BE344168A - - Google Patents

Description

       

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  "IMPROVEMENTS TO STORAGE TANKS FOR VOLATILE LIQUID GAS"
The invention relates to large capacity reservoirs of the type used for storing gases and volatile liquids.



   One of the aims of the invention is to establish a storage tank comprising a metal cap or cap connected to the side wall of the container, and. constructed to be able to flex and move up and down with respect to the side wall of the container, in normal operation,

   so as to increase and decrease the capacity of the vapor or gas chamber of the container to build up dangerous voltages in the neutral fiber of the metal of which the dome is made.



   Another object of the invention is to provide an apparatus for storing gases or volatile liquids, which comprises a container, a dome, connected to the side wall of said container and constructed so as to be able to flex, and move towards it. high- relative, the said liberal wall

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 so as to increase the capacity of the vapor or gas chamber of the container, and means for automatically ventilating said chamber when the internal volume of the container reaches a determined maximum value, thus preventing the dome from becoming the seat of tensions likely to tear it.



   Another object of the invention is to provide a storage container provided with a flexible metal dome, connected to the side wall of the container and constructed in such a way that it can flex up and down. with respect to a horizontal plane, and / a support arranged in the container, to support the dome when the. internal pressure of the container, or when the pressure on the underside of the dome no longer balances the weight of the latter, this support being conditioned in such a way that an abnormal external load supported by the dome, or an abnormal depression exerted on the underside of this dome cannot determine excessive tensions in the latter.



     Other objects and features of the invention will be described more explicitly below with reference to the accompanying drawings in which:
Figure 1 is a cross section in elevation of a storage container for liquids constructed in accordance with the invention;

   
Figure 2 is a cross section in elevation showing another construct.ive arrangement;
Figure 3 is a partial sectional elevation drawn on a larger scale, showing the means employed to pivot the peripheral edge of the dome to the lateral projection of the container, and to produce a gas-tight seal between these parts}
Figure 4 is a partial, detailed view taken looking from the side wall towards the center of the dome:

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Figure 5 is a La le horizon section, drawn on a larger scale, showing the means used to seal
The central opening of the dome, this section being taken along line 5-5 of FIG. 6;

   and,
Figure 6 is a vertical section,. '... on a larger scale, of the central part of Como, which shows how the wedge-shaped organs, which form the? gifts, are combined with the flexible or torque element that is part of the shutter for the central opening of the dome.



   When the invention is applied to a large capacity metal container of the type used in oil fields to store the latter, that is to say a container of about 35 meters in diameter, the dome of this container. is connected, by its periherical edge, to the side wall of the receptacle, and it is made of sheets usually about m / m thick,

     connected together in such a manner as to obtain a practically one-piece, non-perforated diaphragm, the central part of which is capable of normally flexing up and down a certain amount from a plane horizontal, without causing excessive tensions in the double metal plates of which the dome is made, being liable to undulate sufficiently to be suitable for variations in radius,

   and circumference without causing dangerous stresses in the neutral fiber of the metal. The dome normally occupies a position in which its central part is depressed, and supported by a support frame, mounted inside the container, which approximates the shape of the latter, but, whenever the pressure internal container excodes the weight of the dome,

   the central portion of the latter moves or flexes upward in a position such that the dome changes from the shape of an inverted cone to that of a protruding cone

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 with respect to the intermediate horizontal plane of the two extreme positions of the central part of the dome, increasing
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 thus, self-mat: lqu. "ly, the vapor space above the surface of the liquid.



   Under normal conditions, i.e. for a full or substantially full container, the elevation and
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 sagging of the central part -: -; . .- .: 4 .., .. -¯ of the dome, as described above, will allow the gases in the container to expand and contract without escaping, and without subjecting the dome to forces liable to strain. break it, due to the fact that, when the dome comes to occupy the horizontal position, during its upward movement, this dome wrinkles, with establishment of tensions on one side of the neutral fiber of the metal and of pressures on the other side neutral fiber, without influencing the latter.



