Abstract
The appearance and explosive population growth of zebra mussels have impacted many facilities near water, such as electricity-generating power plants. These mussels can congregate at plant-water-intake structures where proactive maintenance actions, such as mussel kills, must be performed. However, once dead, the mussel debris is a potential contaminant drawn into the plant via cooling water pump suctions; this may affect piping and components downstream of the pump suctions. Thus, it becomes necessary to establish whether sufficient water velocity, from the suction action of a pump, exists to entrain shell debris. Although entrainment data for zebra mussel shells and shell fragments are lacking, this study employs a generalized empirical method based on other types of bivalve shells. Basic pump-suction considerations yield an entrainment volumetric zone in which any shells would be drawn into the pump. A calculated sample zone extends slightly less than one meter from the centerline of the pump-suction pipe and is cylindrical in shape. This approach can be generalized to various pump intake configurations and bivalves, providing a predictive means for evaluating plant system contaminants. Experimental data, although outside the scope of this study, may be used to refine the modeling.
Recommended Citation
Tatara, R. A.; Poe, D. R.; and Lupia, G. M.
(2008)
"Characterization of zebra mussel transport near a pump intake,"
Journal of Applied Science & Engineering Technology: Vol. 2:
Iss.
1, Article 7.
Available at:
https://repository.rit.edu/jaset/vol2/iss1/7