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Mike Clare_地球上最快的水下水流.pdf

上传人: Fl****zo 编号:718543 2025-06-22 24页 6.45MB

1、THE FASTEST UNDERWATER FLOWS ON EARTHMICHAEL CLARE&ISOBEL YEOSALLY WATSON,RICHARD WYSOCZANSKI,SARAH SEABROOK,KEVIN MACKAY,JAMES HUNT,EMILY LANE,PETER TALLING,EDWARD POPE,SHANE CRONIN,MARTA RIB GENE,TAANIELA KULA,DAVID TAPPIN,STUART HENRYS,CORNEL DE RONDE,MORELIA URLAUB,STEFFAN KUTTEROLF,MIKE WILLIAM

2、S 1.6 million km of subsea telecoms cables 400 cable systems 99%of intercontinental digital data trafific 150-200 faults per year Wilcock(2021)and TelegeographyThe specific case of natural hazards Only account for 10-20%of subsea cablefaultsBut.Affect cables in all water depths 30%of faults in deep

3、water Can affect multiple systemssynchronously over large areas leading to$100Ms repair and bigger knock on effectsClare et al.(2022)after Kordahi et al.(2019)Talling(2021)WavesCurrentsFloodsCoastal erosionClare et al.(2022)Sea Level RiseFlood triggered cable-damaging flows ran out 1200 km into the

4、deep sea during first COVID-19 lockdownMany climate change-driven hazards will likely increase in frequency&magnitude Most regions are resilient due to:Redundancy in the network Ready access to repair ships Sufficient replacement stocksThe South Pacific is an exception Morel(2022)TongatapuNASAGLOBAL

5、 IMPACTSDr Fakailoatonga Taumoefolau(15/01/22)and then,in the middle of a crisis.TongatapuHunga volcano Repair to international cable took 5 weeks Domestic cable repaired 1.5 years laterEXTENSIVE SEAFLOOR CABLE DAMAGEClare&Yeo et al.(Science,2020)TongatapuHunga volcano Repair to international cable

6、took 5 weeks Domestic cable repaired 1.5 years laterSemisi Panuve,CEO Tonga Cable Ltd.EXTENSIVE SEAFLOOR CABLE DAMAGEClare&Yeo et al.(Science,2020)100 m erosion 20 m deposition A very big hole!900 m vertical change6 km3 erupted volumeWhat caused the extensive

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本文主要讨论了海底电缆系统面临的自然危害及其影响。以下是关键点: 1. **海底电缆的重要性**:全球超过99%的洲际数字数据传输依赖超过1.6百万公里的海底电信电缆和超过400个电缆系统。 2. **故障频率**:每年大约有150-200次电缆故障,其中10-20%由自然危害引起。 3. **自然危害的影响**:这些危害(如海浪、电流、洪水、海岸侵蚀和海平面上升)可以在深水中造成故障,并可能导致大规模同步故障,修复成本高达数亿美元。 4. **案例研究**:汤加塔布岛的洪加火山爆发导致国际电缆修复耗时5周,国内电缆则在1.5年后才修复,并造成了广泛的的海底电缆损害。 5. **损害程度**:火山爆发引起的侵蚀超过100米,沉积超过20米,形成了巨大的洞穴,垂直变化高达900米,喷发体积超过6立方公里。 6. **应对策略**:建议进行更好的海底地图绘制,包括重复调查;区域监控,包括沿电缆使用光纤感应技术;增加和多样化路由和登陆点;在当地储备电缆;增加对备用低轨道卫星通信的投资。 7. **最快流速记录**:在海洋中测量到的最快流速,这些流速将火山物质带出了超过80公里的距离。 引用的核心数据:“>1.6 million km of subsea telecoms cables”, “>99% of intercontinental digital data trafific”, “150-200 faults per year”, “>30% of faults in deep water”, “$100Ms repair”, “>100 m erosion”, “>6 km3 erupted volume”, “FASTEST FLOWS EVER MEASURED IN THE OCEAN”。
"海底电缆的哪些危机?" "火山爆发如何影响电缆?" "如何提升海底网络抗灾力?"
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