回顾与分析:土隧道在中世纪和现代战争及走私中的成功应用

Kenneth Ray Olson, David R. Speidel
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引用次数: 4

摘要

2500多年来,土隧道一直用于战争和走私。最初,隧道被用来攻击由松散(非基岩)土壤材料构成的堡垒。后来的隧道提供了住所和走私通道。中世纪的战争破坏技术包括用木制或横梁支柱挖掘土壤隧道来支撑土壤天花板。然后将干草或稻草等易燃材料放入隧道并点燃。大火烧毁了支撑梁,导致土隧道顶棚倒塌,并破坏了上面的外墙。后来,火药和炸药在试图摧毁隧道、堡垒或外围防御时取代了火。现代战争土壤隧道是用来将部队、武器和物资运送到边界或墙的另一边进行突然袭击的通道。土壤隧道大多位于地下水位低、不易发生洪水的易开挖松散土壤材料中。最终,机器被用来钻穿基岩,为部队的移动或走私提供更深更长的隧道。然而,当钻穿国际边界下的基岩时,这个过程会产生噪音和振动,这通常会被敌人发现。一旦发现隧道,通常通过炸毁隧道、注入气体、注满水或废水或设置障碍物等方法使隧道坍塌。将审查一系列的案例研究,目的是确定成功挖掘隧道所需的土壤和场地标准。将确定最具限制性的土壤和地质条件,并将记录用于克服场地限制的潜在缓解方法。边境上有战争或走私问题的国家,如以色列和美国,需要确定边界上最有可能被土隧道破坏的部分。就以色列而言,由于有利的干旱气候、土壤和地质,它们的整个边界都很容易受到影响。无论在哪里修建新墙,美国与墨西哥的边境都可能变得脆弱。如果没有墙,通常就不需要土隧道。美国国土安全部和边境巡逻队将需要监测噪音和振动,就像以色列一样,以确定未来的土壤隧道位置。最终,3200公里的边境大部分将有一堵墙,这将成为更多从墨西哥走私货物和人口到美国的土壤隧道的目标。
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Review and Analysis: Successful Use of Soil Tunnels in Medieval and Modern Warfare and Smuggling
For more than 2500 years, soil tunnels have been used in warfare and smuggling. Initially tunnels were utilized to attack fortresses that were underlain by unconsolidated (non-bedrock) soil materials. Later tunnels provided housing and served as smuggling corridors. The medieval warfare undermining technique involved digging soil tunnels with wooden or beam props to hold up the soil ceilings. Then flammable material, such as hay or straw, was put in the tunnel and set on fire. The fire burnt the support beams which collapsed the soil tunnel ceilings and undermined the overlying perimeter wall. Later gunpowder and dynamite replaced fire when attempting to collapse a tunnel, fortress or perimeter defense. Modern warfare soil tunnels were the pathways used to move troops, weapons and supplies to the other side of a border or wall for surprise attacks. Most of the soil tunnels were placed in easy-to-dig unconsolidated soil materials that had a low water table and were not subject to flooding. Eventually, machinery was used to drill through bedrock permitting deeper and longer tunnels for troop movement or smuggling. However, when drilling through bedrock under international borders, the process creates both noise and vibrations which were often detected by the enemy. Once discovered the tunnels were often collapsed by blowing up the tunnel, injection of gas, filling with water or wastewater, or inserting barriers. A series of case studies will be examined with the goal of determining soil and site criteria required to permit successful tunneling. The most restrictive soil and geologic conditions will be identified as well as potential mitigation methods used to overcome the site restrictions will be documented. Countries with warfare or smuggling issues along their borders, such as Israel and United States, need to identify the sections of the border most likely to be undermined by soil tunnels. In the case of Israel their entire border is susceptible as a result of the favorable arid climate, soils and geology. The US border with Mexico can become vulnerable wherever a new wall is created. Without a wall there is usually no need for soil tunnels. The US Department of Homeland Security and border patrol will need to monitor the noise and vibrations, just like the Israel does, to identify future soil tunnel locations. Eventually most of 3200 km border will have a wall that will become the target of more soil tunnels for smuggling goods and people from Mexico into the United States.
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