Life Cycle Impact Assessment of Recycled Aggregate Concrete, Geopolymer Concrete, and Recycled Aggregate-Based Geopolymer Concrete

Lahiba Imtiaz,Muhammad Ali Musarat,Fahid Aslam,Sardar Kashif-Ur-Rehman,Muhammad Faisal Javed,Wesam Salah Alaloul,Kashif Nazir

doi:10.3390/su132413515

Abstract

This study presents a life cycle impact assessment of OPC concrete, recycled aggregate concrete, geopolymer concrete, and recycled aggregate-based geopolymer concrete by using the mid-point approach of the CML 2001 impact-assessment method. The life cycle impact assessment was carried out using OpenLCA software with nine different impact categories, such as global warming potential, acidification potential, eutrophication potential, ozone depletion potential, photochemical oxidant formation, human toxicity, marine aquatic ecotoxicity, and freshwater and terrestrial aquatic ecotoxicity potential. Subsequently, a contribution analysis was conducted for all nine impact categories. The analysis showed that using geopolymer concrete in place of OPC concrete can reduce global warming potential by up to 53.7%. Further, the use of geopolymer concrete represents the reduction of acidification potential and photochemical oxidant formation in the impact categories, along with climate change. However, the potential impacts of marine aquatic ecotoxicity, freshwater aquatic ecotoxicity, human toxicity, eutrophication potential, ozone depletion potential, and terrestrial aquatic ecotoxicity potential were increased using geopolymer concrete. The increase in these impacts was due to the presence of alkaline activators such as sodium hydroxide and sodium silicate. The use of recycled aggregates in both OPC concrete and geopolymer concrete reduces all the environmental impacts.

Highlights

Concrete is the most widely used construction material and the second most-consumed substance on earth, after water [1]
The goal of the life cycle assessment (LCA) is to find out the impact of the inclusion of recycled aggregates (RA) in both concrete and geopolymer concrete (GPC) on the environment, and to compare the environmental impacts of four mixes, i.e., the Ordinary portland cement (OPC) concrete, RAC, GPC, and recycled aggregate geopolymer concrete (RAGC)
The numbers of impact categories are analyzed for four types of mixes, i.e., concrete mix, RAC, GPC, and RAGC

Summary

Introduction

Concrete is the most widely used construction material and the second most-consumed substance on earth, after water [1]. Ordinary portland cement (OPC) used in concrete production has detrimental effects on the environment due to the release of a high amount of greenhouse gas, especially CO2. One ton of CO2 is released by the production of one ton of OPC [1,2]. According to research conducted in Hawaii in the year 2020, it was reported that the amount of CO2 in the atmosphere reached the highest level of 417.1 ppm [3]. There exist other environmental issues, such as the dumping of construction and demolition wastes. It is crucial to develop environmentally sustainable solutions in the construction industry

Methods

Results

Conclusion