Utilization of Waste from Thermal Power Plants in High Performance Materials’ Production

Inna Maltseva; Svetlana Kurilova; Alexey Naumov

doi:10.4028/www.scientific.net/MSF.1011.109

Paper Titles

The Glass Powders’ Dispersion Effect on the Glass-Reinforced Concrete Performance Properties
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Theoretical Substantiation of the Foam Concrete Strength Formation Laws
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Mass Compositions Calculation on the Basis of Argillites at Ceramic Tiles Production
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The Effect of Fine Dispersed Slag Component on the Slag Portland Cement Properties
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Utilization of Waste from Thermal Power Plants in High Performance Materials’ Production
p.109

Raw Materials in East Donbass Based on Waste Piles Processing Screenings for the Large-Sized Ceramic Stones’ Production
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Investigation of the Various Binders’ Effect on the Lime Binder Carbonate Hardening Process for its Use in Additive Technologies
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Fiber Foam Tuffcrete Structure and Properties Formation on the Basis of Volcanic Tuff Dusting Waste
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Gypsum-Cement Composites Based on Volcanic Ash
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HomeMaterials Science ForumMaterials Science Forum Vol. 1011Utilization of Waste from Thermal Power Plants in...

Utilization of Waste from Thermal Power Plants in High Performance Materials’ Production

Abstract:

One of the effective ways to solve the environmental problems of the region at present is the waste disposal from Novocherkasskaya TPP, one of the largest sources of environmental pollution. The solution to this problem is associated with the integrated use of ash and slag mixtures components in the effective building materials’ production. On the TPP waste basis, the authors obtained structural and heat-insulating concrete with enhanced physical, mechanical and operational characteristics.

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Periodical:

Materials Science Forum (Volume 1011)

Pages:

109-115

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.1011.109

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Online since:

September 2020

Authors:

Inna Maltseva*, Svetlana Kurilova, Alexey Naumov

Keywords:

High Performance Materials, Lightweight Concrete, Microspheres, Porous Aggregate, Thermal Insulation Materials, Waste Management

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References

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