CLIMATE CHANGE AND RESILIENT RAIL FREIGHT TRANSPORT

Q4 Environmental Science

WIT Transactions on Ecology and the Environment Pub Date : 2022-08-17 DOI:10.2495/sdp220071

J. Vleugel, F. Bal

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引用次数: 0

Abstract

Rail freight transport is a key economic activity; many businesses and people rely on it. It should be available when needed and efficient in use. There are however factors that may reduce the availability and quality of a rail freight service offering. A distinction can be made between what may be called systemic factors, like congestion, accidents and technical failures, and external factors like weather conditions and natural disasters. Rail infrastructure managers and users of rail services have learned from experience to anticipate or adapt to systemic factors. They are, to some extent, also able to cope with certain weather conditions. A rather different situation occurs when the weather becomes more extreme and less predictable. Water management systems are usually not developed for excess amounts of rain and hence will fail. Terrestrial water can turn into a devastating flood that may (temporarily) incapacitate railway infrastructure. With this (partially) out of service, freight trains have to be rerouted. This may lead to severe delays, additional costs and externalities, in particular more emissions. This paper deals with the question: What are options for governments to make rail freight transport more resilient to disruptions triggered by climate change, while limiting the externalities caused by rerouting? The paper is an extension of earlier research on this topic. Methods used in the research were a case study, the data of which were fed into a simulation model, which was used to estimate route length, fuel consumption and emissions. The main outcome of the study is that there are interesting options to make rail freight transport networks more resilient. In order to reap their benefits, interoperability should be improved considerably.

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气候变化和弹性铁路货运

铁路货运是一项重要的经济活动；许多企业和人们都依赖它。它应该在需要时可用，并且使用效率高。然而，也有一些因素可能会降低铁路货运服务的可用性和质量。可以区分所谓的系统因素，如拥堵、事故和技术故障，以及天气条件和自然灾害等外部因素。铁路基础设施管理者和铁路服务用户已经从经验中学习到预测或适应系统性因素。在某种程度上，它们也能够应对某些天气条件。当天气变得更加极端和不可预测时，就会出现一种截然不同的情况。水管理系统通常不会为过量的雨水而开发，因此会失败。地表水可能会变成毁灭性的洪水，可能（暂时）使铁路基础设施瘫痪。由于（部分）停运，货运列车不得不改道。这可能导致严重的延误、额外的成本和外部性，尤其是更多的排放。本文讨论了一个问题：政府有什么选择来提高铁路货运对气候变化引发的中断的抵御能力，同时限制改道造成的外部性？这篇论文是对这一主题早期研究的延伸。研究中使用的方法是一个案例研究，将数据输入模拟模型，用于估计路线长度、燃料消耗和排放。该研究的主要结果是，有一些有趣的选择可以使铁路货运网络更具弹性。为了获得它们的好处，应该大大提高互操作性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

WIT Transactions on Ecology and the Environment Environmental Science-Environmental Science (all)

CiteScore

1.10

自引率

0.00%

发文量

期刊介绍： WIT Transactions on Ecology and the Environment (ISSN: 1743-3541) includes volumes relating to the follow subject areas: Ecology, Environmental Engineering, Water Resources, Air Pollution, Design & Nature, Sustainable Development, Environmental Health