Gabions Protect of Iron Ore Rail Turnout

Gabions and Terramesh, Australia Mining
Terramesh panels anchor the gabions into the embankment

A case study from Geofabrics Australasia — BHP Billiton Iron Ore was investigating the blending of ore from all mine sites at Newman. A southern rail turnout across the Fortescue River adjacent to the North Jimblebar Causeway was required so that ore from Ore Body 18 and Jimblebar could be taken directly to the Newman Mine site. Initially a high level causeway and a high level bridge were considered as being possible solutions to effectively get the rail turnout across the river. The costs for these two options were high and a less expensive lower level crossing option was investigated.
It was later proposed that a low level causeway be constructed with a gabion weir on the downstream edge of the formation. The crest of the weir would generally be 0.6m to 0.75m above the top of the formation level. It would protect the ballast from the high velocity flow (approx. 4.4m/s) across the top of the crossing during flooding by causing the floodwaters to back up. It was also proposed that the 1:3 downstream batters be protected against scour using gabion mattresses.
Gabions - Flood Protection of Railway
The 980m long gabion low level causeway being tested during a March flood event. The structure did not require any maintenance after the waters receded.

The design of the causeway was carried out to ensure that the storage between the proposed and existing causeways is filled with water prior to overtopping occurring. The head drop across the proposed causeway was also kept as low as possible to assist in reducing the instance of flood damage. In March 2009, before the rail formation had been constructed, a major flood event occurred. The entire 1m height of the gabion took the full force of the floodwater. If the formation was in place, only 0.6m of the gabion would have been exposed. The gabion weir was able to cope with the inundation and dissipate the energy sufficiently to resist any flood damage.
The project tender technical documentation stated that the gabion work shall only be undertaken by specialist installers, approved and certified by Geofabrics Australasia and highly experienced in this work. A sample group of gabions were also required to be constructed on site to be used for quality control purposes throughout the duration of the gabion works. Only once these units had been inspected by relevant parties (including the gabion manufacturer’s representative), and deemed to have been constructed to the acceptable standard, could the main gabion works be undertaken.
Gabions - Railway Protection, Australian Mining Industry
After almost 5 years, the gabion structure continues to provide exemplary protection. This photo was taken in March 2013.

Approximately 1,800m³ of gabions, 10,500m² of 500mm deep gabion Mattresses and 12,000m² of woven Terramesh soil reinforcement was installed. All woven mesh products specified in the project documents were Galmac (95%Zinc 5%Aluminium Alloy) + PVC coated to the most stringent national and international standards. A valid British Board of Agrément (BBA) certificate was provided as part of the QA documentation.
For more information on this project and related project stories and technologies, visit www.geofabrics.com.au.
DETAILS
Project: Jimblebar Crossing of Fortescue River
Client: BHP Billiton Iron Ore
Engineer: MPD JV (Fluor and SKM)
Contractor: Macmahon
Specialist Gabion Installer: Nviroscope
Location: Newman, Western Australia
Gabions - Protection Structure, Cross Section
Cross-section view of the gabion structure.

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