In the sedimentation basin design, explain when the hydraulic design should address the peak flow in...

A rectangular horizontal-flow sedimentation basin in a conventional water treatment plant has been designed to treat...

A rectangular horizontal-flow sedimentation basin in a conventional water treatment plant has been designed to treat a flow of 50,000 m3 /day. It has a length = 80 m, width = 20 m, and depth = 3.6 m. For this problem, assume temperature = 20 °C (density of water = 103 kg/m3 and viscosity = 10-3 kg/m·s) and laminar flow. a. What is the hydraulic detention time? Does this meet the typical criteria for this type of sedimentation basin? b....

A rectangular sedimentation basin receives water at 10 degrees Celsius with a flow rate of 0.5...

A rectangular sedimentation basin receives water at 10 degrees Celsius with a flow rate of 0.5 m3/s. The sedimentation basin is 20m wide, 60m long, and 6m deep. The effective settling zone in the sedimentation basin is 45 m long. Determine the number of double sided weir troughs placed parallel to the length (L) of the basin.

11.24 Calculate the dimensions of a launder around the periphery of a 10.0 m-radius sedimentation basin....

11.24 Calculate the dimensions of a launder around the periphery of a 10.0 m-radius sedimentation basin. A critical flow condition exists at the outlet end of the launder. The design flow for this basin is 5000 m3/d. Assume that the channel width is 300 mm and that the flow will divide equally around the two halves of the basin. The launder is made with smooth concrete.

Assuming that the peak flow of the Quebrada de Oro in Miradero, Mayagüez basin is 3,000...

Assuming that the peak flow of the Quebrada de Oro in Miradero, Mayagüez basin is 3,000 cfs for a duration of 24 hours and 100-year recurrence, find: 1- The dimensions of the trapezoidal channel in concrete that allows this flow to be carried peak. For this, it is indicated that the maximum strip of land available for build channel is 50 ft. Assume for the solution a slope of 0.5%. 2- Calculate the critical depth in the channel (yc) and...

Design high-rate sedimentation tank(s) for a water treatment plant using plate settlers. 1. Design the rectangular...

Design high-rate sedimentation tank(s) for a water treatment plant using plate settlers. 1. Design the rectangular sedimentation tank(s), including launders and sludge collection mechanism. 2. Design the countercurrent plate settlers, including length, angle, and distance between plates (to achieve 100% removal of the target particle described below). 3. Draw a cross-section of the sedimentation tank with dimensions, indicating the concrete walls, main pipes, launders, plate settlers. 4. Quantify/discuss the improvement(s) that may result from installing the plate settlers. Inputs: Design...

Design a cubic rapid mixer for a water treatment plant with a peak flow rate of...

Design a cubic rapid mixer for a water treatment plant with a peak flow rate of 20,000 m3/d.  Assume the velocity gradient G in the mixer is to be at least 1,000 s-1and the detention time is at least 10 s. Determine the size of the mixing tank, the power input, and the rotational speed of the mixer if the radial flow impeller power number is 6.0

A rectangular shaped sedimentation tank is to be built for a design flow of 600 m3/h....

A rectangular shaped sedimentation tank is to be built for a design flow of 600 m3/h. If the detention time, overflow rate and weir loading rate are 3 hours, 50 m3/m2.d, 100 m3/m.d, calculate the length, width and depth of the tank and the weir length. (assume length to width ratio of 3:1) (8 points)

Dechlorination contact tank (Wastewater Treatment) An activated sludge plant has a design flow (average daily flow)...

Dechlorination contact tank (Wastewater Treatment) An activated sludge plant has a design flow (average daily flow) of 11 MGD. Determine dimensions of dechlorination tank. The design parameters: use 1 tank. detention time = 30 sec, depth = 10 ft, rectangular tank: L = 4 W. use maximum hourly flow (3 * Average design flow)

Two part question: 1) Design a chlorine contact basin (serpentine) to disinfect 1 MGD flow and...

Two part question: 1) Design a chlorine contact basin (serpentine) to disinfect 1 MGD flow and meet 4- log virus removal with a free chlorine residual of 0.1 mg/L (pH=7, Temp = 25C). Use a length:width ratio of approximately 20:1 and a depth of 4 to 6 feet. 2) Alter the design to achieve 3-log removal of Giardia cysts using free chlorine (still must treat 1 MGD, pH=7, T = 25C). How would the design change if you used chlorine...

. A wastewater treatment plant is to be designed for the 5-d sustained peak flowrate given...

. A wastewater treatment plant is to be designed for the 5-d sustained peak flowrate given an average daily flow of 13 MGD. Two aerated grit chambers in parallel will provide a total detention time of 4 minutes at peak flow. Determine: a) The volume of each chamber, in m3 . b) Chamber dimensions, in m, (length and width) if the design depth is 3.5 m and W:D is 1.2:1. Is the calculated L:W within the recommended range? c) Using...