How to Choose the Best Water Bypass Methods for Your Hydropower Construction Projects

Diverting water around or through your hydropower construction project often leads to safety risks, increased costs, and schedule delays — but it doesn’t have to. The purposes of water bypass methods are to facilitate work in a dry environment, maintain hydropower generation downstream, and address environmental concerns. Like the challenges they are created for, these solutions are not one-size-fits-all. Identifying the best solution to manage and remove water is critical for the safety and success of your project.

What are the primary water bypass methods?

Bypassing large volumes of water can be achieved in a variety of configurations but can generally be categorized into three primary methodologies. Choosing the best method for your project depends on site topography, water flow volume, and site space constraints. The three main water bypass methods are compared and summarized as follows:

How have these bypass methods been successfully implemented on construction projects?

The following three case studies summarize the successful implementation of each primary water bypass method described above. For each project, the optimal bypass system type was selected based on a variety of factors including site conditions and water flow in cubic feet per second (CFS).

What lessons learned can be applied to future developments of water bypass systems?

Although water bypass methods are unique to each project, they share some common themes that are relevant to all hydropower construction. Based on decades of experience, the Black & Veatch team has identified the following key concepts to consider when developing safe and efficient water bypass systems on your construction projects:

• Solve problems creatively.

  You don’t have to adhere to one single water bypass method. Consider configurations of all three systems to meet your unique project needs at different times of construction. It also may benefit your project to install a permanent water bypass system in locations with high dewatering frequency.

• Allow for adequate permitting time.

  Identify activities that can be completed prior to or without implementation of the water bypass system to optimize your project schedule. Negotiate your rainfall permit requirements ahead of time to decrease the likelihood of having to pause construction operations following storm events.

• Mitigate cost impacts due to project delays.

  When operating and maintaining a large-scale facility, even minor schedule delays can have significant budget impacts due to staffing, fuel costs, and equipment rental fees. Consider pre-assembling project components prior to your facility outage and allow opportunities to adapt the water bypass system as needed if conditions change.

• Collaborate with on-site teams.

  Coordination with the facility operations and maintenance team will enable construction activities to be performed concurrently, maximizing the amount of work completed.

• Implement robust backup procedures.

  Have a strategic monitoring plan in place before beginning construction, and plan for excess flow events exceeding your water bypass capacity. Ensure an appropriate level of system component redundancy including pumps, pipes, and generators.

Black & Veatch has completed over 500 hydropower and hydraulic structures projects, generating more than 64,000 MW of renewable energy worldwide. Learn more about our expertise and connect with us about your next project here.