VAPOR RECOVERY DEVICE

Abstract

To provide a vapor recovery device capable of making the most of the capacity of the adsorption/desorption towers and efficiently adsorbing and desorbing fuel oil vapor. A vapor recovery device 1 having: a pump 5 disposed on a pipe 4 branched from a vent pipe 3, one end of which being connected to an underground tank 2, to suck a fuel oil vapor V in the underground tank; a condenser 6 connected, on the branch pipe, to a downstream side of the pump to condense the fuel oil vapor; and a plurality of adsorption/desorption towers 7a, 7b, 8a, 8b connected, on the branch pipe, to a downstream side of the condenser in series to adsorb/desorb fuel oil vapor fed from the condenser. One of the adsorption/desorption towers can be arranged above another one of remaining adsorption/desorption towers, and the pump may be fixed in a housing 30 through a bottom face and a side face of the pump and elastic bodies 32, 33.

Claims

1. A vapor recovery device comprising: a pump disposed on a pipe branched from a vent pipe, one end of which being connected to an underground tank, to suck a fuel oil vapor in the underground tank; a condenser connected, on the branch pipe, to a downstream side of the pump to condense the fuel oil vapor; and a plurality of adsorption/desorption towers connected, on the branch pipe, to a downstream side of the condenser in series to adsorb/desorb a fuel oil vapor fed from the condenser.

2. The vapor recovery device as claimed in claim 1, wherein one of said adsorption/desorption towers is arranged above another one of remaining adsorption/desorption towers.

3. The vapor recovery device as claimed in claim 1, wherein said pump is fixed in a housing through a bottom face and a side face of said pump and elastic bodies.

4. The vapor recovery device as claimed in claim 3, wherein said elastic body on the side face side of the pump is softer than said elastic body on the bottom face side of the pump.

5. The vapor recovery device as claimed in claim 3 further comprising a bracket for supporting said elastic body on the side face side of the pump, said bracket being divided into a plurality of parts.

6. The vapor recovery device as claimed in claim 2, wherein said pump is fixed in a housing through a bottom face and a side face of said pump and elastic bodies.

7. The vapor recovery device as claimed in claim 6, wherein said elastic body on the side face side of the pump is softer than said elastic body on the bottom face side of the pump.

8. The vapor recovery device as claimed in claim 7 further comprising a bracket for supporting said elastic body on the side face side of the pump, said bracket being divided into a plurality of parts.

9. The vapor recovery device as claimed in claim 4 further comprising a bracket for supporting said elastic body on the side face side of the pump, said bracket being divided into a plurality of parts.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0016] FIG. 1 is a schematic view showing a vapor recovery device according to an embodiment of the present invention to explain adsorbing motion at unloading;

[0017] FIG. 2 is a drawing for explaining an example of desorbing motion after unloading in the vapor recovery device shown in FIG. 1;

[0018] FIG. 3 is a drawing for explaining another example of desorbing motion after unloading in the vapor recovery device shown in FIG. 1;

[0019] FIG. 4 is a front view showing an example of concrete construction of a vapor recovery device according to the present invention;

[0020] FIG. 5 is a perspective view of the vapor recovery device shown in FIG. 4; and

[0021] FIG. 6 is a perspective view of the vapor recovery device shown in FIG. 4.

DETAILED DESCRIPTION OF THE INVENTION

[0022] Next, an embodiment of the present invention will be explained with reference to figures in detail.

[0023] FIG. 1 shows a vapor recovery device according to an embodiment of the present invention, and the vapor recovery device 1 includes a compression pump 5 disposed on a branch pipe 4 branched from a vent pipe 3, one end of which is connected to an underground tank 2, via a branching point 3a and joins the vent pipe 3 via a confluence point 3b to suck a gasoline vapor V staying in the underground tank 2; a condenser 6 for condensing the gasoline vapor V from the compression pump 5; and the first and second adsorption/desorption tower groups 7, 8 for adsorbing/desorbing a residual vapor R fed from the condenser 6; and so on.

[0024] Between the branching point 3a and the confluence point 3b of the vent pipe 3 is mounted a bent valve 10, and at an upper end of the vent pipe 3 is drilled a vent hole 3c. The vent valve 10 does not open unless it becomes more or equal to a predetermined pressure (abnormal pressure), so that the gasoline vapor V from the underground tank 2 normally flows to the branch pipe 4 from the branching point 3a.

[0025] The compression pump 5 is manually or automatically activated when unloading of a fuel oil G starts, and manually or automatically stops when the unloading is finished. The compression pump 5 sucks and recovers the gasoline vapor V through the branch pipe 4, and discharges the sucked and recovered gasoline vapor V to the condenser 6 described below. In this connection, any pump capable of sucking the gasoline vapor V can be used other than the compression pump.

[0026] The condenser 6 is mounted to condense the gasoline vapor V, and the gasoline vapor V is separated into a liquefied gasoline L and the residual vapor R that remains in gasoline vapor state without being liquefied. Liquefaction of the gasoline vapor V is, for example, performed by using an external cooling means or circulating the gasoline itself in the condenser 6.

