Stronin A.A. Study of the influence of the diameter of a large ball in the grinding charge of an open circuit mill on the dispersion characteristics of clinker. Bulletin of V.G. Shukhov Belgorod State Technological University named after.. 2018; 5:60-65. (In Russ.)

3. Bogdanov V.S., Antsiferov S.I., Bogdanov D.V., Sychev E.A. State and directions of development of grinding equipment and technology. Bulletin of V.G. Shukhov Belgorod State Technological University. 2022; 7: 110-116. (In Russ.)

4. Budnikova V.S. Use of grinding intensifiers for the production of cements. In the collection: Education, science, production. V.G. Shukhov Belgorod State Technological University 2015;. 26-29.

5. Gerasimov M.D., Latyshev S.S., Bogdanov N.E., Loktionov I.O. Review of design solutions in the field of grinding mills. In the collection: Energy-saving technological complexes and equipment for the production of building materials. Interuniversity collection of articles. Ed.by V.S. Bogdanov. Belgorod, 2018: 132-146. (In Russ.)

6. Zhukov V.P., Mizonov V.E. Optimal distribution of grinding media sizes along the length of drum mills. Theoretical foundations of chemical technology. 1995; 29(6):646-650. (In Russ.)

7. Zhukov V.P., Ushakov S.G. Optimal size distribution of grinding media in drum mills in a collection: intensification of processes of mechanical processing of bulk materials. Interuniversity collection of scientific papers. Ivanovo, 1987; 40-43. (In Russ.)

8. Malyshev V.P., Bekturganov N.S., Makasheva A.M., Zubrina Yu.S. Probabilistic model of materials grinding as a self-organization operator and process attractor. Non-ferrous metals. 2016;2(878):33-39. (In Russ.)

9. Malyshev V.P., Zubrina Yu.S., Yun A.B., Sinyanskaya O.M. Adaptation of a probabilistic grinding model to the operation of ball drum mills. Non-ferrous metals. 2017;10:17-24. (In Russ.)

10. Nesmeyanov N.P., Brazhnik Yu.V., Matusov M.G., Koroleva L.A., Denisova E.M. The influence of physical and mechanical conditions of cement grinding on the efficiency of the grinding process in ball mills. In the collection: Energy-saving technological complexes and equipment for the production of building materials. Interuniversity collection of articles. The issue is dedicated to the 50th anniversary of the Department of Mechanical Equipment. Belgorod, 2020. (In Russ.)

11. Nesmeyanov N.P., Sintsov D.I., Buzadzhi I.S. Intensification of the grinding process in tube mills. In the collection: Energy-saving technological complexes and equipment for the production of building materials. Interuniversity collection of articles. Ed. V.S. Bogdanov. Belgorod, 2014:185-187. (In Russ.)

12. Potapov F.P. Intensification of the grinding process in ball drum mills. Dissertation for the degree of Candidate of Technical Sciences. V.G. Shukhov Belgorod State Technological University, 2011 (In Russ.)

13. Stalinsky D.V., Rudyuk A.S., Soleny V.K. The effectiveness of using small-diameter grinding balls for grinding cement. Steel. 2022; 6:15-19. (In Russ.)

14. Sharapov R.R. Scientific basis for creating technological cement grinding systems based on closed-cycle ball mills. Dissertation.Dr. Sci. Eng. V. Shukhov Belgorod State Technological University, 2009 (In Russ.)

15. Sharapov R.R. Efficiency of closed cycle grinding systems based on ball mills. In the collection: Current problems of the construction industry and education. Collection of reports of the First National Conference. 2020: 277-282. (In Russ.)

16. Shakhova L.D., Cherkasov R.A. Intensification of the clinker grinding process using grinding intensifiers. Bulletin of V.G. Shukhov Belgorod State Technological University 2014; 4: 148-152. (In Russ.)

17. A.A. Krutilin, T.V. Krapchetova, N.A. Inkova, O. K. Pakhomova. Dependence of energy consumption in terms of 1 m3 of concrete when using cements of different specific surface. Herald of Daghestan State Technical University. Technical Sciences. 2022; 49(1):133-139. (In Russ.)