Train station

Metros & Urban Rail

Admiralty Integrated Station and SCL Enabling Works

Hong Kong Skyline

Project in focus: South Island Line (East) (SIL(E)) Contract 901


The South Island Line (East) (SIL(E)) is a 7 km medium capacity railway extension connecting the Southern District of Hong Kong to the existing MTR network at Admiralty Station (ADM).

Once completed, the new line will transport passengers between the busy business district in Admiralty and the Southern Districts on Hong Kong Island, reducing traffic congestion and travel time between South Horizon and Admiralty, as well as to promote tourism and facilitate growth in the local economy.

SIL(E) Contract 901 involves complex tunnelling within an urban environment, further complicated by an interface with an existing operational railway. Aurecon is providing geotechnical, civil and tunnel engineering for the SIL(E) where the new integrated ADM station will provide a convenient interchange between four rail lines. These works include an extension of the existing ADM station which will accommodate an interchange concourse, circulation areas and plant rooms, as well as four new platforms which will be constructed below and adjacent to the existing ADM station; two for the SIL(E) and two for the future Shatin to Central Link (SCL).

The scope of services carried out by Aurecon included a review of geotechnical data and hydrogeological assessments, design of temporary rock support for the 25 metre span station cavern, platform tunnels, overrun tunnels and alternative alignments for the supplementary emergency entrance (SEE) as well as means of egress (MoE) adits. Aurecon’s scope also included the alternative design for the permanent lining design for the station cavern, SEE and MoE adits.

Aurecon also helped to develop techniques for the excavation methodology to be used on the congested site and adjacent to the underground structures.

Continuous consultation with key stakeholders has been crucial in enlisting their support and in identifying all design requirements.

To top