Oil vapor in H2 - carbon trap sizing
Oil vapor in H2 - carbon trap sizing
(OP)
Situation: Pure H2 compression up to 6000 psi in an oil flooded recip, with oil coalescers downstream removing the liquid phase oil. The issue is that the coalescers don't remove the vapor phase oil, and the customer has a very tight 0.01 ppm hydrocarbon spec. I've been assigned to calculate the remaining oil in the H2 as an input to carbon trap sizing.
The oil to be used is Summit's DSL-68 (Diester). From talking to various engineers, solution thermodynamics (Henry's Law / Fugacity etc) is in play here because the H2 is supercritical, but I haven't been able to find any coefficient correlations for oil in H2 in literature. Am I headed in the wrong direction?
Thanks in advance!
The oil to be used is Summit's DSL-68 (Diester). From talking to various engineers, solution thermodynamics (Henry's Law / Fugacity etc) is in play here because the H2 is supercritical, but I haven't been able to find any coefficient correlations for oil in H2 in literature. Am I headed in the wrong direction?
Thanks in advance!





RE: Oil vapor in H2 - carbon trap sizing
i think we need to know the main temperature in the coalescer (and pressure), because it's probably a mist problem and not a "flash" problem, or maybe both. Plus, is it a vertical or horizontal separator, has it a mist separator on the outlet?
I investigated a bit about the DSL-68 and i found it is mainly based on a mixture of Diisononyl adipate and C15-30 alifatic hydrocarbons. Maybe it is possible to use the UNIFAC model if the problem is a "flash" one.
regards,
ZorN
RE: Oil vapor in H2 - carbon trap sizing
Can I ask where you found the details on DSL-68?