Patent Grant
6929142
This invention relates to a hatchway cover that may be installed over a hatch or opening in a floating roof storage tank, wherein the cover provides a good seal against vapor leakage when closed, but can be opened to varying degrees to allow access to the internal storage volume of the tank for deploying equipment into the tank, such as a robotic inspection vehicle attached to one or more hoses and/or wire harnesses.
A floating roof storage tank generally has a solid cylindrical outer wall covered by a solid dome-shaped roof. A floating roof is held within the volume defined by the outer wall and roof. The floating roof extends over the liquid contents held within the volume, and forms a vapor seal around the internal circumference of the cylindrical wall. The height within the tank at which the floating roof is positioned varies according to the amount of liquid being stored within the tank and the rate at which the liquid is pumped out of the tank.
Floating roof storage tanks generally are used to store flammable liquids, such as gasoline. A vapor space is formed inside the tank, between the floating roof covering the gasoline and the outer tank roof. Vapors emitted from the internal volume of the storage tank are collected in the vapor space to prevent significant amounts of vapor from being expelled to the atmosphere outside the tank. Environmental protection regulations restrict the amount of hydrocarbon vapors that may be released to the atmosphere. Air quality may be impacted adversely if hydrocarbon vapor emissions exceed permitted amounts.
Manual access to the internal volume of the tank is provided within the vapor space. One or more access ports or doorways are formed in the roof or outer wall of the tank. Persons may enter the vapor space through such access port(s) to service the tank, the floating roof and any equipment housed inside the tank.
Special precautions are taken when introducing equipment into the internal volume of the floating roof storage tank when the tank volume holds a flammable liquid, such as gasoline. Measures are taken to prevent sparks and associated combustion of flammable vapors. Measures are also taken to minimize the amount of time the seal between the flammable liquid and the vapor space above the floating roof is broken to prevent substantial amounts of flammable vapors from being emitted into the vapor space.
The floating roof frequently is provided with an opening or hatchway for access to the internal tank volume under the floating roof. That hatchway is covered with a hatch door that is sealed when closed to prevent unintended release of vapors. The hatch door also may be provided with grounding means to minimize the possibility of a spark.
Floating roof storage tanks are inspected at regular intervals to locate cracks, corrosion or other defects that might lead to tank failure. Environmental protection regulations specify the frequency and recommended procedures for inspecting tanks for structural integrity. One method involves introducing a remote controlled submersible vehicle into the tank while the tank remains in service. For example, U.S. Pat. No. 5,205,174 discloses a scavenger submersible vehicle that inspects the internal surfaces of a liquid filled tank using a video camera and/or ultrasound pulses. One or more umbilical hose(s) and wire harness(es) connect the remote-controlled vehicle to its power source and air or vacuum source, and further provide a link for transmitting navigation and inspection data from the vehicle to one or more computers located outside the tank.
While the vehicle readily may pass through the hatchway opening formed in a floating roof of a floating roof storage tank, the umbilical hose(s) and wire harness(es) extend through that opening and prevent re-positioning of the existing hatch cover over the hatchway opening. The submersible vehicle takes substantial time to traverse the inner surfaces of the tank to complete its inspection, and during that time, vapors from the tank can escape into the vapor space through the open hatchway. Thus, the industry seeks an improved hatch cover that can seal the hatchway opening while the inspection vehicle is deployed within the tank.
U.S. Pat. No. 1,592,524 discloses a floating roof tank with a cover plate that is pivotally secured to the upper floating wall. The cover plate has a recess to permit a pipe to pass therethrough. The tank is intended for storing oil, and no means are provided for minimizing vapor emissions. See also U.S. Pat. No. 945,753 showing a trap door with an opening for a pipe to pass therethrough.
A hatch cover for a liquid storage tank, most particularly a floating roof storage tank, has first and second base plates each defining holes or recesses that are complementary to one another. The complementary recesses form an opening through which inspection or maintenance equipment may be introduced into the volume of the tank as the hatch cover is installed over a hatchway in the floating roof while the tank holds a liquid, such as gasoline, oil, other petroleum products, jet fuel, chemicals, suspensions or slurries. Preferably the recesses are semi-circular, such that the recesses together form a generally circular opening with a diameter substantially comparable to the diameter of the circular hatchway. Alternatively, the recesses may have other shapes complementary to the hatchway opening, whether the opening is square, rectangular, hexagonal or octagonal or other regular or irregular geometric shape. The base plates are movably connected to one another, preferably by one or more hinges, such that the first base plate is movable from a folded position to an unfolded position. In the folded position, the top surface of the first base plate is over the top surface of the second base plate.
The hatch cover also includes first and second door panels that are movably connected to the base plates. In the preferred embodiment, the first door panel is movably connected to the first base plate and movable from a closed position over the top surface of the first base plate to an open position at an angle with respect to the top surface of the first base plate. The open position preferably is at an angle from about 90 degrees (i.e., substantially perpendicular) to about 180 degrees. In this preferred embodiment, the second door panel is movably connected to the second base plate and movable from a closed position over the top surface of the second base plate to an open position at an angle with respect to the top surface of the second base plate. Each door panel defines a cut out or notch, preferably arcuately- or semi-circularly-shaped, where the notch in the second door panel is complementary to the notch in the first door panel. In this preferred embodiment, the door panels are connected to the top surfaces of the base plates with hinges. Most preferably, the hinges are attached along an opposite edge of the door panels from the edge that has the cut out or notch formed therein.
