Spherical sand separators
Abstract
An apparatus for separating natural gas from production streams comprising a liquid dispersion of water, sand, and natural gas is provided for. The separator comprises a vessel having an interior surface defining a spherical interior space. The interior space allows a production stream introduced therein to experience a velocity drop sufficient to allow separation of the natural gas from the sand and water components. The separator also comprises a stream inlet port in the vessel, a liquid drain in the lower end of the vessel, and a gas outlet port at the upper end of the vessel remote from the stream inlet port. A baffle is mounted in the interior of the vessel in the path of the production stream between the stream inlet port and the gas outlet port. The baffle is effective to spread and direct a high pressure production stream introduced into the interior space via the stream inlet port downward toward the liquid drain.
Claims
exact text as granted — not AI-modified1. An apparatus for separating natural gas from high pressure, high velocity production streams comprising a liquid dispersion of water, sand, and natural gas, said separator comprising:
(a) a vessel having an interior surface defining a spherical interior space, said interior space allowing a production stream comprising a liquid dispersion of water, sand, and natural gas introduced therein to experience a velocity drop sufficient to allow separation of said natural gas from said sand and water components;
(b) a stream inlet port in said vessel;
(c) a liquid drain in the lower end of said vessel;
(d) a gas outlet port at the upper end of said vessel remote from said stream inlet port; and
(e) a baffle mounted in the interior of said vessel in the path of said production stream between said stream inlet port and said gas outlet port; said baffle effective to spread and direct said production stream introduced into said interior space via said stream inlet port downward toward said liquid drain and to encourage the flow of said sand and water components therethrough.
2. The apparatus of claim 1 , wherein said stream inlet port comprises a nozzle providing a conduit for introducing said stream into the interior of said vessel and a nozzle receptacle extending through said vessel, said nozzle receptacle being adapted to releaseably receive said nozzle.
3. The apparatus of claim 1 , wherein said baffle comprises a semicircular deflector mounted in the upper half of said interior space between said stream inlet port and said gas outlet port, said deflector intersecting said space from a point below said ports such that fluid flow from said stream inlet port to said gas outlet port must flow downwards and then under said deflector.
4. The apparatus of claim 3 , wherein said separator comprises a vortex breaker proximate to said liquid drain.
5. The apparatus of claim 1 , wherein said separator comprises a vortex breaker proximate to said liquid drain.
6. The apparatus of claim 5 , wherein said vortex breaker comprises a cover extending over and above said liquid drain.
7. The apparatus of claim 5 , wherein said vortex breaker comprises a disc shaped cover mounted above said sand drain by a plurality of legs extending between said cover and the bottom of said vessel.
8. The apparatus of claim 1 , wherein said baffle comprises a first deflector mounted to said inlet port and extending into the path of said stream exiting said inlet port and a second deflector extending into the path of said deflected stream.
9. The apparatus of claim 8 , wherein said second deflector comprises a semicircular deflector mounted in the upper half of said interior space between said stream inlet port and said gas outlet port, said deflector intersecting said space from a point below said ports such that fluid flow from said stream inlet port to said gas outlet port must flow downwards and then under said deflector.
10. The apparatus of claim 9 , wherein said separator comprises a vortex breaker proximate to said liquid drain.
11. The apparatus of claim 8 , wherein said separator comprises a vortex breaker proximate to said liquid drain.
12. The apparatus of claim 1 , wherein said stream inlet port comprises a nozzle providing a conduit for introducing said stream into the interior of said vessel, wherein said nozzle is releaseably mounted to said separator.
13. The apparatus of claim 12 , wherein said separator comprises a vortex breaker proximate to said liquid drain.
14. The apparatus of claim 12 , wherein said baffle comprises a first deflector mounted to the interior end of said nozzle and extending into the fluid path of said stream exiting said nozzle and a second deflector mounted to the interior of said vessel and extending into the fluid path of said deflected stream.
15. The apparatus of claim 14 , wherein said second deflector comprises a semicircular deflector mounted in the upper half of said interior space between said stream inlet port and said gas outlet port, said deflector intersecting said space from a point below said ports such that fluid flow from said stream inlet port to said gas outlet port must flow downwards and then under said deflector.
