Develop an equation for calculation of critical concentration of flocculant when temperature is increased from T1 to T2 (which is equal to 2*T1) Continuation of example problem with comparing ionic flocculant with polymeric flocculant Flocc. yeast cells/debris in 1M NaCL in a 100L tank @ 20°C Company cationic polymer (MW=9,000 g/gmole) -Equivalent to a tetravalent cation -Can be cleared downstream operations See image for previous work done on example problem that needs expanded upon for the following.. Calculate the critical concentration of polymeric flocculant required at 4°C. Determine the cost of polymer per tank at 4°C
Develop an equation for calculation of critical concentration of flocculant when temperature is increased from T1 to T2 (which is equal to 2*T1) Continuation of example problem with comparing ionic flocculant with polymeric flocculant Flocc. yeast cells/debris in 1M NaCL in a 100L tank @ 20°C Company cationic polymer (MW=9,000 g/gmole) -Equivalent to a tetravalent cation -Can be cleared downstream operations See image for previous work done on example problem that needs expanded upon for the following.. Calculate the critical concentration of polymeric flocculant required at 4°C. Determine the cost of polymer per tank at 4°C
Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter1: Chemical Foundations
Section: Chapter Questions
Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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- Develop an equation for calculation of critical concentration of flocculant when temperature is increased from T1 to T2 (which is equal to 2*T1)
- Continuation of example problem with comparing ionic flocculant with
polymeric flocculant
Flocc. yeast cells/debris in 1M NaCL in a 100L tank @ 20°C
Company cationic
-Equivalent to a tetravalent cation
-Can be cleared downstream operations
See image for previous work done on example problem that needs expanded upon for the following..
-
- Calculate the critical concentration of polymeric flocculant required at 4°C.
- Determine the cost of polymer per tank at 4°C
![Z₁ = 1
tetravalent polymer
Nau
[Ci, How]₂= Z,
[Ci, Floce],
Z₂ = 4
43.29
T₁ = 20°C, retravalent
T₂ = 4°C, terravalent
=
Z₂
[C, Floce 1₂
->
ponymer
Cost: (2.4414 x10 mol polymer) (100 X) (+15)
/tank
very
4°
S
1
2.441410
a.MuMx10 (1 ml)
-4
-4
*1cg potym ) (-1000g.) (2000)
m)
reasonable
→ Calc. [C, floce] @4°c
Calc. cost /tunk](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fdafb1828-6fd2-47c2-aedd-e7a4debc2bcb%2F87dcae30-958a-4aa8-9430-d2cfb17cee7c%2F5apmr2_processed.png&w=3840&q=75)
Transcribed Image Text:Z₁ = 1
tetravalent polymer
Nau
[Ci, How]₂= Z,
[Ci, Floce],
Z₂ = 4
43.29
T₁ = 20°C, retravalent
T₂ = 4°C, terravalent
=
Z₂
[C, Floce 1₂
->
ponymer
Cost: (2.4414 x10 mol polymer) (100 X) (+15)
/tank
very
4°
S
1
2.441410
a.MuMx10 (1 ml)
-4
-4
*1cg potym ) (-1000g.) (2000)
m)
reasonable
→ Calc. [C, floce] @4°c
Calc. cost /tunk
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