Publication detail

Belite rich cement – a more environmentally friendly alternative to ordinary Portland cement

CÁBA, V. SEDLAČÍK, M. ILIUSHCHENKO, V. KALINA, L.

Original Title

Belite rich cement – a more environmentally friendly alternative to ordinary Portland cement

Type

conference paper

Language

English

Original Abstract

Today, the attention of many research teams in various industries is focused on reducing greenhouse gas emissions, especially reducing carbon dioxide production. Ordinary Portland cement (OPC) regarding the scale of its production around the world (annual production is around 3 Gt) is a major contributor to the carbon dioxide produced. Approximately one ton of CO2 is formed per ton of Portland clinker. Thanks to this, there is a general effort to find a suitable alternative that would partially or even fully replace the OPC. One of the possible alternatives is to burn the clinker to a lower temperature (1 250 – 1 300 °C) and thus obtain clinker where the majority phase will be belite instead of alite. Belite-rich clinker is currently used for types of cement with low heat of hydration and good durability properties. For this reason, there is a growing interest in this non traditional cement. In this study, several points concerning belite-rich clinker production were examined: (i) the optimal C/S ratio to result in belite, (ii) the optimum firing temperature, and (iii) the potential impact of the temperature shift on the composition.

Keywords

Low energy cement, environmentally friendly cements, belite-rich cement.

Authors

CÁBA, V.; SEDLAČÍK, M.; ILIUSHCHENKO, V.; KALINA, L.

Released

14. 10. 2022

Publisher

Scientific.net

ISBN

978-3-0364-0171-3

Book

Solid State Technologies and Modern Production

ISBN

1662-9779

Periodical

Solid State Phenomena

State

Swiss Confederation

Pages from

123

Pages to

128

Pages count

6

URL

BibTex

@inproceedings{BUT176164,
  author="Vladislav {Cába} and Martin {Sedlačík} and Valeriia {Hrubá} and Lukáš {Kalina}",
  title="Belite rich cement – a more environmentally friendly alternative to ordinary Portland cement",
  booktitle="Solid State Technologies and Modern Production",
  year="2022",
  journal="Solid State Phenomena",
  pages="123--128",
  publisher="Scientific.net",
  doi="10.4028/v-97ee16",
  isbn="978-3-0364-0171-3",
  issn="1662-9779",
  url="https://www.scientific.net/"
}