Technological and Environmental Behavior of Coal Fly Ash in Lime-Based Materials

Mamoudou Sall,Alassane Traoré,Prince Momar Gueye,Djibril Diop,Abdou Ciss Wade,Saliou Diouf,Gora Dieye

doi:10.4236/gm.2022.122002

Mamoudou Sall, Alassane Traoré + Show 5 more

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https://doi.org/10.4236/gm.2022.122002

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Journal: Geomaterials	Publication Date: Jan 1, 2022
Citations: 4	License type: CC BY 4.0

Affiliation: Cheikh Anta Diop University

Abstract

Coal fly ash is considered an industrial by-product derived from coal combustion in thermal power plant. It is one of the most complex anthropogenic materials. Its improper disposal has become an environmental concern and resulted in a waste of recoverable resources. The aim of this paper is to study the physico-chemical characteristics of binders based on coal fly ash and lime in order to develop an eco-cement. The various characterization tests carried out are X-ray fluorescence, X-ray diffraction, compressive strengths, thermophysical properties and setting time. X-ray fluorescence and X-ray diffraction were used to determine the chemical composition and phases of fly ash, lime and binders. This allowed us to see that the chemical composition of fly ash is similar to that of cement. Compressive strengths of mortars containing 20%, 40%, 60% and 80% of fly ash have shown that fly ash has a long-term positive effect which might be related to a pozzolanic activity. The L3 binder consisting of 60% of coal fly ash and 40% lime has a higher compressive strength than the others. The binder setting start time is greater than that of cement but shorter than that of lime. The study of the thermophysical properties of the L3 binder shows that it has a higher thermal resistance than cement mortar. Moreover, it heats up less quickly because of its low effusivity compared to that of the latter. This analysis highlighted the principal characteristics that must be taken into account to use coal fly correctly in lime-based materials.

Highlights

Cement plants are one of the main industries that emit toxic gases that pollute the atmosphere and contribute to global warming
The aim of this paper is to study the physico-chemical characteristics of binders based on coal fly ash and lime in order to develop an eco-cement
Regarding the problems related to the cost of construction in the building, air pollution such as greenhouse gases and energy expenditure for the production of cement, we propose to study the effect of the integration of the coal fly ash of the Senegalese Chemical Industries plant in lime, to produce an environmentally-friendly cement

Summary

Introduction

Cement plants are one of the main industries that emit toxic gases that pollute the atmosphere and contribute to global warming. Contribution to climate change by greenhouse gases (GHG) emissions in the atmosphere (CO2 in particular) which are around 7% from cement manufacturing is partly responsible for global warming [1] [2] [3] [4]. Friendly cement-based materials are a topic of interest and cement replacement materials play an important role in the construction industry considering economical, technological and ecological points of view [5] [6] [7]. Coal fly ash is considered as an industrial by-product derived from coal combustion in thermal power plants. It is one of the most complex anthropogenic materials. Its improper disposal has become an enviromental concern and resulted in a waste of recoverable resources

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