   In order to take account of abnormal conditions, such as filling, the receptacle is equipped with a relief or discharge valve or a ventilation mechanism, combined with the dome in such a way that the movement of this dome, relative to the side wall of the container, is used to open said valve, when the internal volume of the container approaches a value which may become dangerous, in other words, in order to prevent the dome becomes the seat of tensions liable to cause it to burst, due to a greater quantity of gas entering or accumulating in the vapor or gas space, when the dome has bent upwards in the maximum capacity position, a ventilation mechanism is provided, which acts automatically at a certain volume,

   and thereby preventing the internal volume of the container from reaching a dangerous value. This allows the use of a valve that is absolutely tight and operates reliably when needed.



   When liquid is withdrawn from the container, air

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 is admitted therein through a vacuum valve which may be of any preferred type or kind.



  In vessels of small or large capacity, when it is necessary or simply desirable to have a space or vapor chamber capable of a large variation in capacity, the dome of the vessel is made up of a number of 'organs affecting the form of corners, radially arranged around the center of the dome, and of which the. straight section in the shape of a V or a U, so that the inclined parts or side flanges of these elements can flex or bend to allow modification of the. radius or circumference of the central portion of the dome as it moves either upward or downward by an appreciable amount from the horizontal plane.



  In such an arrangement, the peripheral portion of the dome is hinged or pivotally mounted on the side wall of the container, and means are provided to maintain a gas-tight seal between the dome and the side wall, at the same time as is tolerated. a relatively small movement between this side wall and the peripheral edge of the dome.



   In Figure 1 of the drawings, there is shown a container. for storing liquid, constructed according to the invention and in which the dome A of the container has a relatively, considerable diameter, which is normally 30 meters, but may be larger or smaller and is made of metal sheets joined together by electric welding, or in any other way likely to give a homogeneous or non-perforated diaphragm, the central part of which is normally depressed or shaped as an inverted cone, and supported by a fixed frame B, housed inside the container, the peripheral edge of this dome being permanently connected to the side wall C of the container.



   When the internal pressure of the vessel does not balance

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 the weight of the dome A, the central portion of this dome rests on the frame B, but whenever the internal pressure of the container exceeds the weight of the dome, due to the expansion of the gases or vapors contained therein, the central portion of the dome moves and flexes upward into the position shown in solid lines in Figure 1, bringing the dome from the shape of an inverted cone to that of a protruding cone above 'an intermediate horizontal plane between the two extreme positions.

   Under normal conditions, the upward movement of the central part of the dome sufficiently increases the capacity of the space or vapor chamber of the vessel, to prevent the vapors from being forced out, and the establishment of dangerous voltages in the dome, as previously described.



   The support frame B which supports the dome when the upward pressure exerted on its underside is less than its weight, and constructed so as to approximately conform to the shape of the dome when the latter is bent downwards. Consequently, this framework effectively prevents the dome from becoming the seat of significant tensions, in the event that the dome is subjected to abnormal external loads, or in the case where an abnormal depression is exerted on the underside. of the dome when it rests on the supporting frame.



   To take account of abnormal conditions, the receptacle is provided with a discharge or emergency valve which remains normally closed but which is constructed in such a way that it can open or act on the upward movement of the vessel. central portion of the dome, when the internal volume of the container reaches a dangerous value.



   In the embodiment of the invention shown, the valve D is mounted in the central part of the dome A of the container, and the control element of said support.

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 pape is connected, by 1 through a system of rigid and flexible elements ¯] ¯ ¯ and 2, such as for example levers and chains, with the bottom of the container, or any other fixed point of the latter, from so that the valve D opens automatically, and consequently ventilates the chamber or space with vapor or gas, when the dome A has reached a certain position during its upward movement.

   In order that air can enter the interior of the container during the liquid withdrawal operation, the container is provided with a vacuum valve E, of any preferred type or kind, constructed so that its control element s. 'automatic / slow opening, and consequently admits air to the container, when liquid is taken from the latter.

   In cases where the diameter is so small that the metal of which the dome is made does not buckle enough to lend itself to variation in radius or circumference, variation produced by the upward and downward motion of the central part of the dome, and in cases where it is desired to obtain a large variation in the capacity or vapor space, the clam of the container is formed by wedge-shaped elements, arranged radially around the center of the dome, and the cross section of which is, that of a V or a U, in such a way that the inclined parts or flanges / are capable of flexing or bending, back and forth when the central part of the dôi:

  e moves up or down from a horizontal plane, as previously described.



