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A platform for research: civil engineering, architecture and urbanism
The influences and selection of grinding chemicals in cement grinding circuits
https://orcid.org/0000-0002-9823-3130
Highlights Industrial sampling campaigns were arranged for different grinding chemicals. Performances of each chemical were evaluated. The influences on milling and classification units were discussed. Economic evaluations were performed. A methodology on selecting the most feasible chemical was developed.
Abstract Within the study, the results of the test works performed around a cement grinding circuit in order to select the most appropriate option are presented. In this context, sampling campaigns were arranged with different grinding aids and mixed products then the influences were discussed by considering the changes in production rate, equipment performance, energy consumption, cement quality and clinker saving parameters. The results implied that the production rate of the circuit and the 28-day strength of the cement could be increased by 24% and 3.5% respectively with the selection of an appropriate chemical. In addition, the use of chemicals may reduce the clinker consumption by 5% that is important regarding to CO2 emissions. The studies concluded that triethanolamine based chemical had better performance parameters than the other types.
The influences and selection of grinding chemicals in cement grinding circuits
https://orcid.org/0000-0002-9823-3130
Highlights Industrial sampling campaigns were arranged for different grinding chemicals. Performances of each chemical were evaluated. The influences on milling and classification units were discussed. Economic evaluations were performed. A methodology on selecting the most feasible chemical was developed.
Abstract Within the study, the results of the test works performed around a cement grinding circuit in order to select the most appropriate option are presented. In this context, sampling campaigns were arranged with different grinding aids and mixed products then the influences were discussed by considering the changes in production rate, equipment performance, energy consumption, cement quality and clinker saving parameters. The results implied that the production rate of the circuit and the 28-day strength of the cement could be increased by 24% and 3.5% respectively with the selection of an appropriate chemical. In addition, the use of chemicals may reduce the clinker consumption by 5% that is important regarding to CO2 emissions. The studies concluded that triethanolamine based chemical had better performance parameters than the other types.
The influences and selection of grinding chemicals in cement grinding circuits
https://orcid.org/0000-0002-9823-3130
Highlights Industrial sampling campaigns were arranged for different grinding chemicals. Performances of each chemical were evaluated. The influences on milling and classification units were discussed. Economic evaluations were performed. A methodology on selecting the most feasible chemical was developed.
Abstract Within the study, the results of the test works performed around a cement grinding circuit in order to select the most appropriate option are presented. In this context, sampling campaigns were arranged with different grinding aids and mixed products then the influences were discussed by considering the changes in production rate, equipment performance, energy consumption, cement quality and clinker saving parameters. The results implied that the production rate of the circuit and the 28-day strength of the cement could be increased by 24% and 3.5% respectively with the selection of an appropriate chemical. In addition, the use of chemicals may reduce the clinker consumption by 5% that is important regarding to CO2 emissions. The studies concluded that triethanolamine based chemical had better performance parameters than the other types.
The influences and selection of grinding chemicals in cement grinding circuits
Toprak, N. Alper (author) / Altun, Okay (author) / Aydogan, Namık (author) / Benzer, Hakan (author)
Construction and Building Materials ; 68 ; 199-205
2014-06-30
7 pages
Article (Journal)
Electronic Resource
English
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