Contractors building HS2 have completed work on a pair of innovative extensions to the southern portal of its longest tunnel to eliminate the possibility of 鈥榮onic boom鈥 being created by high-speed trains entering at 200mph.
The structures, built at the southern end of the railway's 10-mile Chiltern Tunnel to the northwest of London, are near identical to those now under construction at its northern portal in Buckinghamshire.
Trains entering tunnels force air forward, creating pulses of energy that roll along the tunnel causing a small release of air pressure into the outside world at the far end. These micro-pressure waves are inaudible on conventional railways but in high-speed rail tunnels, air shoved forward without escape routes can create pressure waves so powerful that they emerge with an audible thud 鈥 a sonic boom.
In a first for the UK rail network, HS2鈥檚 design includes extensions on all eight tunnels where trains are expected to enter at speeds above 140mph.聽 However, the length, physical setting and aesthetic of those at each end of the line鈥檚 tunnel beneath the Chiltern Hills mark them out as unique even to HS2.
HS2 Ltd chief engineer Mark Howard explained: 鈥淭he maximum speed of HS2 varies along the route. But where the train is entering a tunnel travelling above 140mph we are building portal extensions to prevent sonic boom occurring.聽 Although there are several tunnels on the line where train speed will be higher than in the Chiltern Tunnel, no other combines speeds of 200mph with length of 10 miles.聽 Its these unique physical characteristics that demand unique structures at each end.鈥
The problem was first identified in 1974 during train testing on Japan鈥檚 then new 187mph Sanyo shinkansen line, when people nearby heard booms near tunnel exits. The solution was perforated portals extending from the tunnel entrance. Later, as train speeds gradually increased and further slight improvements in the control of micro-pressure waves were required, the solution was to enhance the train鈥檚 aerodynamics rather than retrofit pressure-dissipating portal extensions to tunnels that had already been built. The super-sleek, elongated aerodynamic nose of Japanese high-speed trains cause the pressure to build up more gradually when the train enters a tunnel.聽
Building on over 40 years of international rail research, engineers from HS2 Ltd and Arup, together with the University of Birmingham and Dundee Tunnel Research, developed and laboratory-tested HS2鈥檚 tunnel portal design.
To mitigate against sonic boom, HS2鈥檚 tunnel under the Chiltern Hills requires bespoke portal extensions. Protruding up to 220 metres from a chalk cutting near the M25 motorway, they are each punctuated along one side with ventilation portholes. These enable some air pushed forward by the train to escape, making the pressure increase more gradual so that the micro-pressure wave emitted from the other end of the tunnel is undetectable.
The basic design can be adapted to different lengths: the longer the extension, the weaker the micro pressure wave. In order to decide how long each extension needed to be for every HS2 tunnel, the team used micro-pressure wave measurements from Britain鈥檚 first high speed line between London and the Channel Tunnel, HS1, as the benchmark. The line鈥檚 tunnels do not experience sonic boom because the micro-pressure waves are too weak. Therefore HS2鈥檚 research team used it as the basis to develop anti-sonic boom porous tunnel extensions for the new London-Birmingham line.
Mark Howard added: 鈥淗S2 was designed from the ground up as an entirely new and complete rail system. This enabled us to develop all its constituent parts e.g. trains, tunnels, stations, power systems to complement each other and operate as intended.
鈥淚n the case of avoiding sonic boom at tunnel portals, we used already-established key criteria including train speed, tunnel diameter and length to develop tunnel portal extensions that would prevent sonic boom occurring.鈥
Arup engineer Richard Sturt said: 鈥淎rup is proud to have helped create a new international benchmark for the suppression of sonic booms with the HS2 tunnel portals. They are longer than any existing portals anywhere else in the world as we have prioritised seating capacity on the train, avoiding the need for a long nose section on the train like the Japanese shinkansen.聽 The portals鈥 unique tapered design combined with the precision-sized holes provide an incredibly smooth build-up of pressure as the train enters the tunnel. As a result, there won鈥檛 be any audible noises from micro pressure waves, despite the extremely high train speeds.鈥
色猫直播 of the Chilterns Tunnel, and its portal extensions was led by HS2鈥檚 main works contractor Align 鈥 a joint venture of Bouygues Travaux Publics, Sir Robert McAlpine and Volker Fitzpatrick. The group finished building those at the southern end in January 2025, with the northern pair following in the autumn of this year.
Once operational, passenger trains should travel through HS2鈥檚 10-mile Chiltern Tunnel in three minutes.
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