16. The apparatus of claim 15 , wherein said separator comprises a vortex breaker proximate to said liquid drain.
17. The apparatus of claim 12 , wherein said nozzle has a deflector mounted on the interior end thereof and extending into the fluid path of said stream exiting said nozzle.
18. The apparatus of claim 17 , wherein said separator comprises a vortex breaker proximate to said liquid drain.
19. The apparatus of claim 17 , wherein said nozzle comprises a cylindrical body having an interior end truncated by first and second bevels and said nozzle deflector is mounted on one of said beveled surfaces.
20. The apparatus of claim 19 , wherein said nozzle deflector has a profile no greater than the profile of the nozzle body.
21. The apparatus of claim 19 , where said other bevel provides an outlet for said nozzle having a cross section equal to or greater than the cross section of said nozzle cylindrical body.
22. The apparatus of claim 19 , wherein said bevels extend at an angle approximately equal to 45° to the axis of said cylindrical body and are radially opposed to each other.
23. An apparatus for separating natural gas from high pressure, high velocity production streams comprising a liquid dispersion of water, sand, and natural gas, said separator comprising:
(a) a vessel having an interior surface that defines a spherical interior space having a vertical axis, said interior space allowing a production stream comprising a liquid dispersion of water, sand, and natural gas introduced therein to experience a velocity drop sufficient to allow separation of said natural gas from said sand and water components;
(b) a stream inlet port in said vessel situated remote from said vertical axis and in fluid communication with the interior of said vessel;
(c) a gas outlet port in said vessel situated proximate to the top of said vertical axis and in fluid communication with the interior of said vessel;
(d) a liquid drain in said vessel situated proximate to the bottom of said vertical axis and in fluid communication with the interior of said vessel; and
(e) a baffle disposed in the interior of said vessel between said stream inlet port and said gas outlet port, said baffle comprising one or more deflection surfaces effective to spread and direct said production stream upon exiting said stream inlet port downward and radially outward toward to the interior surface of said vessel, thereby encouraging said liquid and sand components to flow downward toward said liquid drain.
24. An apparatus for separating natural gas from high pressure, high velocity production streams comprising a liquid dispersion of water, sand, and natural gas, said separator comprising:
(a) means for receiving and containing a production stream comprising a liquid dispersion of water, sand, and natural gas and allowing said production stream to experience a velocity drop sufficient to allow separation of natural gas from the sand and water components of said stream, wherein said container means defines a spherical interior space having a vertical axis;
(b) means for introducing said production stream into said interior space of said container means, wherein said introduction means are provided on said container means remote from said vertical axis;
(c) means for spreading and deflecting said production stream downward and radially outward toward said vessel interior surface, wherein said deflection means are provided in the interior of said container means;
(d) means for allowing said sand and water components to drain from said container means, wherein said drain means are provided on the bottom of said container means proximate to said vertical axis; and
(e) means for allowing said natural gas component to flow out of said container means, wherein said outlet means are provided on the top of said container means proximate to said vertical axis.
25. The apparatus of claim 24 , comprising means for minimizing the formation of a vortex through said drain means.
26. The apparatus of claim 24 , comprising replaceable, sacrificial means for spreading and deflecting said production stream, said replaceable, sacrificial deflection means being disposed in the interior of said container means.
27. The apparatus of claim 26 , comprising means for minimizing the formation of a vortex through said drain means.
28. A process for separating natural gas from high pressure, high velocity production streams comprising a liquid dispersion of water, sand, and natural gas, said process comprising:
(a) introducing a production stream through a stream inlet port into a vessel defining a spherical interior space, said interior space allowing said production stream to experience a velocity drop sufficient to allow release of said natural gas from said production stream;
(b) spreading and directing said production stream downward and radially outward toward the exterior of said spherical interior space;
(c) discharging said water and sand components through a liquid drain at the bottom of said vessel; and
(d) releasing said natural gas components into a production conduit through a gas outlet port at the top of said vessel.
29. The process of claim 28 , wherein said production stream is the initial production stream following a fracturing operation in a well.
30. The process of claim 28 , wherein said vessel comprises a first deflector mounted to said inlet port and extending into the path of said stream exiting said inlet port and a second deflector extending into the path of said deflected stream.
