n A continuously mixed vessel containing the | ||||
optimally diluted feed solids concentration determined during static cylinder settling tests . n A metered peristaltic feed pump drawing material from the mixed feed container . n A metered peristaltic reagent pump introducing the predetermined flocculant and / or coagulant into the feed line . n A bench scale thickener where the flocculated feed slurry is introduced typically into a mini feedwell to promote mixing and allowing the slurry to flocculate and the feed energy to dissipate . n Flocculated solids settling to the underflow withdrawal cone and supernatant liquor reporting to the overflow . n A metered peristaltic pump extracting underflow material from the bottom of the bench scale thickener . Two different approaches to dynamic thickener test work exist , continuous or semicontinuous . Continuous test work begins with a thickener test unit empty except for supernatant liquor which is then followed by the introduction of the flocculant and slurry . The settled solids build to a certain bed height over time at which point the underflow pump is turned on at a certain withdrawal rate to maintain a specific |
bed height . As the parameters are adjusted such as flocculant dosage or feed rate throughout the test campaign , the underflow and overflow solids concentrations are monitored . Continuous thickener tests are typically conducted on larger or pilot test units as it attempts to replicate the same procedure a full-scale thickener would experience . Semi-continuous thickener test work begins the same way with the unit filled with supernatant liquor , followed by the introduction of the flocculated slurry , and the settled solids are allowed to build to a certain height . However , once it has reached the predetermined height , the feed slurry is stopped , and the underflow and overflow samples are taken to determine the solids concentrations . The underflow pump is turned on and the test unit is emptied and prepared to begin a separate test with different test parameters . This method is typically performed on smaller units with a limited amount of sample as it creates distinct tests for each set of test parameters with no chance of cross contamination from previous tests .
Again , there may be a few differences across the industry which include the dimensions of the bench scale thickener , solids bed height operation , location of flocculant / coagulant
|
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Thickener Diameter |
Solids Feed Tonnage |
Solids Loading Rate |
Unit Area Loading |
|
( m ) |
( t / h ) |
( SLR ) |
( UAL ) |
|
(( t / h )/ m ) |
( m / t / d ) |
|||
78.5 |
0.25 |
0.167 |
||
157.1 |
0.50 |
0.083 |
||
20.0 |
235.6 |
0.75 |
0.056 |
|
314.2 |
1.00 |
0.042 |
||
Table 1 : Solids loading rate and unit area loading comparison | ||||