Review on Novel Approach To Design of Variability In Flexible Highway Pavement Life Cycle Cost Analysis
Main Article Content
Abstract
Life cycle cost analysis of existing road is becoming more significant to determine the proper time of maintenance and the proper action, which should be taken for maintenance. An efficient maintenance policy is essential for a cost-effective, comfortable and safe transportation system. But, the decision to maintain the road facilities, consider a number of possible ways from routine maintenance action to reconstruction of the road network. Moreover, an economic analysis of a road network is dependent upon a number of factors, which are responsible for deciding road serviceability level. Optimization model is an analytical model, which helps to make a cost benefit analysis and compare that with various possible alternatives to give out the best possible activity within the allocated budget, before being carried out in field work.
Article Details
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
References
Azam, A., Gabr, A., Ezzat, H., Arab, M., Alshammari, T. O., Alotaib, E., & Zeiada, W. (2024). Life cycle assessment and pavement performance of recycled aggregates in road construction. Case Studies in Construction Materials, 20, e03062.
Marathe, S., Sheshadri, A., & Sadowski, Ł. (2024). Agro-industrial waste utilization in air-cured alkali-activated pavement composites: Properties, micro-structural insights and life cycle impacts. Cleaner Materials, 100281.
Lu, F., & Si, W. (2024). Reliability risk modelling of asphalt pavement structure performance under the impact of freeze-thaw cycles. Case Studies in Construction Materials, 20, e03054.
Babashamsi, P., Yusoff, N. I. M., Ceylan, H., Nor, N. G. M., & Jenatabadi, H. S. (2016). Evaluation of pavement life cycle cost analysis: Review and analysis. International Journal of Pavement Research and Technology, 9(4), 241-254.
Dalla Valle, P., & Thom, N. (2017). Inclusion of design variability in flexible highway pavement life-cycle cost analysis. Proceedings of the Institution of Civil Engineers-Construction Materials, 170(4), 211-222.
Azadgoleh, M. A., Mohammadi, M. M., AzariJafari, H., Santos, J., Ahmadi, A., Alavi, M. Z., & Ayar, P. (2024). A comparative life cycle assessment (LCA), life cycle cost analysis (LCCA), mechanical and long-term leaching evaluation of road pavement structures containing multiple secondary materials. Journal of Cleaner Production, 458, 142484.
Yang, Q., Cao, Z., Shen, L., Gu, F., Santos, J., Qiao, Y., ... & Chu, C. (2024). Impacts of climate change on environmental and economic sustainability of flexible pavements across China. Resources, Conservation and Recycling, 206, 107589.
Heidari, M. R., Heravi, G., & Esmaeeli, A. N. (2020). Integrating life-cycle assessment and life-cycle cost analysis to select sustainable pavement: A probabilistic model using managerial flexibilities. Journal of Cleaner Production, 254, 120046.
Swarna, S. T., Hossain, K., & Bernier, A. (2022). Climate change adaptation strategies for Canadian asphalt pavements; Part 2: Life cycle assessment and life cycle cost analysis. Journal of Cleaner Production, 370, 133355.
Maadani, O., Shafiee, M., Shirkhani, H., & Hiedra Cobo, J. (2024). The impact of extreme weather events of projected Canadian regional climate model data on flexible pavement. Canadian Journal of Civil Engineering.