31. The process of claim 30 , wherein said second deflector comprises a semicircular deflector mounted in the upper half of said interior space between said stream inlet port and said gas outlet port, said deflector intersecting said space from a point below said ports such that fluid flow from said stream inlet port to said gas outlet port must flow downwards and then under said deflector.
32. The process of claim 28 , wherein said stream inlet port comprises a nozzle providing a conduit for introducing said stream into the interior of said vessel, wherein said nozzle is releaseably mounted to said separator.
33. The process of claim 32 , wherein said nozzle has a deflector mounted on the interior end thereof and extending into the fluid path of said stream exiting said nozzle.
34. The process of claim 32 , wherein said nozzle has a deflector mounted on the interior end thereof and extending into the fluid path of said stream exiting said nozzle and a said vessel comprises a second deflector mounted to the interior of said vessel and extending into the fluid path of said deflected stream.
35. The process of claim 34 , wherein said second deflector comprises a semicircular deflector mounted in the upper half of said interior space between said stream inlet port and said gas outlet port, said deflector intersecting said space from a point below said ports such that fluid flow from said stream inlet port to said gas outlet port must flow downwards and then under said deflector.
36. An apparatus for separating natural gas from high pressure, high velocity production streams comprising a liquid dispersion of water, sand, and natural gas, said separator comprising:
(a) a vessel having an interior surface defining a spherical interior space, said interior space allowing a production stream comprising a liquid dispersion of water, sand, and natural gas introduced therein to experience a velocity drop sufficient to allow separation of said natural gas from said sand and water components; (b) a stream inlet port in said vessel; (c) a liquid drain in the lower end of said vessel; (d) a gas outlet port at the upper end of said vessel remote from said stream inlet port; and (e) a baffle mounted in the interior of said vessel in the path of said production stream between said stream inlet port and said gas outlet port; said baffle adapted to spread and direct said production stream introduced into said interior space via said stream inlet port to encourage the separation of said natural gas from said sand and water components.
37. The apparatus of claim 36, wherein said baffle comprises a first deflector mounted to said stream inlet port and extending into the path of said production stream exiting said stream inlet port.
38. The apparatus of claim 37, wherein said stream inlet port comprises a nozzle providing a conduit for introducing said stream into the interior of said vessel and said nozzle is releaseably mounted to said separator.
39. The apparatus of claim 38, wherein said inlet port deflector is replaceable and is adapted to provide the primary wear point resulting from introduction of said production stream into said vessel.
40. The apparatus of claim 36, wherein said stream inlet port comprises a nozzle providing a conduit for introducing said stream into the interior of said vessel and said nozzle is releaseably mounted to said separator.
41. The apparatus of claim 36, wherein said separator comprises a vortex breaker proximate to said liquid drain.
42. An apparatus for separating natural gas from high pressure, high velocity production streams comprising a liquid dispersion of water, sand, and natural gas, said separator comprising:
(a) a vessel having an interior surface that defines a spherical interior space having a vertical axis, said interior space allowing a production stream comprising a liquid dispersion of water, sand, and natural gas introduced therein to experience a velocity drop sufficient to allow separation of said natural gas from said sand and water components; (b) a stream inlet port in said vessel situated remote from said vertical axis and in fluid communication with the interior of said vessel; (c) a gas outlet port in said vessel situated proximate to the top of said vertical axis and in fluid communication with the interior of said vessel; (d) a liquid drain in said vessel situated proximate to the bottom of said vertical axis and in fluid communication with the interior of said vessel; and (e) a baffle disposed in the interior of said vessel between said stream inlet port and said gas outlet port, said baffle comprising one or more deflection surfaces adapted to spread and direct said production stream upon exiting said stream inlet port to encourage the separation of said natural gas from said sand and water components.
43. The apparatus of claim 42, wherein said baffle comprises a first deflector mounted to said stream inlet port and extending into the path of said production stream exiting said stream inlet port.
44. The apparatus of claim 43, wherein said stream inlet port comprises a nozzle providing a conduit for introducing said stream into the interior of said vessel and said nozzle is releaseably mounted to said separator.
45. The apparatus of claim 44, wherein said inlet port deflector is replaceable and is adapted to provide the primary wear point resulting from introduction of said production stream into said vessel.
46. The apparatus of claim 42, wherein said stream inlet port comprises a nozzle providing a conduit for introducing said stream into the interior of said vessel and said nozzle is releaseably mounted to said separator.