   Figures 2 to 6 of the drawings show a container dome of this construction. This dome is composed of a number of wedge-shaped elements 10, extending radially around a practically hub or opening 10a. qué in the center of the dome, and these elements affect a V or U shape in cross section, as shown in figure 6.

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   The side portions or flanges of the elements 10 are rigidly connected together, by their upper edges, so as to form gas-tight joints between said parts, and, at the peripheral edge of the dome, the elements 10 are connected to an annular plate 11 which in turn is hinged or pivoted to the side wall. line ¯0 of the container, so as to tolerate the upward and downward movement of the dome when it flexes as previously described.



   Any suitable means can be employed to hinge or pivot the annular plate 11 to the side wall of the container, however it is preferable to subject the slotted rings 12 to the underside of said /, such as "- shown in Figure 3, and to provide, on the side face of the container, a flange projecting inward,
13, bearing bearings 14 on which the rings oscillate
2.-2, the flange 13 having: holes 14a through which these rings 12.

   A gas-tight seal is formed between the side wall of the container and the annular plate 11, its. peripheral edge of the dome, by means of a flexible or flexible element 15 made of lead or by means of a gas-tight fabric, and secured to the annular plate and to the internal flange 13 of the side wall as shown in figure 3.

   In the center of the dome there is provided a flexible or flexible closure for the central opening 10a, this closure preferably being made of a tubular element 16, formed of lead or other suitable material, the upper end of which is closed by a plate 17 and the lower end portion of which is connected to the parts of the elements 10 of the dome adjacent to the central hole, in such a way that gas-tight joints are obtained between these parts.

   One of the modes of obtaining this result consists in shaping the lower end portion of the flexible or flexible tubular element, 16, so that it

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 follow the turn of the cross section of this ..? elements
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 10. and tighten it to the ribs and side flanges of these elements 8. using bars 18, as shown in figure 6.



  TTCrT. ^ ..: llē: U? 1t, the '1J) ,. e refuses and is absorbed i' '' {'the framework of bnu.bin, internal to the container, and when the internal pressure of the container balances the weight of the dome, the latter moves towards the. high got growing thereby t
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 the volume of the space or Cll'1: rfore of vapor above the surface of the liquid contained in the container, the side flanges or the side portions of the dome members 10 opening sufficiently to ensure the increased radius andof circumference. Subsequently, when:

       the dome will move downward, due to a reduction in the internal volume of gases or vapors, the side portions or flanges of the dome members 10 will flex in one direction, to reduce the circumference of the central part of the dome
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 when it approaches the horizontal plane it] t3r'IJ;

  ÉllLair.e entered the two extreme positions, and, after the horizontal plane .was exceeded, said flanges or side portions will open or flex in the opposite direction. The dome is
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 provided with "a pressure valve,] and a vacuum valve E, of the types previously indicated in the description of the container shown in figure 1.



   From the above explanations it follows that we ob-
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 holds a container for storing it. volatile liquids comprising a gas-tight seal forming an integral part of the container, and so established that it can move in one direction to automatically increase the capacity of the space or vapor chamber above the liquid of the container. container, due to the fact that the central part of the dome
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 is liable to move upwards by pulling away from the surface of the liquid when the internal pressure of the

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   expient balances the weight of the dome.

   In addition, in the improved container the dome cannot be projected or subjected to dangerous tensions when the internal volume of the container approaches a dangerous limit, due to the upward movement of the dose by report, to the side wall is used to open an exhaust valve or other suitable ventilation mechanism.



   Although the arrangement of the invention has been described concurrently with the storage of volatile liquids, it will of course be understood that it can also serve to store gases.