[0027] On a downstream side of the condenser 6 is attached a liquid returning valve 6a. Opening this liquid returning valve 6a allows the liquefied gasoline L by the condenser 6 to be guided to the underground tank 2, on the other hand, closing the liquid returning valve 6a allows the residual vapor R separated by the condenser 6 to be guided to the first and second adsorption/desorption tower groups 7, 8.

[0028] The first and second adsorption/desorption tower groups 7, 8 are provided in parallel, and the first adsorption/desorption tower group 7 includes two adsorption/desorption towers 7a, 7b that are connected with each other in series, and the second adsorption/desorption tower group 8 includes two adsorption/desorption towers 8a, 8b that are connected with each other in series.

[0029] Each adsorption/desorption tower 7a, 7b, 8a, 8b has an adsorption function that adsorbs only gasoline components from the residual vapor R consisting of the gasoline components and air components, which are supplied from the condenser 6, and separates residual air components from the gasoline components, and a desorption function that desorbs the gasoline components adsorbed. The air components are released outside from the vent hole 3c of the vent pipe 3. In order to change the adsorption function and the desorption function, on pipes to which adsorption/desorption towers 7a, 7b, 8a, 8b are mounted a plurality of two-way valves 11 (11a-11i).

[0030] Further, in the first and second adsorption/desorption tower groups 7, 8, the adsorption/desorption tower 7b is arranged above the adsorption/desorption tower 7a (higher in position), and the adsorption/desorption tower 8b is arranged above the adsorption/desorption tower 8a (higher in position), which causes connection pipes of the adsorption/desorption towers 7a, 7b and connection pipes of the adsorption/desorption towers 8a, 8b to be arranged high in position (in a direction apart from the ground), so that even if a pool of the liquefied gasoline L is generated in the pipes, the liquefied gasoline L can preferably be discharged with ease.

[0031] A control device 12 is mounted to control start/stop of the compression pump 5 and opening/closing of the liquid returning valve 6a and the two-way valves 11 and so on.

[0032] A tank truck 20 has at least one unloading hose 20a, and at least one distant oiling pipe 22 connected to the underground tank 2 is disposed in an oiling port box 21. A gasoline G loaded on the tank truck 20 is filled via the unloading hose 20a and the distant oiling pipe 22 into the underground tank 2 to be stored therein.

[0033] To the underground tank 2 are mounted a couple of joints 23 (23A, 23B); to the right side joint 23A is attached the distant oiling pipe 22 extending from the oiling port box 21 to the underground tank 2; and to the left side joint 23B is attached the vent pipe 3 so as to be connected to the underground tank 2 and extend to the ground.

[0034] FIGS. 4 to 6 show a concrete construction example of the vapor recovery device 1; at an upper left portion of a rectangular housing main body 30 is arranged the control device 12; below the control device 12 is mounted the first adsorption/desorption tower group 7 (the adsorption/desorption tower 7a, 7b) are arranged; and behind the first adsorption/desorption tower group 7 are arranged the second adsorption/desorption tower group 8 (the adsorption/desorption towers 8a, 8b) not shown. As shown in FIG. 4, since the adsorption/desorption tower 7b is arranged above (higher position) the adsorption/desorption tower 7a, the connection pipes 4a, 4b of the adsorption/desorption tower 7a, 7b are arranged at higher position (in a direction upwardly apart from the ground), so that even if a pool of the liquefied gasoline L is generated in the pipes 4a, 4b, the liquefied gasoline L can be discharged with ease.

[0035] On a lower right portion of the housing main body 30 is mounted the compression pump 5, and below the compression pump 5 is disposed a motor 31 for driving/stopping the compression pump 5, and on the left side of the compression pump 5 is arranged the condenser 6.

[0036] When the motor 31 is driven, its vibration is transferred to the compression pump 5 to be a cause of abnormal sound, so that on a side face and a bottom face of the compression pump 5 are attached elastic bodies 32, 33 such as rubber for absorbing the vibration. Here, forming the elastic body 32 on the side face side is softer than the elastic body 33 on the bottom face side prevents sympathetic vibrations and absorbs vibration more efficiently, and avoids transmission of vibration to the condenser 6 and the adsorption/desorption tower groups 7, 8.

[0037] Further, the elastic body 32 on the side face side is supported by a bracket 34, and the bracket 34 is formed to be dividable into a plurality of parts, which realizes easy maintenance work of the bracket 34.

[0038] Next, motion of the vapor recovery device 1 with the above construction will be explained with reference to drawings.

[0039] In FIG. 1, when unloading of a gasoline G from a tank truck 20 starts, the control device 12 opens the two-way valves 11a, 11b, 11g, 11h, 11i and closes the two-way valves 11c, 11d, 11e, 11f, and the compression pump 5 is activated.

