Blending of mining wastes from the Hammam Zriba mine (Northeast Tunisia) with the primary ingredients of clinkers: an evaluation of effects on gray Portland clinker properties

The present work focuses on the effects of the blending of mining wastes from the Hammam Zriba mine (Northeast Tunisia) with the primary ingredients of Portland clinker properties. The raw mix was composed of limestone, sand, and clay sampled from the Sidi Bouzid area in Central Tunisia. The used mi...

Full description

Saved in:
Bibliographic Details
Published inArabian journal of geosciences Vol. 13; no. 16
Main Authors Jabli, Ikram, Aloui, Tahar, Hayouni, Yousra, Gallala, Wissem, Khaled, Houda, Gaied, Mohamed Essghaier, Chaabani, Fredj, Plank, Johann
Format Journal Article
LanguageEnglish
Published Cham Springer International Publishing 01.08.2020
Springer Nature B.V
Subjects
Barium
Blending effects
Calcium
Calcium aluminum ferrite
Clay minerals
Clinker
Dicalcium silicate
Earth and Environmental Science
Earth science
Earth Sciences
Economics
Greenhouse effect
Greenhouse gases
Ingredients
Lime
Limestone
Mine wastes
Mineral composition
Mining
Original Paper
Properties
Strontium
Sulfur
Sulphur
Tricalcium aluminum ferrite
Tricalcium silicate
Waste management
Wastes
Tunisia
Clinker
Eco-cement
Hammam Zriba mine
Mining waste
Mineralizer
Online AccessGet full text

Cover

More Information
Summary:The present work focuses on the effects of the blending of mining wastes from the Hammam Zriba mine (Northeast Tunisia) with the primary ingredients of Portland clinker properties. The raw mix was composed of limestone, sand, and clay sampled from the Sidi Bouzid area in Central Tunisia. The used mining wastes are composed essentially of barium, sulfur, and strontium and associated with calcium. Results show that it is possible to use these wastes to formulate an ecological clinker with high quality. The reference clinker is composed of C3S (67.8%), C2S (7.9% β-C2S and 7.15% α-C2S), and C3A (10.3%), associated with small quantities of C4AF. The incorporation of 2% of wastes does not lead to any significant change in mineral composition. The addition of 4% of wastes promotes the decomposition of alite into α-C2S (7.1 to 13.7%) and β-C2S (7.9 to 9.6%). In contrast, the clinker melt exhibits a slight drop of ferrite (5.3 to 3.1% C4AF) and a quasi-unchanged level of cubic-C3A. Greater incorporation of wastes tends to establish the mineral distribution as the reference. The amounts of free lime low when the addition of wastes is lower than 4% (< 2.28%). Higher addition (8%) shifts the free lime levels in particular for pure C3A and C3S (15.6 and 6% respectively). For the reference, free lime levels remain low (< 1%). This result bears relevant environmental and economic aspects by limiting greenhouse gas emissions, enhancing the production of low-cost gray cement, reducing the impacts of mining wastes, and opening an alternative for mining wastes management.
ISSN:1866-7511
1866-7538
DOI:10.1007/s12517-020-05790-0