You are viewing an old version of this page. View the current version.

Compare with Current View Page History

« Previous Version 4 Next »

EXPERIMENT 3



In order to overcome the difficulties faced at the end of the second experiment, the team considered a new design, which consists of a diagonal column attached at the top of the vertical column. The design would help the saturated lime-water solution stay inside the apparatus, while still having the needed concentration at the exit. Since the velocity in the slanted tube is affected by the angle, its vertical component is lower than the upflow velocity of the primary column. This decreased velocity allows more lime to settle back into the column and thus prevent unnecessary lime loss. Thus the primary column would be used as a storage vessel for the suspended lime bed while the slanted tube above it would allow for a more uniform saturated lime mixture.  

The dimensions of apparatus are determined according to MathCad calculations; the relevant criteria being the length of both columns. MathCad file


Calculations were made using the following assumptions for simplification:

  • When elementary lime particles coagulate, the density of the larger mass stays the same as that of the original particles. This is unlike what happens in flocs, that have a Dfrac of 2.3.
  • Density of lime is 2.211 g/m^3: Particles are uniform.
  • Shape Factor of lime particles = 1: The lime particles are perfectly spherical.
  • Settling velocity = 10 m/day: Given a flow rate of 80 mL/min (as determined by Trial 1). This velocity corresponds to the finer lime particles that have a diameter of about 1 micrometer.



CALCULATIONS ANALYSIS


Theoretically, the maximum length of the tube should not exceed 1.5m. Lime particles will have a larger density than the flocs, which means their settling velocities will be higher than the assumed 10m/day. Also, it is not necesary that ALL lime particles settle down - some amount (not determined yet) will have to fall out of the lime feeder to solve the acidity problem. Consequently, the length of the tube needed will be lower than 1.5m.


The length needed for the pipe in order to obtain a developed laminar flow 'Le', was also calculated and determined in 10cm with the given (above) conditions. This is required to verify whether or not there is a parabolic profile at the end of the pipe. In conclussion, the length of the tube must be greater than Le.

With the new apparatus, as shown in figure-3 below, the team will carry out a fourth trial, and will make the required arrangements for more experiments, checking to see if the modification will be successful in maintaining the pH at 12 and if so, for how long.

Figure - 3 : the picture of new apparatus will be taken this week and put up (since we will get the constructed apparatus only by 10/27/09).


For this trial, distilled water will be used instead of tap water. In the picture below (figure 4), the ANC Control team can be seen carrying the distilled water tank on to the platform where the experiment is to be set up.

  • No labels