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Icelandic-Type Berm Breakwater: A Nature-Based Structure with a Low Carbon Footprint
| 题名: | Icelandic-Type Berm Breakwater: A Nature-Based Structure with a Low Carbon Footprint |
| 正文语种: | eng |
| 作者: | Majid Eskafi;Sigurdur Sigurdarson;Bjorgvin Brynjarsson;Kjartan Eliasson |
| 作者单位: | EFLA Consulting Engineers Lynghals 4 110 Reykjavik Iceland;Icelandic Road and Coastal Administration Sudurhraun 3 210 Gardabaer Iceland;EFLA Consulting Engineers Lynghals 4 110 Reykjavik Iceland;Icelandic Road and Coastal Administration Sudurhraun 3 210 Gardabaer Iceland |
| 关键词: | Icelandic-type berm breakwater; Nature-based solutions; Global warming potential; Climate change; Life cycle assessment |
| 摘要: | With the ever-increasing emphasis on climate change and sustainability, there is growing interest in using environmentally friendly coastal structures. In addition to engineering and cost factors, the construction global warming potential (GWP) can and should be an influencing factor in the selection and design of the structures. Therefore, knowledge of construction GWP facilitates informed decision-making in coastal projects to achieve climate goals. Considering the number of Icelandic-type berm breakwater (IceBB) structures worldwide, this structure's design method is commonly accepted in coastal protection projects. In this paper, the construction process of an IceBB was assessed for its GWP and compared with concrete armor unit protection of a conventional rubble mound breakwater (ConRMB). The assessment and comparison were made for constructing a breakwater to protect the port of Thorlakshofn in southwest Iceland. The life cycle assessment (LCA) methodology was applied to calculate the construction carbon footprint of the structures using GaBi software, version 10.6.1. Using the International Union for Conservation of Nature (IUCN) criteria for nature-based solutions (NBS) and based on the existing literature, the characteristics of IceBB were briefly explored. The results showed that the construction of IceBB has a lower GWP than ConRMB, mainly due to using natural rock armor instead of concrete armor units. Furthermore, the results indicated that IceBB characteristics meet the IUCN criteria for NBS and thus can be granted as a (hard) NBS coastal structure. Acknowledging the advantages of IceBB, adopting this structure in coastal protection projects could meaningfully contribute to climate change mitigating policies. |
| 出版年: | 2024 |
| 期刊名称: | Journal of Waterway, Port, Coastal and Ocean Engineering |
| 卷: | 150 |
| 期: | 1 |
| 页码: | 05023003.1-05023003.9 |
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