5 results for "pitt meadows engagement"
Sort results by:
Port authority invites Pitt Meadows community to help shape the future of Harris Road
Starting Tuesday, June 28, the Vancouver Fraser Port Authority invites people who live, work in, or travel to Pitt Meadows to participate in an engagement process that will help inform the design of the Harris Road underpass, part of the Pitt Meadows Road and Rail Improvements Project. Read more...
Proposed Harris Road underpass in Pitt Meadows reaches milestone with partnering agreement
Vancouver Fraser Port Authority, City of Pitt Meadows and CP set to sign partnering agreement to support ongoing collaboration and investment for designing the project
Vancouver B.C.: The proposed Harris Road underpass has reached an important milestone, as the Vancouver Fraser Port Authority and key partners announce the approval of a project partnering agreement. Read more...
Pitt Meadows Road and Rail Improvements Project
The Vancouver Fraser Port Authority is leading the Pitt Meadows Road and Rail Improvement project that proposes to eliminate the rail crossings at Harris Road and Kennedy Road. Pitt Meadows is home to two of the busiest rail crossings in the lower mainland. Read more...
Pitt Meadows road and rail improvements
Pitt Meadows is home to two of the busiest rail crossings in the lower mainland. The Pitt Meadows Road and Rail Improvement project will aim to eliminate the rail crossings at Harris Road and Kennedy Road. Currently, these crossings are blocked each day by moving trains for an average of:
One hour and 45 minutes at Kennedy Road Three hours and 30 minutes at Harris RoadOur goal is to mitigate the impacts of growing rail and port trade traffic on Pitt Meadows. Read more...
Road and rail
Road and rail infrastructure projects include the construction of overpasses and underpasses to separate roadways and rail lines, rail corridor widening to allow for more tracks, and other rail line improvements. When completed, the following projects will help increase trade efficiency, reduce transportation bottlenecks, and improve safety. Read more...