South Hills Village | ||||||||||||||
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General information | ||||||||||||||
Location | Village Drive and Fort Couch Road Bethel Park, Pennsylvania | |||||||||||||
Coordinates | 40°20′21″N 80°03′10″W / 40.3393°N 80.0527°W | |||||||||||||
Owned by | Pittsburgh Regional Transit | |||||||||||||
Platforms | 2 side platforms | |||||||||||||
Tracks | 2 | |||||||||||||
Construction | ||||||||||||||
Parking | 2,200 spaces | |||||||||||||
Accessible | Yes | |||||||||||||
History | ||||||||||||||
Opened | April 15, 1984[1] | |||||||||||||
Passengers | ||||||||||||||
2018 | 1,568[2] (weekday boardings) | |||||||||||||
Services | ||||||||||||||
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South Hills Village is a station on Pittsburgh Regional Transit's light rail network.[3] It is the southern terminus of both the Red and Blue lines. Port Authority's switching yard and shops are located just west of the station. The station is located in Bethel Park, Pennsylvania and is adjacent to the South Hills Village shopping complex. A large 7-floor, 2,200 space parking garage was completed in 2004 at a cost of $21.6 million ($34.8 million in 2023 adjusted for inflation) and is located on site for commuters traveling from Pittsburgh's South Hills suburbs.[4] The station itself is located at the center-back (south side) of the first floor of the garage. In addition to serving as a commuter stop, the site also handles much reverse flow traffic of shoppers from the city and more northerly suburbs.
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Meet Crossrail's giant tunnelling machines
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Transcription
When it opens in 2018 Crossrail will connect 28 existing stations to the West End, the City and Canary Wharf , through 21 kilometres of new twin-bore tunnels under central London. Eight tunnel boring machines, or TBMs, will drive through the ground to create Crossrail's tunnels. A TBM is 148 metres long and weighs 1,000 tonnes. This is the equivalent of 14 London buses end-to-end and a staggering 143 buses in weight. It has a rotating cutterhead at the front and a series of trailers behind housing all the mechanical and electrical equipment. There are two types of TBM being used by Crossrail -- earth pressue balance TBMs and mix-shield TBMs. Six earth pressure balance TBMs will be used for the 18 kilometres of clay to the West and the riverbed deposits in the east, while 2 mix-shield machines will be used to drive the tunnels through the chalk under the River Thames. Depending on the ecology below and the building above ground, each TBM will travel between 90 and 150 metres each week, ending up to within a millimetre of where it needs to be. The first part of the TBMs work is the tunnelling phase. The earth pressure balance TBM has a cutting wheel, which is pressed against the tunnel face by hydraulic cylinders. Inside the cutting wheel the disc cutters and scraping tool loosen the material. If the earth is unstable and to stop the tunnel face collapsing or digging too fast the TBM uses the soil that has already been dug out by the cutting wheel to support the tunnel face. This creates a stable environment for the tunnelling to move forward. The tunnel face is continuously monitored by pressure sensors. They check the turning power of the cutting wheel and the screw conveyor and they also keep track of the material that has been excavated. The material is then taken away on conveyor belts. Once the tunnelling phase is done the cutting face and the screw conveyor are stopped and the ring-building phase starts. A complete tunnel ring consists of several lining segments made of pre-built reinforced concrete. These are made in a special factory above ground. They must match the exact size required and are taken into the tunnel on flatbed rail cars. The concrete segments are fed by the concrete feeder and lifted into place using a vacuum. The hydraulic cylinders are temporarily retracted in order to provide enough space for the new segment. The segments are positioned with millimetre precision and held in place by cylinders before being finally bolted into position. The conical keystone is put in from the front to complete the tunnel ring. Each individual tunnel ring is built in a slightly conical form. This means that curves can be built along the tunnel route by changing the direction of the cone. The hydraulic cylinders are extended again to secure the segment into position. During all this work people and machines are protected by the shield skin from the saturated ground, where water is under pressure. All the readings are displayed on monitors in the central control cabin and fed back to the machine operator. Once each section of ring building is completed the next tunnelling phase can start. The mix-shield TBMs dig in a different way to the earth pressure balance TBMs and will be used for tunnelling in water logged conditions such as below the Thames. Mix shield TBMs use bentonite, which is slurry of clay and water, to support the excavation face and act as a suspension medium for excavated material. The excavation chamber is behind the cutting wheel and separated by a submerged wall from the working chamber. The excavation is completely filled with bentonite and the working chamber is approximately two-thirds filled. The two chambers are connected in the form of communicating pipes via an opening in the submerged wall. A filter cake is created ahead of the cutting wall by pressurising the bentonite in the working chamber with compressed air. The bentonite penetrates the ground to form a membrane, which holds back water. Changes in the soil can be handled by adjusting the pressurisation. The dug out material falls into the excavation chamber. Small grains are dissolved into the bentonite and bigger stones and debris fall to the bottom. Flushing nozzles guarantee smooth removal of the excavated material. The excavated material is pumped through the suction line to the separation plane at the surface. Here the soil is separated out and removed from the bentonite suspension through a centrifuge and the clean suspension is transferred back into the slurry circuit. As tunnelling advances the flexible extension lines are installed to extend the lines after each thrust phase. Crossrail's first pair of TBMs, Phyllis and Ada, will construct Drive X travelling from Royal Oak to Farringdon. A second pair of TBMs, Elizabeth and Victoria, will construct Drive Y, starting from Limmo in Docklands and heading under central London to Farringdon. A further two TBMs, Mary and Sophia, will construct the tunnels for Drive H running underneath the Thames from Plumstead to North Woolwich, followed by Drive Z and Drive G. All the tunnels will be completed by the end of 2014 -- a significant milestone in the programme to build the largest addition to the south east rail network in fifty years.
Bus connections
- 36 Banksville
See also
References
- ^ Grata, Joe (April 12, 1984). "In Transit". The Pittsburgh Press. pp. B1, B10. Retrieved May 1, 2024 – via Newspapers.com.
- ^ "System Map Winter 2018". Port Authority.
- ^ Official Port Authority information page
- ^ "Port Authority approves garage at South Hills Village". Pittsburgh Business Times. July 23, 2003. Archived from the original on August 2, 2003.