[0040] With the above motion, the gasoline vapor V staying in the underground tank 2 flows in the branch pipe 4 and is condensed in the condenser 6, then a liquefied gasoline L returns to the underground tank 2 through the liquid returning valve 6a and the distant oiling pipe 22.

[0041] On the other hand, the residual vapor R that is not liquefied in the condenser 6 is introduced to the first and second adsorption/desorption tower groups 7, 8, and firstly gasoline components included in the residual vapor R is adsorbed in the adsorption/desorption towers 7a, 8a, and when the quantity of the residual vapor R exceeds the capacity of the adsorption/desorption towers 7a, 8a, gasoline components of the residual vapor R is adsorbed in the adsorption/desorption towers 7b, 8b in the next stage. Like this, since the adsorption/desorption towers 7a, 7b and the adsorption/desorption towers 8a, 8b are connected in series, deviation in amount of adsorption among the adsorption/desorption towers, which is generated when the adsorption/desorption towers are connected in parallel, can be eliminated, and it becomes possible to sufficiently make use of the capacity of the adsorption/desorption towers.

[0042] Then, air components separated from the residual vapor R returns to the vent pipe 3 through the confluence point 3b of the vent pipe 3, and is released into the air from the vent hole 3c

[0043] Next, the motion of desorbing gasoline components adsorbed in the adsorption/desorption towers 7a, 7b, 8a, 8b as described above will be explained with reference to FIGS. 2 and 3.

[0044] When the unloading of gasoline from the tank truck 20 is finished, as shown in FIG. 2, by the control device 12 are opened the two-way valves 11a, 11d, 11f, 11g, 11i, and are closed the two-way valves 11b, 11c, 11e, 11h, and air is introduced to the second adsorption/desorption tower group 8 from the two-way valve 11f.

[0045] With the above motion, gasoline components are desorbed from the adsorption/desorption tower 8b of the second adsorption/desorption tower group 8, and after that, gasoline components are desorbed from the adsorption/desorption tower 8a. Like this, since the adsorption/desorption tower 8a and the adsorption/desorption tower 8b are connected in series, deviation in amount of desorption among the adsorption/desorption towers, which is generated when the adsorption/desorption towers are connected in parallel, can be eliminated, and it becomes possible to sufficiently make use of the capacity of the adsorption/desorption towers.

[0046] The gasoline components desorbed from these adsorption/desorption towers 8a, 8b return to the condenser 6 through the compression pump 5 together with air, and the liquefied gasoline L liquefied through the condensation in the condenser 6 returns to the underground tank 2 through the liquid returning valve 6a and the distant oiling pipe 22. On the other hand, the air returns to the vent pipe 3 via the confluence point 3b of the vent pipe 3, and is released into the air via the vent hole 3c.

[0047] After several minutes of desorption motion in the second adsorption/desorption tower group 8, as described in FIG. 3, by the control device 12 are closed the two-way valves 11a, 11d, 11f, 11g, and are opened the two-way valves 11b, 11c, 11e, 11h, 11i, and air is introduced to the first adsorption/desorption tower group 7 from the two-way valve 11e, and in the same manner as described above, desorption motion in the first adsorption/desorption tower group 7 is performed for several minutes. In this case also, since the adsorption/desorption tower 7a and the adsorption/desorption tower 7b are connected in series, deviation in amount of adsorption among the adsorption/desorption towers, which is generated when the adsorption/desorption towers are connected in parallel, can be eliminated, and it becomes possible to sufficiently make use of the capacity of the adsorption/desorption towers. Like this, performing desorbing motion while exchanging the first adsorption/desorption tower group 7 or the second adsorption/desorption tower group 8 under desorption operation completes desorbing motion in the adsorption/desorption towers 7a, 7b, 8a and 8b.

[0048] As described above, with the embodiment, the capacity of the adsorption/desorption towers can be utilized to maximum, which allows fuel vapor to efficiently be adsorbed and desorbed.

[0049] Meanwhile, shape and connecting structure of each element explained in the above embodiment are merely examples, and any structure can be used without departing from the scope and spirit of this invention. [0050] 1 vapor recovery device [0051] 2 underground tank [0052] 3 vent pipe [0053] 3a branching point [0054] 3b confluence point [0055] 3c vent hole [0056] 4 branch pipe [0057] 5 compression pump [0058] 6 condenser [0059] 6a liquid returning valve [0060] 7 first adsorption/desorption tower group [0061] 7a, 7b adsorption/desorption towers [0062] 8 second adsorption/desorption tower group [0063] 8a, 8b adsorption/desorption towers [0064] 10 vent valve [0065] 11 (11a-11f) two-way valves [0066] 12 control device [0067] 20 tank truck [0068] 20a unloading hose [0069] 21 oiling port box [0070] 22 distant oiling pipe [0071] 23 (23A, 23B) joints [0072] 30 housing main body [0073] 31 motor [0074] 32, 33 elastic bodies [0075] 34 bracket [0076] G fuel oil (gasoline) [0077] L liquefied gasoline [0078] R residual vapor [0079] V fuel oil vapor (gasoline vapor)