Relationship between velocity gradient and energy dissipation rate
Relationship between velocity gradient and energy loss based on a change in the pressure coefficient. Note that the pressure coefficient here is equivalent to a minor loss coefficient.
Energy dissipation estimate for a cell located just downstream from the 180 degree bend in a flocculator.
Gcell for hydraulic flocculator
Gθ cell for hydraulic flocculator
Floc Baffle Spacing
Shear (Velocity Gradient)
Relationship between G and Head loss
Suspension Turbidity
Alum Dose
Alum Flowrate
G average (per baffle)
Maximum shear allowed
Degree of Flocculator Mixing
Height of water as flocculators drain
Force on baffle during tank draining
ratio between baffle spacing and height of horizontal channel above or below a baffle (to avoid short circuiting when b is large)
Number of baffles based on Gtheta
headloss through a floc tank
Maximum flow rate our flocculators can deliver
Floc baffle spacing - NOT BASED ON ACTIVE VOLUME
Headloss (Only minor loss)
