|
MTBE |
BENZENE |
||
|
Solubility, mg/l |
48,000 |
1750 |
|
|
Koc |
12 |
97 |
|
|
Diffusion Coefficient water, cm2/sec |
0.78E-05 |
1.10E-5 |
|
|
Vapor pressure, mm Hg |
249 |
95.2 |
|
|
Henry's Law Constant |
0.024 |
0.220 |
|
MTBE is 28 times more soluble than Benzene.
Koc = organic carbon coefficient = concentration in carbon / concentration in water
The transport of hydrocarbons by groundwater is retarded by the presence of organic carbon in the soil.
The retardation factor = 1 + (R/q) x Kd.
R= Dry Bulk Density
q = Volumetric water content
Kd = Koc x organic soil content
Assuming a soil with the following properties: P= 1.8, q = 0.2 and organic soil content = 0.01 or 1%.
MTBE Retardation factor = 1+(1.8/0.2) x (0.01 x 12) = 2.08
Benzene Retardation factor = 1+(1.8/0.2) x (0.01 x 97) = 9.73
The groundwater transportation velocity of a compound: vr = the groundwater velocity/ Retardation factor.
vr MTBE = v/2.08
vr Benzene = v/9.73
Therefore, if the above site has a groundwater velocity of 200 feet per year, Benzene will move 20.5 in one year, while MTBE will move 96 feet.
MTBE is 2.6 times more likely to vaporize than Benzene.
MTBE is 9.2 times more likely to stay in water or to enter water from the atmosphere than Benzene. MTBE prefers to be in water 42 times more than it does air.
The Henry's Law Constant is the ratio of the concentration in air divided by the concentration in water. MTBE's low Henry's Law Constant (0.024) indicates that it greatly prefers water to air and any vapor that contacts water will preferably move into the water.