Abstract
PurposeThis study aims to establish a regionalized environmental impact assessment of construction machinery equipped with diesel engines certified by the European emission standard Stage V, and operated in cold climatic zones in Europe.MethodThe study quantifies potential environmental impacts associated with construction machinery over the entire lifecycle, from extraction of materials to the end-of-life. For the operation phase, a meso-level emission accounting method is applied to quantify tailpipe emissions for certain subcategories of construction machinery. This is achieved by determining the operational efficiency of each machine in terms of effective hours. The quantified emission data are then adjusted based on engine deterioration models to estimate the rate of increase in emissions throughout the lifetime of each machine. Finally, the CML impact assessment method is applied to inventory data to quantify potential environmental impacts.ResultsThe study shows that tailpipe emissions, which largely depend on an engine’s fuel consumption, had the largest contribution to environmental impacts in most impact categories. At the same time, there was a positive correlation between the operation weight and the impacts of the machinery. Also, machinery with similar operation weight had relatively similar impact patterns due to similar driving factors and dependencies. In addition, network, sensitivity, and uncertainty analyses were performed to quantify the source of impacts and validate the robustness of the study. Results of the sensitivity analysis showed that the responsiveness of the studied systems is very sensitive to changes in the amount of fuel consumption. In addition, the uncertainty results showed that the domain of uncertainty increased as the operation weight subcategory of machinery increased.ConclusionThis study extends previous work on the life cycle assessment (LCA) of construction machinery, and the methodology developed provides a basis for future extension and improvement in this field. The use of effective hours as the unit of operational efficiency helps to resolve uncertainties linked to lifetime and annual operation hours. Also, the obtained results can be of use for decision support and for assessing the impacts of transition from fossil fuels to alternative fuel types.
Highlights
Responsible editor: Alexander PasserElectronic supplementary material The online version of this article contains supplementary material, which is available to authorized users.In any civil engineering project, the use of machinery is an inevitable part of construction works
The tailpipe impacts from the combustion of diesel fuel during the operation phase dominate the results for the global warming potential (GWP) and Photochemical oxidation (PO) impact categories
It is worthwhile to remember that “the heavier, the more environmental impacts” statement compares only construction machinery belonging to the same category and performing under similar operating condition.) This is predominantly because of the higher fuel consumption associated with heavier machinery, especially when performing more difficult tasks
Summary
In any civil engineering project, the use of machinery is an inevitable part of construction works. Construction machinery is designed to carry out various tasks and sometimes to repurpose parts of the ground. Diesel fuel has predominantly been the main source of energy for most construction machinery (Lewis and Rasdorf 2017), and as the result, different tailpipe pollutants are discharged to the air (Bruce et al 2001). Various solutions and approaches have been suggested to reduce emissions in the construction machinery domain. These solutions have been intended to mitigate emissions and phase out the most pollinating machinery.
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