Basics on Tube Floc

cloak.toggle.exclusive=false

Floc is an aggregation of dirty particles in water. Particles are moving at different speed in the tube (as shown in the figure below) and cause particle collisions, thus forming "flocs". Our goal is to form as many flocs as possible, so that they precipitate out in the sedimentation process.

null

The tube flocculator allows the team to investigate the the process in which particles collide together to form flocs. Using Process Controller, we can isolate all parameters of flocculator in order to understand how each parameter affects the process.

• Computer with process controller installed
• Alum stock solution
• Clay stock solution
• 3 pumps for alum, raw water, and clay solution
• Influent and Effluent turbidimeter
• Elongated vertical flocculator
• Settling column (long glass tube)
• Pressure sensor

null

We've done so many cool things. Apart from collecting settling datasets to the process controller and analyze them, we also took videos and planning to track how the particles move and behave.

• Make sure all connection is tight.
• Make sure that there is no clogging in the flocculator and pump tubes
• Get rid of bubbles in the flocculator tube
• Check the pump tube size and the setting on the pump panel
• Check if the tube all goes in the correct direction, especially if you have made changes with the tube setup
• The cables connecting pump and the computer are easily unplugged, so check them out!

¹ Humic acid is added to the clay stock solution

The details on Process Controller can be viewed [here]. Before running an experiment, make sure:

• Check the source page
• Check the location of datalog path
• If a new set point has been added in the set point list (and not at the end of the list), check that all rules and states still are referencing the correct set point, and any variable set points are referencing the correct set point too.

• Always check tube connections and make sure there is no clogging in the connections.
• Check the stock solutions. Make sure that there is no sedimentation occurring in clay and alum stock solutions.
• Check the influent turbidimeter. If it displays lower turbidity, then check the clay and alum stock solutions. Check if the flow coming out of the pumps (You can check clay/alum flow rates with timer and graduated cylinder) Change in the process controller so that it will give correct value of clay/alum.
• Check bubbles in the flocculator and settling tubes, especially at the entrance of the settling column. Flocs could get trapped in the bubbles and get broken.

This occurs when Process Controller and the same method that you are working on is open on a different computer. Close out of Process Controller on all computers that are using the same method without saving. Open Process Controller and the method again. The states should reappear.

After running many sets of experiments, the particles get attached and accumulate in the flocculator tubes, so it's harder to observe what's going on in the tubes and this might contribute to a false effluent turbidity reading. Additionally, if the setup sits too long without any action, particles can build up in horizontal pieces of tubing and any connections.

The flocculator should be cleaned regularly. Since the tubing is clear, it is visually obvious when the tubes need to be cleaned. Ideally, cleaning can be done between each major experiment, as it is not hard and takes only moments.

1. Turn the Process Controller to the OFF state
2. Prepare a small piece of sponge (cleaning sponge) by the size of tube inner diameter by cutting the sponge with scissors
3. Insert the piece of sponge at the starting point of the tube flocculator (right at the beginning of the clear flocculator tube)
4. Press the pressure bottle (200kPa) to move the sponge in
5. Turn the Process Controller ON (State 1 - Clean Flocculator)
6. The piece of sponge will move through the flocculator tubing, cleaning the sides of the tubes of any flocs as it moves
7. Turn the Process Controller OFF when it almost reaches the end of tube
8. Clean out the sponge and repeat if the flocculator tubing is excessively dirty

The vial inside the influent turbidimeter accumulates dirty water and does not do adequate self-cleaning. The influent turbidimeter vial should be cleaned just as often as the flocculator, as it contributes to false influent turbidity readings.

1. Turn off the Turbidimeter
2. Twist in the plastic stoppers on the tubing before and after the turbidimeter to stop flow from coming into the turbidimeter
3. Follow the directions on the module to open the top
4. Carefully unscrew the vial
5. Leave the top of the turbidimeter vial in a careful place (facing up) while cleaning the vial
6. Rinse out the vial and fill it with clean water
7. Screw the vial back onto the top
8. Wipe the outside of the vial with a Kimwipe to remove all fingerprints and other blemishes
9. Place the top back into the module and into the lock position, unscrew the plastic stoppers on the tubing and turn the turbidimeter on

The clay and alum stock solutions can get old after no experiments have been running for quite some time. Because of processes like evaporation that we can not control, we can never be sure that the concentrations in the stocks are the same as we made them. If an experiment is going to be started after a long time from the last experiment, than the stocks should be remade in order to make sure that all parameters are the same across all experiments.