Mathematical modelling of sustainable bioresidual concrete
Tuovinen, T., Leppänen, T., Parkkonen, J., Virkajärvi, J., & Turunen, L. (2019). Mathematical modelling of sustainable bioresidual concrete. In A. H. Niemi, & H. Koivurova (Eds.), NSCM 32 : Proceedings of the 32nd Nordic Seminar on Computational Mechanics, 24-25 October, 2019 (pp. 166-169). Oulun yliopisto. Raportti / Oulun yliopisto, Konetekniikka, 9. https://www.oulu.fi/sites/default/files/content/NSCM32_Proceedings_not_archived_0.pdf
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Raportti / Oulun yliopisto, KonetekniikkaDate
2019Copyright
© 2019 University of Oulu
In the production of cement, which is the main component of concrete production, the process generates about 5% of the global carbon dioxide emissions. In addition, bioproduct and pulp mills produce signi_cant quantities of soda ash and bio-ash, which is still largely unused. In this paper we will introduce our study related to improving the environmental friendliness of concrete used in construction by utilizing pulp mill waste while its long-term durability and strength and porosity properties meet the goals set for construction. The project `sustainable bioresidual concrete' is on-going and only preliminary numerical results with measurements are presented here.
Publisher
Oulun yliopistoParent publication ISBN
978-952-62-2420-6Conference
Nordic Seminar on Computational MechanicsIs part of publication
NSCM 32 : Proceedings of the 32nd Nordic Seminar on Computational Mechanics, 24-25 October, 2019ISSN Search the Publication Forum
2342-2599Keywords
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https://www.oulu.fi/sites/default/files/content/NSCM32_Proceedings_not_archived_0.pdfPublication in research information system
https://converis.jyu.fi/converis/portal/detail/Publication/33365629
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Related funder(s)
Council of Tampere RegionFunding program(s)
ERDF European Regional Development Fund, React-EUAdditional information about funding
This research is supported by Regional Council of Central Finland and European Regional Development Fund (ERDF) - Sustainable Bioresidual Concrete. Simulations are performed by commercial software ABAQUS which is licensed to CSC (the Finnish IT center for science).License
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