47. The apparatus of claim 42, wherein said separator comprises a vortex breaker proximate to said liquid drain.
48. An apparatus for separating natural gas from high pressure, high velocity production streams comprising a liquid dispersion of water, sand, and natural gas, said separator comprising:
(a) means for receiving and containing a production stream comprising a liquid dispersion of water, sand, and natural gas and allowing said production stream to experience a velocity drop sufficient to allow separation of said natural gas from said sand and water components of said stream, wherein said container means defines a spherical interior space having a vertical axis; (b) means for introducing said production stream into said interior space of said container means, wherein said introduction means are provided on said container means remote from said vertical axis; (c) deflection means for spreading and deflecting said production stream, wherein said deflection means are provided in the interior of said container means; (d) means for allowing said sand and water components to drain from said container means, wherein said drain means are provided on the bottom of said container means proximate to said vertical axis; and (e) means for allowing said natural gas component to flow out of said container means, wherein said outlet means are provided on the top of said container means proximate to said vertical axis.
49. The apparatus of claim 48, wherein said deflection means comprises a first deflector mounted to said introduction means and extending into the path of said production stream exiting said introduction means.
50. The apparatus of claim 49, wherein said introduction means comprises a nozzle providing a conduit for introducing said stream into the interior of said container means and said nozzle is releaseably mounted to said container means.
51. The apparatus of claim 50, wherein said introduction means deflector is replaceable and is adapted to provide the primary wear point resulting from introduction of said production stream into said vessel.
52. The apparatus of claim 48, wherein said introduction means comprises a nozzle providing a conduit for introducing said stream into the interior of said container means and said nozzle is releaseably mounted to said container means.
53. The apparatus of claim 48, wherein said apparatus comprises means for minimizing the formation of a vortex through said drain means.
54. A process for separating natural gas from high pressure, high velocity production streams comprising a liquid dispersion of water, sand, and natural gas, said process comprising:
(a) introducing a production stream through a stream inlet port into a vessel defining a spherical interior space, said interior space allowing said production stream to experience a velocity drop sufficient to allow release of said natural gas from said production stream; (b) spreading and directing said production stream to encourage separation of said natural gas component from said sand and water components; (c) discharging said water and sand components through a liquid drain at the bottom of said vessel; and (d) releasing said natural gas components into a production conduit through a gas outlet port at the top of said vessel.
55. The process of claim 54, wherein said vessel comprises a first deflector mounted to said stream inlet port and extending into the path of said production stream exiting said stream inlet port.
56. The process of claim 55, wherein said stream inlet port comprises a nozzle providing a conduit for introducing said stream into the interior of said vessel and said nozzle is releaseably mounted to said vessel.
57. The process of claim 56, wherein said inlet port deflector is replaceable and is adapted to provide the primary wear point resulting from introduction of said production stream into said vessel.
58. The process of claim 54, wherein said stream inlet port comprises a nozzle providing a conduit for introducing said stream into the interior of said vessel and said nozzle is releaseably mounted to said vessel.
59. The process of claim 54, wherein said vessel comprises a vortex breaker proximate to said liquid drain.
60. An improved separator for separating natural gas from high pressure, high velocity production streams comprising a liquid dispersion of water, sand, and natural gas comprising a vessel, an inlet port adapted to allow introduction of said production stream into said vessel, baffles provided in the interior of said vessel, said vessel and said baffles adapted to allow separation of said natural gas component from said water and sand components, a gas outlet port adapted to allow release of said natural gas component, and a liquid drain adapted to allow discharge of said water and sand components, wherein the improvement comprises a spherical vessel.
61. The improved separator of claim 60, wherein said improvement further comprises a deflector mounted to said inlet port and extending into the path of said production stream exiting said inlet port.
62. The improved separator of claim 61, wherein said improvement further comprises an inlet port comprising a nozzle providing a conduit for introducing said stream into the interior of said vessel and said nozzle is releaseably mounted to said vessel.
63. The improved separator of claim 62, wherein said inlet port deflector is replaceable and is adapted to provide the primary wear point resulting from introduction of said production stream into said vessel.
64. The improved separator of claim 60, wherein said improvement further comprises an inlet port comprising a nozzle providing a conduit for introducing said stream into the interior of said vessel and said nozzle is releaseably mounted to said vessel.
