Environmental impact analysis of geopolymer based red mud paving blocks

Red mud is a by-product from alumina industry. Global production of red mud was around 369 million tons in 2023, and India contributed over 6% of total. Landfilling of red mud may leach out heavy metals to soil and water, which could have negative consequences for the ecosystem. Incorporating the re...

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Bibliographic Details
Published in:Discover Applied Sciences 2024-10, Vol.6 (10), p.537-12, Article 537
Main Authors: Meshram, Rohit B., Mohapatra, Abhisek, Malakar, Sushanto, Gupta, Pradeep Kumar, Sahoo, Durga P., Nath, Susanta Kumar, Alex, Thomas C., Kumar, Sanjay
Format: Article
Language:English
Subjects:
Acidification
Alumina
Aluminum oxide
Analytical chemistry
By products
Carbon dioxide
Caustic soda
Cement
Climate change
Depletion
Ecological footprint
Environmental impact
Environmental impact assessment
Geopolymer
Geopolymers
Global warming
Heavy metals
Impact analysis
Landfills
Life cycle assessment
Mud
Particle size
Paver
Paving
Plant layout
Power plants
Raw materials
Red mud
Silica
Sodium
Software
Soil water
Sulfur dioxide
Titanium
Toxicity
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Summary:Red mud is a by-product from alumina industry. Global production of red mud was around 369 million tons in 2023, and India contributed over 6% of total. Landfilling of red mud may leach out heavy metals to soil and water, which could have negative consequences for the ecosystem. Incorporating the red mud in a geopolymer matrix is a safe option. This paper aims to analyse the environmental impact of the 1.0 m3 red mud containing geopolymer paving blocks using GaBi (Indian extension database) software. The data used for the analysis was generated from the studies conducted in continuous geopolymer pilot plant (10 tons/day). The analysis shows the major contributions from alkali activators and electricity. Red mud paving blocks exhibit global warming potential (275 kg CO2 eq.), human toxicity (51.7 kg DCB eq.), and terrestrial ecotoxicity potential (0.441 kg DCB eq.). Red mud blocks have similar acidification (1.65 kg SO2 eq.) and abiotic depletion potential (fossil) (3080 MJ) on comparison with cement paving blocks. Red mud geopolymer paving blocks offer a sustainable alternative with the reduced environmental footprint compared to conventional methods.HighlightsRed mud paving blocks seems to be more sustainable than traditional cement paving blocks. Red mud paving blocks exhibit lower global warming (21.6%), human toxicity (50%) and terrestrial ecotoxicity (38.9%) potential compared to cement paver. Abiotic depletion (fossil) and acidification potential are nearly same for both paving blocks.
ISSN:3004-9261
2523-3963
3004-9261
2523-3971
DOI:10.1007/s42452-024-06253-x