Seymour–Capilano Twin Water Tunnel, North Vancouver

    Gyromat 2000 calibration,  D. Kaltenbach(BBC), C. Cryderman(UGL), U. Kalz(DMT)

    Gyromat 2000 calibration, D. Kaltenbach(BBC), C. Cryderman(UGL), U. Kalz(DMT)

    U. Kalz(DMT) recording gyroazimuth measurements from Gyromat 2000

    U. Kalz(DMT) recording gyroazimuth measurements from Gyromat 2000

    J. Newton preparing to do 3D Laser Scanning with Faro Focus3D, GVRD Seymour-Capilano water tunnel, 2011

    J. Newton preparing to do 3D Laser Scanning with Faro Focus3D, GVRD Seymour-Capilano water tunnel, 2011

    3D Laser Scanning with Faro Focus3D, GVRD Seymour-Capilano water tunnel, 2011

    3D Laser Scanning with Faro Focus3D, GVRD Seymour-Capilano water tunnel, 2011

    Robotic/Reflectorless  total station measurement of tunnel for as-built cross-section and profile extraction, C. Mathison, C. El-Araj

    Robotic/Reflectorless total station measurement of tunnel for as-built cross-section and profile extraction, C. Mathison, C. El-Araj

    Raw Water Tunnel 3D Laser scanned cross sections

    Raw Water Tunnel 3D Laser scanned cross sections

    Raw Water Tunnel 3D Laser Scanned sections and profile

    Raw Water Tunnel 3D Laser Scanned sections and profile

    Seymour Shaft surface geodetic control network

    Seymour Shaft surface geodetic control network

    Seymour Shaft underground geodetic control network

    Seymour Shaft underground geodetic control network

    Bottom of the Seymour shaft, during precise plumbing and control check survey, C. El-Araj

    Bottom of the Seymour shaft, during precise plumbing and control check survey, C. El-Araj

    View of the bottom of the Seymour Shaft

    View of the bottom of the Seymour Shaft

    3D Laser Scanning of the Seymour-Capilano twin tunnels for as-built cross sections and profiles

    3D Laser Scanning of the Seymour-Capilano twin tunnels for as-built cross sections and profiles

    Discussing as-built methodology,  J. Dyke, C. El-Araj

    Discussing as-built methodology, J. Dyke, C. El-Araj

    Checking out tight measurment situation for as-built

    Checking out tight measurment situation for as-built

Underhill contributed a number of survey services in the construction of twin 7.4km water tunnels connecting Capilano Reservoir and the Seymour filtration plant, north of Vancouver. Initially, Billfinger Berger Canada contracted Underhill to provide a check survey of the GVRD's GPS control network. Further services included establishing azimuth baselines for gyrotheodolite calibration. The GVRD then brought Underhill in to perform a plumbing check survey on the 180m Seymour shaft. Results confirmed that the (original) contractor's work was within a few millimeters. Subsequent to this, we provided quality control and review of the contractor's survey work and results.

The next phases of the project included conducting precise survey control surveys and making as-built cross-sections for over 8km of the bored tunnels. A precise 3D double-run control survey was run through both tunnels to provide the next contractor with accurate survey control. Portions of the tunnel were scanned using the Trimble GX 3D Scanner and cross-sections were extracted at various intervals from the point cloud directly. This survey allowed for the comparison of the existing tunnel with the original design to ensure project specifications were met. Data was processed in Trimble Realworks Survey Advanced 6.2.0. Over 200 cross-sections were extracted from the point cloud and overlaid against the original design.

Underhill then provided data reduction processing and adjustment services on the check data. Most recently, we provided precise (1mm) as-built surveys on 3m diameter pipes prior to their installation in the tunnels.

Go to Metro Vancouver's Seymour-Capilano Water Utility Projects site