65. The improved separator of claim 60, wherein said improvement further comprises a vortex breaker.
66. The apparatus of claim 36, wherein said baffle comprises a semicircular deflector mounted in the upper half of said interior space between said stream inlet port and said gas outlet port, said deflector intersecting said space from a point below said ports such that fluid flow from said stream inlet port to said gas outlet port must flow downwards and then under said deflector.
67. The apparatus of claim 37, wherein said baffle comprises a semicircular deflector mounted in the upper half of said interior space between said stream inlet port and said gas outlet port, said deflector intersecting said space from a point below said ports such that fluid flow from said stream inlet port to said gas outlet port must flow downwards and then under said deflector.
68. The apparatus of claim 38, wherein said baffle comprises a semicircular deflector mounted in the upper half of said interior space between said stream inlet port and said gas outlet port, said deflector intersecting said space from a point below said ports such that fluid flow from said stream inlet port to said gas outlet port must flow downwards and then under said deflector.
69. The apparatus of claim 37, wherein said apparatus further comprises a vortex breaker.
70. The apparatus of claim 38, wherein said nozzle comprises a cylindrical body having an interior end truncated by first and second bevels and said inlet port deflector is mounted on one of said beveled surfaces.
71. The apparatus of claim 68, wherein said nozzle comprises a cylindrical body having an interior end truncated by first and second bevels and said inlet port deflector is mounted on one of said beveled surfaces.
72. The apparatus of claim 38, wherein said nozzle comprises a cylindrical body and said inlet port deflector has a profile no greater than the profile of the nozzle body.
73. The apparatus of claim 68, wherein said nozzle comprises a cylindrical body and said inlet port deflector has a profile no greater than the profile of the nozzle body.
74. The apparatus of claim 42, wherein said baffle comprises a semicircular deflector mounted in the upper half of said interior space between said stream inlet port and said gas outlet port, said deflector intersecting said space from a point below said ports such that fluid flow from said stream inlet port to said gas outlet port must flow downwards and then under said deflector.
75. The apparatus of claim 43, wherein said baffle comprises a semicircular deflector mounted in the upper half of said interior space between said stream inlet port and said gas outlet port, said deflector intersecting said space from a point below said ports such that fluid flow from said stream inlet port to said gas outlet port must flow downwards and then under said deflector.
76. The apparatus of claim 44, wherein said baffle comprises a semicircular deflector mounted in the upper half of said interior space between said stream inlet port and said gas outlet port, said deflector intersecting said space from a point below said ports such that fluid flow from said stream inlet port to said gas outlet port must flow downwards and then under said deflector.
77. The apparatus of claim 43, wherein said apparatus further comprises a vortex breaker.
78. The apparatus of claim 44, wherein said nozzle comprises a cylindrical body having an interior end truncated by first and second bevels and said inlet port deflector is mounted on one of said beveled surfaces.
79. The apparatus of claim 76, wherein said nozzle comprises a cylindrical body having an interior end truncated by first and second bevels and said inlet port deflector is mounted on one of said beveled surfaces.
80. The apparatus of claim 44, wherein said nozzle comprises a cylindrical body and said inlet port deflector has a profile no greater than the profile of the nozzle body.
81. The apparatus of claim 76, wherein said nozzle comprises a cylindrical body and said inlet port deflector has a profile no greater than the profile of the nozzle body.
82. The apparatus of claim 48, wherein said deflection means comprises a semicircular deflector mounted in the upper half of the interior space between said introduction means and said outlet means, said deflector intersecting said space from a point below said introduction means and said outlet means such that fluid flow from said introduction means to said outlet means must flow downwards and then under said deflector.
83. The apparatus of claim 49, wherein said deflection means comprises a semicircular deflector mounted in the upper half of said interior space between said introduction means and said outlet means, said deflector intersecting said space from a point below said introduction means and said outlet means such that fluid flow from said introduction means to said outlet means must flow downwards and then under said deflector.
84. The apparatus of claim 50, wherein said deflection means comprises a semicircular deflector mounted in the upper half of said interior space between said introduction means and said outlet means, said deflector intersecting said space from a point below said introduction means and said outlet means such that fluid flow from said introduction means to said outlet means must flow downwards and then under said deflector.