When the first door panel is in its closed position, it substantially covers the hole or recess formed in the first base plate. When the second door panel is in its closed position, it substantially covers the hole or recess formed in the second base plate. However, the complementary notches in the first and second door panels define an opening for providing access into the storage tank that remains open even when the door panels are closed.
In a more preferred embodiment, one or more flanges extend from the bottom surface of the first base plate and adjacent to the first recess, and from the bottom surface of the second base plate and adjacent to the second recess. The flanges seat within the hatchway formed in a portion of a tank wall and along the inner periphery of said hatchway to hold the hatch cover in place over the hatchway.
In another more preferred embodiment, a multi-part brush seal extends along the first cut out or notch in the first door panel and along the second cut out in the second door panel. The brush seal engages any tubing or wiring to the equipment that extends through the opening during the inspection or maintenance of the tank. The brush seal does not impede movement of the tubing or wiring, but helps to limit vapor emissions. As a further step to limit vapor emissions, a gasket or collar is supplied to wrap around the exposed tubing or wiring and cover exposed portions of the opening formed by the first and second cut outs in the first and second door panels when the door panels are in their closed position.
The hatch cover is readily installed over a hatchway of a floating roof tank. The hatch cover may be folded in half at the hinge or hinges connecting the two base plates. When so folded the top surface of the first door panel contacts the top surface of the second door panel. In the folded position, the hatch cover is more readily stored, handled and transported to and from the installation site. Most preferably, one or more elongated openings are formed along the periphery of the base plates. The elongated openings serve as handles for gripping the base plates when folding, unfolding or transporting the hatch cover.
Any original hatch cover sealing the hatchway is removed to permit the hatch cover according to the invention to be installed. Upon installation, the hatch cover of the invention is unfolded so that the bottom surfaces of the base plates contact the upper surface of the floating roof around the hatchway. The flange(s) help to seat the cover over the hatchway. Then, one or both door panels may be opened to allow inspection or maintenance equipment to be introduced into the tank. The door panels each are movable independently. After the equipment is inside the tank, the door panels are closed. The opening defined by the complementary notches in the door panels then may be sealed. If one or more hoses or tubes or wires extend through the opening, a gasket or collar can be wrapped around such hoses, etc., to seal the space left in the opening. Preferably such gasket is formed from an open cell or closed cell foam, or alternatively from conformable rubber, plastic gel or a sandbag. After the inspection or maintenance work has been completed, the gasket is removed, and one or both door panels are opened to allow the equipment to be removed from the tank. Thereafter, the hatch cover can be folded and removed from the floating roof hatchway. The original hatch cover can be reinstalled into position to close the hatchway and prevent vapor emissions.
When intended for use in a floating roof storage tank where vapor emissions may cause a hazardous flammable condition, the hatch cover preferably is formed from materials that will not generate heat or sparks. In addition, the materials selected to form the hatch cover should not corrode or at least should not corrode excessively when exposed to the liquids stored in such tanks. Preferably, the base plates and door panels are formed from a material selected from the group consisting of: polyethylene, high density polyethylene (HDPE), ultra high molecular weight (UHMW) polyethylene, static dissipative UHMW polyethylene, aluminum, brass and carbon fiber composites. Metal components, such as aluminum to form the flanges, may be used, but care should then be taken to ground the entire hatch cover or at least such metal components to prevent sparks. Grounding may be accomplished with a conductive grounding cable attached at one end to one of the hinges or other metal components of the hatch cover and at its opposite end to a surface of the floating roof tank.
In a further embodiment of the invention, the hatch cover is designed to be permanently affixed over a hatchway of a floating roof storage tank. In such further embodiment, the door panels are movably connected, such as by hinges at their outer edges, to the upper surface of an internal floating roof. The door panels thus can be opened to expose the hatch so that equipment may pass into the internal tank volume through the hatch. When the door panels are closed over the hatch, the complementary cut outs or notches formed in the inner edges of the panels together form a preferably centrally located opening through which the umbilical cord to an inspection vehicle may pass. To completely close the hatch, the centrally located opening defined by the notches in the door panels also may be covered by a removable cover plate when the internal volume of the tank is not being accessed.
Referring first to
For the tank shown in
As shown in
Tubing forming a suction line 34 in combination with a blower line 40 is joined with one or more cables for transmitting electric signals to the vehicle and transmitting electric signals back to the computer. The tubing and blower line and cable(s) together form an umbilical cord 48 that is installed over a pulley 41. As shown in
A hatchway 46 is provided through the floating roof 18. The vehicle 30 preferably has a height and width that allow the vehicle to be passed through the hatchway 46 when the existing hatch cover provided on the floating roof 18 has been removed. Generally, the hatchways in floating roofs are circular with diameters ranging from 24 to 48 inches. Alternatively, the hatchways may have other geometric shapes, such as square, rectangular, hexagonal or octagonal, or other regular or irregular shape. The floating roofs most frequently are formed from aluminum.
