Abstract
Basic Oxygen Furnace Slag (BOF), as alternatives for aggregate in asphalt pavement construction, is beneficial to the environment by reducing land occupation and resource consumption. However, the quantitative effects on energy consumption and emissions reduction remains poorly understood due to the unavailability of local life cycle inventory. Therefore, its LCI needs to be built by accounting for the properties of BOF aggregate in terms of high porosity and dust content in BOF, the rainy interference condition that reducing efficiency in production, and transportation distance. Here we investigated the life cycle energy consumption and global warming potential (CO2-eq emission) of asphalt pavement incorporating BOF aggregate by performing a case study with uncertainty analysis. Five scenarios were elaborated and performed in the case study. The results show that the energy required for BOF production is 0.024 MJ/kg, approximately half the energy required for crushed stone of 0.044 MJ/kg. The pavements with BOF can reduce up to 12% of emission compared to ordinary pavement. Considerably more negative impacts of rainy weather on energy consumption of BOF than natural crushed stone can be concluded. Monte Carlo simulation indicates that the order of magnitudes of the energy values were varied, from materials extraction as the maximum contributor to transportation. The benefits for BOF utilization are gradually offset by increased transport distances and the displacement ratios of fine crushed stones, due to the increase in fuel and resource consumption for mixing, construction, and transportation.
Highlights
Introduction published maps and institutional affilRoad construction has an adverse effect on climate change
The local life cycle inventory was built for the utilization of Basic Oxygen Furnace Slag (BOF) in asphalt pavement via a case study
The energy required for crushed stone was determined to be 0.044 MJ/kg, which falls in the range of data from various Life Cycle Assessment (LCA) software and databases
Summary
The calculator used the data retrieved from the literature to estimate energy consumption and emission from the project. As a comparative study was adopted, the energy consumption and emission data of asphalt [21,22], filler [23,24] and cement [25] in asphalt mixture were all from peer reviewed literature and published research reports. For the equipment producing aggregate and paving asphalt mixtures, the energy consumption per kg was calculated as fuel consumption (L/h or kWh/h) multiplying working time (h) and conversion factor of fuel (e.g., MJ/L or MJ/kWh), and dividing by total mass (kg). The associated emission was calculated as energy consumption (MJ/kg), multiplying emission factors (e.g.,kg CO2-eq /kgenergy ) of various energy
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