85. The apparatus of claim 49, wherein said apparatus further comprises means for minimizing the formation of a vortex through said drain means.
86. The apparatus of claim 50, wherein said nozzle comprises a cylindrical body having an interior end truncated by first and second bevels and said introduction means deflector is mounted on one of said beveled surfaces.
87. The apparatus of claim 84, wherein said nozzle comprises a cylindrical body having an interior end truncated by first and second bevels and said introduction means deflector is mounted on one of said beveled surfaces.
88. The apparatus of claim 50, wherein said nozzle comprises a cylindrical body and said introduction means deflector has a profile no greater than the profile of the nozzle body.
89. The apparatus of claim 84, wherein said nozzle comprises a cylindrical body and said introduction means deflector has a profile no greater than the profile of the nozzle body.
90. The apparatus of claim 54, wherein said baffle comprises a semicircular deflector mounted in the upper half of said interior space between said stream inlet port and said gas outlet port, said deflector intersecting said space from a point below said ports such that fluid flow from said stream inlet port to said gas outlet port must flow downwards and then under said deflector.
91. The apparatus of claim 55, wherein said baffle comprises a semicircular deflector mounted in the upper half of said interior space between said stream inlet port and said gas outlet port, said deflector intersecting said space from a point below said ports such that fluid from said stream inlet port to said gas outlet port must flow downwards and then under said deflector.
92. The apparatus of claim 56, wherein said baffle comprises a semicircular deflector mounted in the upper half of said interior space between said stream inlet port and said gas outlet port, said deflector intersecting said space from a point below said ports such that fluid flow from said stream inlet port to said gas outlet port must flow downwards and then under said deflector.
93. The apparatus of claim 55, wherein said apparatus further comprises a vortex breaker proximate to said liquid drain.
94. The apparatus of claim 56, wherein said nozzle comprises a cylindrical body having an interior end truncated by first and second bevels and said inlet port deflector is mounted on one of said beveled surfaces.
95. The apparatus of claim 92, wherein said nozzle comprises a cylindrical body having an interior end truncated by first and second bevels and said inlet port deflector is mounted on one of said beveled surfaces.
96. The apparatus of claim 56, wherein said nozzle comprises a cylindrical body and said inlet port deflector has a profile no greater than the profile of the nozzle body.
97. The apparatus of claim 92, wherein said nozzle comprises a cylindrical body and said inlet port deflector has a profile no greater than the profile of the nozzle body.
98. The apparatus of claim 60, wherein said improvement further comprises a semicircular deflector mounted in the upper half of said interior space between said stream inlet port and said gas outlet port, said deflector intersecting the interior of said vessel from a point below said ports such that fluid flow from said stream inlet port to said gas outlet port must flow downwards and then under said deflector.
99. The apparatus of claim 61, wherein said improvement further comprises a semicircular deflector mounted in the upper half of said interior space between said stream inlet port and said gas outlet port, said deflector intersecting the interior of said vessel from a point below said ports such that fluid flow from said stream inlet port to said gas outlet port must flow downwards and then under said deflector.
100. The apparatus of claim 62, wherein said improvement further comprises a semicircular deflector mounted in the upper half of said interior space between said stream inlet port and said gas outlet port, said deflector intersecting the interior of said vessel from a point below said ports such that fluid flow from said stream inlet port to said gas outlet port must flow downwards and then under said deflector.
101. The apparatus of claim 61, wherein said improvement further comprises a vortex breaker proximate to said liquid drain.
102. The apparatus of claim 62, wherein said nozzle comprises a cylindrical body having an interior end truncated by first and second bevels and said inlet port deflector is mounted on one of said beveled surfaces.
103. The apparatus of claim 100, wherein said nozzle comprises a cylindrical body having an interior end truncated by first and second bevels and said inlet port deflector is mounted on one of said beveled surfaces.
104. The apparatus of claim 62, wherein said nozzle comprises a cylindrical body and said inlet port deflector has a profile no greater than the profile of the nozzle body.
105. The apparatus of claim 100, wherein said nozzle comprises a cylindrical body and said inlet port deflector has a profile no greater than the profile of the nozzle body.Join the waitlist — get patent alerts
Track USRE43941E — get alerts on status changes and closely related new filings.
We store only your email — no account needed. See our privacy policy.