The Environment Agency recently awarded CH2M two significant flood defense projects, Bridgwater Tidal Barrier Appraisal and conducting the Avonmouth-Severnside Enterprise Area Ecology Mitigation and Flood Defense study.
“We have a long history of working with the Environment Agency on successful projects to protect local communities from flooding and natural disasters, and these new projects will continue to enhance the region’s resiliency towards future events,” said Peter Nicol, CH2M Global Water Business Group President.
Under the Bridgwater Tidal Barrier contract, CH2M will appraise design options and develop the business case for a tidal surge barrier that will provide a long-term solution for the protection of approximately 8,500 properties and more than 600 businesses, in Bridgwater and surrounding communities, for the next 100 years.
Looking at a range of possible locations, gate arrangement and operating regimes for a barrier, CH2M will conduct an 18-month study to evaluate water levels, silt and navigation; assess the environmental benefits and impacts of the scheme; and evaluate opportunities to maximize benefits to the local community through regeneration.
Additionally, CH2M will lead the Avonmouth-Severnside Enterprise Area Ecology Mitigation and Flood Defense Project to evaluate a holistic and comprehensive approach to flood risk and ecological mitigation in the West of England, which lies within the tidal and fluvial flood plain of the Severn Estuary, the River Avon and various other minor watercourses.
In addition to the work CH2M is delivering for the Environment Agency, the firm was also recently selected to provide similar services to Scotland’s Highland Council.
Continuing under the Scotland Excel Engineering and Technical Consultancy Services framework awarded to CH2M in 2013, the firm will lead the River Peffery Flood Protection and Natural Management study, which involves designing flood risk solutions and providing technical support services for Dingwall and Blairninich, two areas vulnerable to fluvial flooding.