Claims
- 1. A vapor recovery unit comprising a vapor inlet for taking up hydrocarbon vapor, at least two adsorber vessels, each of said adsorber vessels including an entry port for receiving vapors in the bottom thereof connected to closed pipe means within each of said vessels and which pipe means extends from said entry port to the top of each of said vessels discharging vapors received at the entry port at the top of each of said vessels; a bed of solid adsorbent having an affinity for hydrocarbons contained in each of said adsorber vessels; an outlet port in the bottom of each of said adsorber vessels for discharging vapors from said adsorber vessels after passing through said solid adsorbent; valve means for alternately directing said hydrocarbon vapors from said vapor inlet to one or the other of said entry ports of said at least two adsorber vessels; a vacuum system connected by connector means to an outlet in the bottom of each of said at least two adsorber vessels, said connector means permitting for alternately desorbing said adsorbent beds in said adsorber vessels; means for directing vapors desorbed from said absorbent beds through said vacuum system to a separator-absorber vessel wherein said desorbed vapors are brought in contact with a hydrocarbon absorbent liquid for recovery of a complete volume of hydrocarbon absorbent liquid including means for feeding said hydrocarbon absorbent liquid directly to said absorber vessel for passage to said separator; means for flowing said complete volume of said hydrocarbon absorbent liquid from said separator directly to cooler means and means for direct return of said hydrocarbon absorbent liquid to absorbent liquid storage.
- 2. The vapor recovery unit of claim 1 wherein said solid adsorbent is activated carbon.
- 3. The vapor recovery unit of claim 2 wherein said vacuum system includes a liquid ring vacuum pump.
- 4. The vapor recovery unit of claim 3 wherein said hydrocarbon vapors are carried in a carrier gas and wherein the carrier gas for said hydrocarbon vapors which is separated from the adsorbed hydrocarbon vapors is removed through the outlet port at the bottom of the vessel and vented to the atmosphere.
- 5. The vapor recovery unit of claim 3 wherein said hydrocarbon vapors are carried in a carrier gas and wherein the carrier gas is removed from the outlet port in the bottom of the adsorber vessel and returned to the adsorber vessel through a second entry port in the bottom of the vessel and used to charge the adsorber bed during the regeneration cycle.
- 6. The vapor recovery unit of claim 1 wherein said means for feeding said liquid absorbent is a single line, said single line including means to split the liquid flow so as to enter the absorber vessel at two separate points.
- 7. The vapor recovery unit of claim 6 wherein said means to split the liquid flow includes an upper spray line and a lower spray line and the separator-absorber vessel includes an absorber column which contains flanging positioned above said lower spray line.
- 8. The vapor recovery unit of claim 7 wherein said vapor recovery unit is constructed and arranged to be fitted to a skid.
- 9. The vapor recovery unit of claim 6 wherein the separator-absorber vessel includes two vertical immersion pumps for circulating said liquid absorbent and the regenerated hydrocarbon, the first of said two pumps being a sealed fluid pump and the second pump being a hydrocarbon product return pump.
Parent Case Info
This is a continuation of U.S. application Ser. No. 08/073,709 filed on Jun. 9, 1993, now abandoned.
US Referenced Citations (26)
Continuations (1)
|
Number |
Date |
Country |
Parent |
73709 |
Jun 1993 |
|