It is also possible to install a second tripod with a pulley (not shown) on the floating roof 18 and over the hatchway 46 where the internal floating roof has sufficient stability to support such weight.
Environmental regulations limit the amount of time that the hatchway may be opened because vapors from volatile liquids stored within the tank are emitted into the vapor space causing a hazardous condition. Moreover, such emitted vapors may also be expelled from the tank into the atmosphere. However, when a tank is to be inspected using an inspection vehicle while the tank remains in service, i.e., with the liquid stored therein remaining in the liquid holding volume during the inspection, it is not possible to close the existing floating roof hatch cover. The umbilical cord between the inspection vehicle and the computer(s) and other equipment extends through the hatchway during the inspection. A hatch cover according to the invention permits the umbilical cord to extend therethrough during the inspection, and also limits or prevents vapor from escaping from the volatile liquid and into the vapor space above the floating roof.
Referring next to
Preferably, the base plates 52, 54 are formed from high density polyethylene, static dissipative UHMW polyethylene, or aluminum, and the hinges are formed from aluminum, brass or a carbon fiber composite. It is preferred that the materials be selected not only for durability, but also for ease in handling and portability, and for reducing or minimizing the possibility of spark generation.
A flange 64 extends outwardly and generally perpendicularly from the lower surface of the first base plate 52. The flange 64 extends generally around the semi-circular recess 60. A flange 66 extends outwardly and generally perpendicularly from the lower surface of the second base plate 54. The flange 66 extends generally around the semi-circular recess 62. The first and second flanges 64, 66 together form a seating ring when the first and second base plates 52, 54 are in a fully open position where the plates are generally planar. The first and second flanges 64, 66 help to seat the hatch cover over the hatchway in the floating roof tank. The flanges may be formed from aluminum, brass, plastic, rubber, carbon fiber composites or other non-sparking materials. A first door panel 68 is connected to the upper surface of the first base plate 52 with hinge 72. The first door panel 68 substantially covers the semi-circular recess 60 in the first base plate 52 when the first door panel 68 is in its closed position as shown best in FIG. 6. When the first door panel 68 is opened as shown in
A second door panel 70 is connected to the upper surface of the second base plate 54 with hinge 74. The second door panel 70 substantially covers the semi-circular recess 62 in the second base plate 54 when the second door panel 70 is in its closed position, as shown in
The door panels 68, 70 preferably are fabricated from high density polyethylene, static dissipative UHMW polyethylene or aluminum, and the hinges preferably are formed from aluminum, brass or a carbon fiber composite. The components of the hatch cover preferably are fastened together with fasteners, such as brass or aluminum screws, bolts or rivets. Alternatively, if carbon fiber composites are used to form the base plates or the doors, fastening may be by epoxy or other adhesive sealing means. A brush seal 80 is provided along the edge of the semi-circular notches 74, 76. The brush seal has soft brass bristles, and is attached by sliding a retaining rim (not shown) of the brush seal into a groove (not shown) provided in a brush seal mounting flange (not shown). Alternative means to affix the brush seal to the inner periphery of the notches may be used.
Each door panel 68, 70 extends from a closed position in which its lower surface contacts the upper surface of the associated base plate 52, 54, respectively, to a fully open position in which the door panel is generally perpendicular to the upper surface of the associated base plate. For ease in opening, the door panels 68, 70 are provided with knobs or pulls 82.
For easier handling, preferably the base plates 52, 54 further define elongated openings 84 through the plate thickness and located along the peripheral edges to serve as handles.
As shown in
Referring to
When the hatch cover 50 is deployed over a hatchway 46, the flanges 64, 66 help to seat the cover over the hatchway and help to prevent substantial lateral movement of the cover. Preferably, the flanges 64, 66 contact the internal edges or internal periphery of the hatchway so as to help to seal the space between the cover and hatchway to minimize vapor emissions.
As shown in
To prevent sparking, the cover 50 preferably is made using only conductive or static dissipative materials, and is grounded by connection to the floating roof 18 with a copper grounding cable 94 and brass clamp 96. The structure of the internal floating roof 18 then is in turn grounded to the outer wall 14 of the tank 10.
The hatch cover 50 of
The hatch cover 50 shown in
The hatch opening 108 in
Referring to
To load equipment into the tank through the hatch opening 108, the cover plate 128 is removed, and the door panels 112, 114 are opened. In
The door panels 112, 114 and cover plate 128 preferably are fabricated from high density polyethylene, static dissipative UHMW polyethylene or aluminum, and the hinges preferably are formed from aluminum, brass or a carbon fiber composite. A brush seal (not shown) may also be provided along the edge of the semi-circular notches 124.
The invention has been illustrated by detailed description and examples of the preferred embodiments. Various changes in form and detail will be within the skill of persons skilled in the art. Therefore, the invention must be measured by the claims and not by the description of the examples or the preferred embodiments.
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| Number | Date | Country | |
|---|---|---|---|
| 20040016755 A1 | Jan 2004 | US |
