US Army Corps of Engineers
New Orleans District

Corps operates the Old River Control Complex, Overbank Structure

Published Dec. 30, 2015

Corps operates the Old River Control Complex, Overbank Structure

NEW ORLEANSThe U.S. Army Corps of Engineers opened the Old River Overbank Structure Dec. 30, 2015 when the Mississippi River was projected to reach the trigger of 52 feet at the Knox Landing gage.

“This operation is one of our lessons learned from the 2011 flood that we have incorporated into our emergency response efforts,” said Mike Stack, Chief of the New Orleans District Emergency Management. “By opening the Overbank Structure now, we are adding another tool to help ensure we safely pass the required flow through the Old River Control Complex.”

The Overbank Structure, only operated during high water events, increases the Corps’ ability to relieve pressure from the Auxiliary and Low-Sill structures, helping to reduce the potential for structural damages as a result of diverting large river flows.

In accordance with the prescribed operation in the Water Control Manual, the Overbank Structure is opened in advance of water reaching the structure to limit the risk of operator safety during initial opening. Based on the most recent National Weather Service forecast, the river is expected to reach the sill of the structure on Friday, Jan. 1, 2016. This opening is the 15th time the structure has been operated and only the third time since 1990. When the structure was last operated in March 2015, flow reached a maximum of 9,000 cubic feet per second during a 158-day opening.

The Overbank Structure is one of three Old River Control Complex structures designed to implement the 70/30 distribution rate between the Mississippi and Atchafalaya rivers. Throughout the year, the Corps operates the Auxiliary and Low-Sill structures to maintain the current distribution where 30 percent of the combined flow of the Mississippi and Red rivers is diverted into the Atchafalaya River. In total, the complex can discharge 700,000 cubic feet per second (approximately 300 million gallons per minute).




Ricky Boyett

Release no. 15-062