RU2001115693A - A device for separating a gas-liquid mixture moving through a pipeline into gas and liquid and a method for separating such a mixture - Google Patents

Claims (19)

1. A device (1) for separating a gas-liquid mixture (19) moving through a pipeline (13) into gas (22) and a liquid (24), characterized by the presence of the following features: a) device (1) has a housing (3), b) a housing (3) connected to the pipeline (13), c) the housing (3) has at least one inlet (9) into which the gas-liquid mixture stream (19) enters from the pipeline (13) in the direction (16) of the main flow movement, g) the housing (3) has at least one outlet (35) for the liquid (24) separated from the gas-liquid mixture (19), e) the housing (3) and has at least one gas outlet (48) for gas (22) separated from said gas-liquid mixture (19), e) the housing (3) has at least one separation element (28) on which the gas-liquid mixture is separated (19) ) to gas (22) and liquid (24), g) the specified at least one separating element (28) passes in the housing (3) at least partially in the direction (16) of the main flow, h) in the housing (3) there is its own direction (17) of the flow movement, characterized in that the separation element (28), when viewed in the direction In the case of flow movement (17) in the housing, it has a first end (32) and a second end (33) located opposite the first end (32), while at least one dividing element (28) adjoins its second end (33) to fluid outlet (35). 2. The device according to claim 1, characterized in that the gas-liquid mixture stream (19) runs on the upper side (42) of the separation element (28) facing the inlet (9), while the liquid outlet (35) is above the specified top side (42). 3. The device according to claim 2, characterized in that the at least one dividing element (28) has a lower side (43) with a reverse upper side (42) of the side, with at least one gas outlet (48) located under this underside (43). 4. The device according to any one of claims 1 to 3, characterized in that the housing (3), when viewed in the direction (17) of the flow in the housing, has an initial section (4) and an end section (5), at least at least one inlet (9) is located in the initial section (4) of the housing (3). 5. The device according to claim 4, characterized in that at least one outlet (35) for liquid is located on the final section (5) of the housing (3). 6. Device according to any one of the preceding paragraphs, characterized in that said at least one dividing element (28) is adjacent with its first end (32) to the inlet (9). 7. Device according to any one of the preceding paragraphs, characterized in that said at least one dividing element (28) is installed with an inclination upward relative to the direction (16) of the main flow. 8. Device according to any one of the preceding paragraphs, characterized in that said at least one dividing element (28) is installed with an inclination downward relative to the direction (16) of the main flow. 9. Device according to any one of the preceding paragraphs, characterized in that said at least one separation element (28) extends from an inlet (9) to an outlet (35) for a liquid. 10. A device according to any one of the preceding paragraphs, characterized in that the gas-liquid mixture (19) enters the first separation element (67) from the inlet (9), and the separation element () following the flow direction in the housing (17) ( 68) the gas-liquid mixture (19) comes from this first separation element (67). 11. Device according to any one of the preceding paragraphs, characterized in that said at least one dividing element (28) is supported by at least one support (72). 12. Device according to any one of the preceding paragraphs, characterized in that said at least one separating element (28) has at least one hole (38), the thickness d and width b of this hole (38), the installation angle α of the separation element (28) relative to the direction (17) of the flow in the housing, the shape of the hole (38), especially the angle (β) of its opening, formed between the direction (17) of the flow in the housing and the inner wall (80) of the hole (38), and the direction (17) of the flow in the housing is selected so that otok gas (22) moving in a direction (17) of the traffic flow in the housing, could not pass through the aperture (38) without changing its direction. 13. The device according to p. 12, characterized in that the said at least one hole (38) at low flow rates is shaped so that the surface tension of the liquid (24) prevents its passage through this at least one hole (38). 14. The device according to item 12 or 13, characterized in that the said at least one hole (38) at high flow rates is shaped so that differences in the inertia of the liquid (24) and gas (22) prevent the passage of liquid (24 ) through this at least one hole (38). 15. The device according to any one of paragraphs.12-14, characterized in that the shape of the specified at least one hole (38) ensures the establishment of the most optimal contact angle of the liquid (24). 16. Device according to any one of paragraphs.12-15, characterized in that the hole (38) of said at least one dividing element (28) has a cross-sectional shape in a plane parallel to the upper side (42) that is close to a parallelogram. 17. The device according to any one of paragraphs.12-16, characterized in that the hole (38) of the specified at least one dividing element (28) has an oval shape in cross section in a plane parallel to the upper side (42). 18. Device according to any one of paragraphs.12-17, characterized in that the at least one hole (38) is oriented in the direction (17) of the flow in the housing so that the major axis (53) of this at least one hole (38) passed parallel to this direction (17) of the flow in the housing. 19. A method of separating a gas-liquid mixture (19) moving through a pipeline (13) into gas (22) and liquid (24) using a device (1), characterized by the following features: a) device (1) has a housing (3), b ) the housing (3) is connected to the pipeline (13), c) the housing (3) has at least one inlet (9), into which the gas-liquid mixture stream (19) flows in the direction (16) of the main flow from the pipeline (13) ), g) the housing (3) has at least one outlet (35) for a liquid (24) separated from the gas-liquid mixture (1) 9), e) the housing (3) has at least one outlet (48) for gas (22) separated from the gas-liquid mixture (19), e) the housing (3) has at least one dividing element (28) where gas-liquid mixture (19) is divided into gas (22) and liquid (24), g) said at least one separation element (28) extends in the housing (3) at least partially in the direction (16) of movement of the main flow, h) in the housing (3) there is its own direction (17) of the flow, with at least one dividing electric cop (28) is characterized by the presence of the following features: I) the separation element (28) is located on a certain section of the inlet (9), II) the separation element (28) has at least one hole (38), III) the separation element (28) passes in the housing (3) at least partially in the direction (17) of the flow in this housing, IV) the inlet (9) is located on the upper side (42) of the separation element (28), V) the flow of the gas-liquid mixture (19) runs on the upper side (42) of the separation element (28), VI) the outlet (48) for gas is located on the lower side (43) of the separation element (28), and this lower side (43) is located on the reverse upper side (42) of the side, characterized in that the gas-liquid mixture first flows from the pipeline (13) into the body (3) (19) serves on the upper side (42) of the specified at least one separation element (28), then, to separate the gas (22) and liquid (24) from each other, the flow of the gas-liquid mixture (19) is passed over this at least one separation element (28) or according to it, with the difference in inertia liquids (24) and gas (22) and the surface tension of the liquid (24) prevent the passage of this liquid (24) through the specified at least one hole (38), and then the gas (22) is sent to the gas outlet (48), and the liquid (24) is directed along the specified upper side (42) directly into the outlet (35) for the liquid.