Cameron Carbon can predict the effectiveness and capacity of activated
carbon for a given application. Quantitative organic analyses are
input to our proprietary computer based isotherm models (TIP Model)
in order to estimate carbon exhaustion rates. This provides useful
information for project planning, costing and treatment system sizing.
Example
of Aqueous Phase Application
| Flow (GPM) |
1.00E+01 |
| Flow(GPD) |
1.44E+04 |
| Days per million gallons |
69.4 |
| |
|
|
Carbon
Saturation Rate |
| Compound |
Conc
(ug/L) |
Sorption
(% w/w) |
lb/day |
lb/1,000
gallons |
lb/million
gallons |
| A |
2.50E+03 |
2.25E+01 |
1.333E+00 |
9.254E-02 |
9.254E+01 |
| B |
2.34E+04 |
4.89E+00 |
5.753E+01 |
3.995E+00 |
3.995E+03 |
| C |
7.80E+02 |
2.40E+00 |
3.905E+00 |
2.712E-01 |
2.712E+02 |
| D |
5.50E+04 |
1.22E+01 |
5.398E+01 |
3.748E+00 |
3.748E+03 |
| E |
2.22E+02 |
2.86E+00 |
9.326E-01 |
6.477E-02 |
6.477E+01 |
Example of Vapor Phase Application
| Flow (CFM) |
160 |
| System Temperature (C) |
20 |
| System Pressure (mm Hg) |
760 |
| Compound |
Mol wt. |
ppm (v/v) |
Sorption (% w/w) |
Carbon
Saturation (lb/hr) |
| A |
102.03 |
1.00E+03 |
2.01E+01 |
1.36E+01 |
| B |
78.12 |
1.60E+00 |
7.86E+00 |
4.25E-02 |
| C |
147.01 |
1.40E-02 |
2.12E+01 |
2.60E-04 |
| D |
72.12 |
6.30E+00 |
7.61E+00 |
1.60E-01 |
| E |
72.12 |
3.00E+00 |
9.27E+00 |
6.24E-02 |
If you would like us to evaluate your application, please complete
the following form:
 System
Design/TIP Model Form
|
