Sustainable Approaches for Highway Runoff Management During Construction and Operation
Doctoral thesis
Published version
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https://hdl.handle.net/11250/3043340Utgivelsesdato
2022Metadata
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Originalversjon
Ghorbani Mooselu, M. (2022). Sustainable Approaches for Highway Runoff Management During Construction and Operation [Doctoral dissertation]. University of Agder.Sammendrag
Environmentally friendly approaches for highway runoff management during construction and operation are considered in this project. First, the state of the art in runoff management in terms of characterization, treatment, and modeling approaches were surveyed, and knowledge gaps were identified. Then, the characterization and treatment of tunneling wastewater (by natural and chemical coagulants) was investigated. In the next stage, the vulnerability of water quality to road construction activities was investigated by analyzing field monitoring data. In addition, two different approaches, involving information theory and gamma test theory, were suggested to optimize the water quality monitoring network during road construction. Lastly, the application of satellite data (i.e., Sentinel-2 Multi-Spectral Imager satellite imagery products) for water quality monitoring was examined. Based on the results, it can be shown that site-specific parameters (e.g., climate, traffic load) cause spatiotemporal variation in the characterization of highway runoff and performance of best management practices (BMP) to protect water quality. There is a knowledge gap regarding the characterization of highway runoff under different climatic scenarios, as well as the continuous monitoring and assessment of roadside water bodies. Analysis of the field monitoring data indicates that blasting, area cleaning, and construction of water management measures have the highest impact on surface water quality during road construction. Additionally, the application of information theory and gamma test theory indicate that the primary monitoring network assessed here is not optimally designed. The number and spatial distribution of monitoring stations could be modified and reduced, as the construction activities vary over time. Additionally, the suggested remote sensing techniques applied in this project are able to estimate water quality parameters (i.e., turbidity and chlorophyll-a) in roadside water bodies with a reliability consistent with field observations, reflecting the spatiotemporal effects of road construction and operations on water quality. Finally, an efficient two-step treatment strategy (15 min sedimentation followed by chemical coagulation and 45 min sedimentation) is suggested for the treatment of tunneling wastewater. The optimum coagulant dosages in the jar test exhibit high treatment efficiency (92-99%) for both turbidity and suspended solids (SS), especially for particle removal in the range of 10-100 μm, which is hard to remove by sedimentation ponds and may pose serious threats to the aquatic ecosystem. It is hoped the knowledge generated by this project will help decision-makers with management strategies and support UN Sustainable Development Goals (SDGs). The proposed approaches directly contribute to managing highway runoff and achieving SDG 6 (clean water and sanitation) and especially target 6.3 (water quality).
Beskrivelse
Paper V and paper VI have not been published yet.
Består av
Paper I: Ghorbani Mooselu, M., Liltved, H., Hindar, A. & Amiri, H. (2022). Current European approaches in highway runoff management: A review. Environmental Challenges, 7: 100464. https://doi.org/10.1016/j.envc.2022.100464. Published version. Full-text is available in AURA as a separate file: .Paper II: Ghorbani Mooselu, M., Amiri, H., Azadi, S. & Liltved, H. (2021). Spatiotemporal assessment of surface water vulnerability to road construction. Environment, Development and Sustainability, 24, 7851-7873. https://doi.org/10.1007/s10668-021-01763-9. Published version. Full-text is available in AURA as a separate file: .
Paper III: Ghorbani Mooselu, M., Liltved, H., Nikoo, M. R., Hindar, A. & Meland, S. (2020). Assessing optimal water quality monitoring network in road construction using integrated information-theoretic techniques. Journal of Hydrology, 589: 125366. https://doi.org/10.1016/j.jhydrol.2020.125366. Accepted manuscript. Full-text is available in AURA as a separate file: .
Paper IV: Azadi, S., Amiri, H., Mooselu, M. G., Liltved, H. Castro-Munos, R., Sun, X., & Boczkaj, G. (2021). Network design for surface water quality monitoring in a road construction project using Gamma Test theory. Water Resources and Industry, 26: 100162. https://doi.org/10.1016/j.wri.2021.100162. Published version. Full-text is available in AURA as a separate file: https://hdl.handle.net/11250/2987436.
Paper V: Ghorbani Mooselu, M. (Forthcoming). Roadside water quality monitoring and assessment by integrating remote sensing and field measurement. Remote Sensing of Environment. Submitted version. Full-text is not available in AURA as a separate file.
Paper VI: Ghorbani Mooselu, M. (Forthcoming). Characterization and Treatment of Tunneling wastewater Using Natural and Chemical Coagulants. Journal of Water Process Engineering. Submitted version. Full-text is not available in AURA as a separate file.