Control of vapor emissions from gasoline stations

What is claimed is: 1. A vapor recovery system for a fuel dispensing facility, the system including: at least one fuel tank having ullage space; at least one fuel outlet line from the fuel tank to a fuel dispenser; at least one return line from the fuel dispenser to the fuel tank; and at least one vaporizing device resided within the fuel tank to add fuel into the ullage space for enhancing an equilibrium of fuel vapor and air in the ullage space, wherein the at least one vaporizing device comprises at least one hole in a pickup line between an intake and a head of a submersible pump, the submersible pump configured to draw the fuel from the fuel tank into the fuel dispenser. 2. The system of claim 1 , further comprising at least one canister comprising adsorbent. 3. The system of claim 2 , wherein the adsorbent comprises at least one structure selected from the group consisting of granular, pelletized, fibrous, honeycomb, and combinations thereof. 4. The system of claim 2 , wherein the adsorbent comprises at least one member selected from the group consisting of activated carbon, zeolite, activated alumina, silica, and combinations thereof. 5. The system of claim 4 , wherein a precursor of the activated carbon comprises at least one material selected from the group consisting of wood, peat, coal, coconut, lignite, petroleum pitch, petroleum coke, coal tar pitch, fruit pits, nut shells, sawdust, wood flour, synthetic polymer, natural polymer, and combinations thereof. 6. The system of claim 2 , wherein the adsorbent is pelletized activated carbon having a butane working capacity of greater than 5 g/100 ml, a butane ratio of greater that 50%, and a density of greater than 0.2 g/cc. 7. The system of claim 2 , wherein the adsorbent is pelletized activated carbon having a butane working capacity of greater than 10 g/100 ml, a butane ratio of greater that 75%, and a density of greater than 0.24 g/cc. 8. The system of claim 2 , wherein the adsorbent is pelletized activated carbon having a butane working capacity of greater than 11 g/100 ml, a butane ratio of greater that 85%, and a density of greater than 0.26 g/cc, is used as adsorbent. 9. The system of claim 2 , wherein the canister has a cylindrical shape with a ratio of length to diameter of at least two. 10. The system of claim 2 , wherein the canister has a non-cylindrical or complex shape with a ratio of cross-sectional area to length of at least 0.2. 11. The system of claim 1 , further including a heating means positioned on the at least one return line from the fuel dispenser the fuel tank to enhance equilibrium of fuel vapor and air in the ullage space. 12. The system of claim 11 , comprising at least one air passage line between the fuel tank and an atmosphere. 13. The system of claim 11 , wherein the heating means comprises at least one heater for heating vapor or air entering the ullage space. 14. The system of 11 , wherein the heating means comprises at least one heater for heating vapor or air inside the ullage space. 15. A vapor recovery system for a fuel dispensing facility, the system including: at least one fuel tank having ullage space; at least one fuel outlet line from the fuel tank to a fuel dispenser; at least one return line from the fuel dispenser to the fuel tank; and at least one vaporizing device resided within the fuel tank to add fuel into the ullage space for enhancing an equilibrium of fuel vapor and air in the ullage space, wherein the at least one vaporizing device comprises at least one nozzle attached to a pickup line between an intake and a head of a submersible pump and located within the volume of the fuel tank, the submersible pump configured to draw the fuel from the fuel tank into the fuel dispenser. 16. A vapor recovery system for a fuel dispensing facility, the system including: at least one fuel storage tank having ullage space; a first pump connected to at least one fuel outlet line from the fuel storage tank to a fuel dispenser; at least one fuel return line from the fuel dispenser to the fuel storage tank; and at least a second pump connecting a first passage line to a second passage line, wherein: the first passage line is opened to the ullage space inside the fuel storage tank, the second passage line is emerged in a fuel-filled portion inside the fuel storage tank, and the second pump draws gaseous component from the ullage space of the fuel storage tank into the fuel-filled portion of the fuel storage tank. 17. A vapor recovery system for a fuel dispensing facility, the system including: at least one fuel storage tank comprising ullage space; at least one fuel outlet line from the fuel storage tank to a fuel dispensing station; at least one fuel return line from the fuel dispensing station to the fuel storage tank; a submersible pump connected to the at least one fuel outlet line from the fuel storage tank to the fuel dispensing station, the submersible pump configured to draw the fuel from the fuel storage tank into the fuel dispensing station; and at least one vaporizing device positioned on a pickup line between an inlet and a head of the submersible pump.