HS2: delivering a climate change adapted and resilient railway

IF 0.4 4区 工程技术 Q4 ENGINEERING, CIVIL Proceedings of the Institution of Civil Engineers-Civil Engineering Pub Date : 2024-03-27 DOI:10.1680/jcien.23.00130
Alison Walker, Rachel Allison
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Abstract

The impacts of climate change are already evident. Like all infrastructure, High Speed 2 Ltd (HS2) needs to be climate resilient so it can function in a future where there will be warmer and wetter winters, hotter and drier summers, and more extreme weather. Without resilience measures, climate change could affect HS2 through increased construction programme, network performance impacts and service delays with associated costs, as well as affecting staff and passengers. HS2 policy is to build a “climate-resilient railway”, taking part in the collective endeavour to combat climate change by setting ambitious carbon reduction targets for HS2’s overall operations to be net zero from 2035 and embedding adaptation measures to increase resilience to climate change. HS2 is one of the first projects to take a holistic approach to incorporating climate change into planning, design and construction. Learning from HS2’s approach is set out in this report. The key outputs of this report are how climate resilience thinking has been embedded into all project stages; how bespoke and innovative processes have fed into industry leading best practice, reporting and guidance; as well as describing climate-resilient design solutions. It is vital to integrate climate resilience and adaptation into infrastructure projects now to ensure infrastructure is prepared for our changing climate.
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HS2:建设适应气候变化、具有抗灾能力的铁路
气候变化的影响已经显而易见。与所有基础设施一样,高速铁路 2 号有限公司(HS2)也需要具备抵御气候变化的能力,以便在未来出现更温暖潮湿的冬季、更炎热干燥的夏季和更极端的天气时仍能正常运行。如果不采取适应性措施,气候变化可能会影响 HS2,包括增加施工计划、影响网络性能、延误服务并产生相关费用,以及影响员工和乘客。HS2的政策是建设一条 "抵御气候变化的铁路",通过制定雄心勃勃的碳减排目标,使HS2的整体运营从2035年起实现净零碳排放,并采取适应措施提高抵御气候变化的能力,从而参与应对气候变化的集体努力。HS2 是首批采用整体方法将气候变化纳入规划、设计和施工的项目之一。本报告介绍了从 HS2 的方法中汲取的经验。本报告的主要成果包括:如何将气候适应性思维融入所有项目阶段;如何将定制和创新流程纳入行业领先的最佳实践、报告和指南;以及如何描述气候适应性设计解决方案。现在就将气候复原力和适应性纳入基础设施项目,以确保基础设施为我们不断变化的气候做好准备,这一点至关重要。
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来源期刊
CiteScore
1.60
自引率
25.00%
发文量
68
审稿时长
>12 weeks
期刊介绍: Civil Engineering, listed by the Web of Science, is the ICE''s flagship journal. Practical and diverse in its scope, it publishes overview papers for the non-specialist on any subject relevant to civil engineering today. Topics range from landmark projects to philosophical, ethical, environmental, management and safety issues. Peer review, copyediting, and colour publication by Civil Engineering are free. If accepted, published papers are easily found by Google search, as well as in specialist citation indexes. There is also the option of making your article open access, should you wish to. Published authors receive a free electronic copy of their article to share with their peers. Furthermore, as well exposure to ICE''s 91,000-strong membership, published papers are promoted via our social media channels, accessing the wider civil engineering community. It is free to submit a paper to this journal. Papers appear Ahead of Print (below) as soon as they are ready to be published. Ahead of print articles are fully citable. using the DOI system
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