** ATTENTION ** end of DESC field can contain start of CLMS **.


    

Claims (1)

R E V E N D I C A T I O N S EMI10.1 1. - A receptacle for storing gases and volatile 11- 'quides, provided with a con d-shaped metallic dome (Gave, connected to the lateral side of the receptacle and constructed [so as to possess elasticity or flexibility (clean, sufficient to allow the .aas: central part (in this dome to move upwards beyond a plane Ré (horizontal,}) thus increasing the Volume of the space or vapor space of the container when the ascsn- (siotmelle pressure exerted on the underside of the dome exceeds (the weight of the latter, and to resume its concave shape - (when the upward pressure exerted on the lower face of the dome becomes less than the weight of the latter (last. 2. - A receptacle for storing gases and volatile liquids, provided with a dome which is connected to the side wall of the receptacle and which is capable of moving or of bending in such a direction as to obtain , under certain conditions, an increase or reduction in the volume of the space or vapor chamber of the container, and a mechanism for ventilating said space or vapor chamber, a mechanism controlled by the displacement of the said dome <Desc / Clms Page number 11> relative to the side wall -du. container. 3. - A receptacle for storing gases and volatile liquids, provided with a concave metal dome, which is connected to the side wall of the receptacle and which has inherent elasticity or flexibility, sufficient to enable it to take a convex conformaLion when the pressure inside the container, in excess of the weight of the dome, is exerted on the underside of the latter, and a ventilation mechanism combined with this dome, a mechanism actuated by the upward movement of the dome. dome in relation to the side wall. 4. A receptacle for storing gases and volatile liquids, provided with a dome which is connected / its peripheral edge to the side wall of the receptacle, and which is constructed so as to flex in one direction for increasing or to reduce the volume of the vapor chamber in the container according to the upward pressure exerted on the underside of said dome, and a supporting frame for the dome, disposed in the container, and shaped so as to support said dome substantially over its entire surface when the pressure exerted on the lower face of the dome is less than the weight of the latter. .. - A receptacle for storing gases and volatile liquids, provided with a dome connected by its peripheral edge to the side wall of the receptacle, and constructed so as to be able to take a concave shape or a convex shape according to the rising pressure. acting on its underside, a supporting frame, disposed inside the container, which approximately matches the conformation of the dome when the latter has the concave shape, and a ventilation mechanism, normally inactive, which enters automatically in action when the dome reaches a certain position during its upward movement relative to the, <Desc / Clms Page number 12> side wall of the container *. 6. - A receptacle for storing gases and volatile liquids, provided with a dome connected by its peripheral edge to the side wall of the receptacle, and made of metal plates combined so as to form a practically homogeneous diaphragm or non-perforated, which is liable to take the form of a cone or an inverted cone depending on the internal force or pressure in the container which is exerted in an upward direction on the underside of the dome, which results in the volume variation of the space or vapor chamber of said container. 7. - A storage container of the type defined in claim 6, provided with a ventilation mechanism for the space or vapor chamber, a mechanism actuated by the upward movement of the dome relative to the side wall of the container. 6. - A storage container of the type defined in claim 6, provided with a discharge or relief valve, of. means, put into action by the upward movement of the dome relative to the side wall of the container, to determine the opening of said valve, and means for supporting this dome, substantially over its entire surface, when it takes the shape of an inverted cone. 9. - A receptacle for storing gases and volatile liquids, provided with a dome hinged or pivoted to the side wall of the receptacle, and constructed so that it can flex or expand sufficiently to tolerate an increase in the circumference of the central part of the dome resulting from the downward movement or upward movement of this central part from a horizontal plane 10. - A receptacle for storing gases and volatile liquids, provided with a dome formed of elements in the form of <Desc / Clms Page number 13> corner, of V or U cross section, the side portions or flanges of which are mutually joined so as to allow these portions or flanges to open or contract when the internal pressure of the container is such that the dome takes its convex shape or its concave shape. 11. - A receptacle for storing gases and volatile liquids, provided with a dome so established as to have the conformation of an inverted cone when the internal pressure of the receptacle is less than the weight of the dome, this dome comprising parts capable of flexing in one direction to first reduce the circumference of the central portion of the dome and then increase that circumference, when the internal pressure of the container increases sufficiently to exceed the weight of the dome and move this one up. 12. - A receptacle for storing gases and volatile liquids, provided with a metal dome connected to the side of the receptacle and provided with a central opening and parts which are liable to flex or bend in order to allow the dome to take a concave shape or a convex shape, depending on the force or the pressure prevailing inside the container and which is exerted on said dome in an upward direction, and a flexible or flexible closure for said central opening. 