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Ted Montoya, David Hughes, Orville Werner
The existing Hinze Dam was raised beginning in 2007 to increase water storage capacity, improve its ability to regulate floods, and raise the level of structural safety as compared to the current dam. As part of the 15 m raise of Hinze Dam, the existing 33 m high spillway structure was raised using mass concrete. This new composite structure was constructed as a downstream raise, placing mass concrete on the downstream and top of the existing spillway. The designers of the composite spillway structure developed a finite-element model to consider the early expansion and subsequent slow contraction of the new concrete against the existing concrete. The temperature rise of the new section of mass concrete had to be monitored and controlled to reduce the tensile strains along its interface with the existing spillway, and differential temperatures had to be limited to avoid cracking of the new mass section. Low-heat cement for a conventional mass concrete mix was not readily available so a mix was developed using local materials.Learn more
Typical mass concrete dams are monolithic structures constructed with lowheat cement. The Hinze Dam spillway design was predicated on the use of materials readily available. The paper presents the assumptions, methods, and criteria that were used in developing the mass concrete mix. It also presents the means and methods for tracking temperature gain during construction of the raised spillway, and how temperature was influenced by placement temperature, construction sequencing, and seasonal conditions. Lastly, the paper will compare the actual performance of the mix with the design analysis, laboratory testing, and finite element studies that were performed during the design.