Environmental risks and mechanical evaluation of recycling red mud in bricks

Arroyo, F.; Luna-Galiano, Y.; Leiva, C.; Vilches, L. F.; Fernandez-Pereira, C.

Abstract

More and more by-products are being used in certain materials, especially in the construction industry. Natural construction materials contain amounts of heavy metals and radionuclides, but when by-products are used in these kinds of materials, this could lead to a growth in their concentrations and have a negative impact on public health. In this paper, red mud was used as a raw material (as a clay substitute) to manufacture fired bricks. Physical, mechanical, radiological and heavy metal leaching properties of fired bricks with a replacement ratio of up to 80 wt% of clay to red mud are discussed. In addition, the effect of different sintering temperatures (1173K and 1373K) was analyzed, and results showed that the higher the temperature produced, the higher the mechanical strength. To environmentally characterize materials, they were subjected to two different leaching tests: a batch test for raw materials and a monolithic test for the bricks, respectively. The results obtained were compared with the limits stated for several heavy metals by the European Landfill Directive. Results showed that red mud gives leachate concentration values for Cr higher than the limits stated for non-hazardous by-products. Bricks do not exhibit the same problem in the samples containing a high RM proportion and manufactured at a low sintering temperature (1173K), although in the case of V, a high concentration is observed. The contents of radionuclides such as Ra-220, Th-232 and K-40 of the final construction materials were analyzed and compared with different indexes. This paper indicates the maximum amounts of RM that can be used to replace clay for the manufacture of fired bricks without environmental risk.

Más información

Título según WOS: ID WOS:000548186300068 Not found in local WOS DB
Título de la Revista: ENVIRONMENTAL RESEARCH
Volumen: 186
Editorial: ACADEMIC PRESS INC ELSEVIER SCIENCE
Fecha de publicación: 2020
DOI:

10.1016/j.envres.2020.109537

Notas: ISI