13. A receptacle for storing gases and volatile liquids, provided with a metal dome constructed of a basket which its central part can bend upwards or downwards from a horizontal plane, Means for connecting pivoting the peripheral edge of this dome to the side wall of the container, means for maintaining a gas-tight seal between said dome and the side wall, a central opening in this dome and a flexible or flexible closure for this opening central. <Desc / Clms Page number 14> 14. - A receptacle for storing gases and volatile liquids, provided with a. dome composed of a number of radially arranged elements of transverse cross-section such that some portions of these elements can flex or bend sufficiently to allow the dome to substantially take the form of an inverted cone if cut in a horizontal plane , orapproximately the shape of a cone protruding therefrom. 9 a hinged or pivoted connection between the peripheral edge of the dome and the side wall of the container, and means for maintaining a gas-tight seal between the wall side of the container and the dome. 15. - A receptacle for storing gases and volatile liquids, provided with a dome composed of a certain number of radially arranged elements, of cross-section in V or U, including the upper edges of their portions or side flanges are interconnected, and packaged to form a dome whose shape is substantially that of an inverted cone when the internal pressure of the container is less than the weight of the dome, a central opening in the dome, a flexible closure or flexible for this opening centered, and means arranged in the container to support this dome when it takes the form of an inverted cone. 16. - A receptacle for storing gases and volatile liquids, provided with a dome, made up of a certain number of radially arranged elements, of cross-section in V or U, including the upper edges of their portals. tions or side flanges are interconnected, and conditioned so as to form a dome, the shape of which is substantially that of an inverted cone when the internal pressure of the container is less than the weight of the dome, an opening central in the dome, a flexible or flexible closure for this central opening, means arranged @ <Desc / Clms Page number 15> in the container to support this dome when it takes the form of an inverted cone, pivot connections between the dome members and the side wall of the container; and means for maintaining a gas tight seal between the side wall of the container and the peripheral edge of the dome. 17. - A receptacle for storing gases and volatile liquids, provided with a dome made up of a number of radially arranged elements, of cross-section in V or U, including the upper edges of their portions or side flanges are interconnected, and conditioned to form a dome whose shape is appreciably that of an inverted cone when the internal pressure of the container is less than the weight of the dome, a central opening in the dome, a flexible or flexible closure for this central opening, means arranged in the container to support this dome when it takes the form of an inverted cone, pivot connections between the elements of the dome and the side wall of the container, means for maintaining a gas-tight seal between the side wall of the container and the peripheral edge of the dome, an exhaust or relief valve, and 'Deans actuated by the upward and downward movement of the central portion. of the dome to open and close said valve. 18. - A receptacle for storing gases and volatile liquids, provided with a dome made up of a number of wedge-shaped elements, the cross section of which is approximately that of a V or a U, and 'the upper edges of their portions or side flanges of which are interconnected, a central opening in the dome, a flexible or flexible tubular element connected to the dome elements in the vicinity of the central opening, and closed at its upper end, an annular member provided <Desc / Clms Page number 16> at the peripheral edge 'of the dome, to which said dome elements are connected, a portion of the side wall of the container on which the said annular member works, and a flexible or flexible element for maintaining a tight seal between the side wall of the container and said annular member. 19. - A receptacle for storing gases or volatile liquids, comprising a dome made up of a number of elements: wedge-shaped, the cross section of which is approximately that of a V or a U, and whose upper edges of their side portions or flanges are interconnected, a central opening in the dome, a flexible or flexible tubular element, connected to said dome elements, in the vicinity of the central opening, and closed to its upper end, an annular member provided at the peripheral edge of the dome, to which said dome elements are connected, a portion of the side wall of the container on which said annular member works, a flexible or flexible element to maintain a tight seal between the side wall of the container and the said annular member, an evacuation or emergency valve mounted on the dome in the vicinity of the center of the latter, and an operating device for said valve, arranged so that the upward movement of the dome determines the opening of this valve.