Separation device

The invention claimed is: 1. A separation device configured to perform phase separation on a liquid containing at least a first phase, a second phase, and a third phase, including: a housing; at least one pair of longitudinal baffle plates which are arranged along a longitudinal direction of the housing; a flow channel formed between every pair of longitudinal baffle plates and used for flow of the fluid; and collection chambers formed between adjacent pairs of longitudinal baffle plates and/or formed between the longitudinal baffle plate and an inner wall of the housing, each of the collection chambers being provided therein with at least one transverse baffle plate, which is configured to separate the collection chamber into a first phase collection cell and a second phase collection cell along the longitudinal direction, wherein each flow channel is provided therein with multiple lateral baffle plates, which are arranged in an inclined manner with respect to the longitudinal baffle plates, so as to separate the flow channel into multiple sub-channels arranged along an approximately vertical direction, and in an area of each longitudinal baffle plate where the first phase collection cell is located, said longitudinal baffle plate is provided with a first phase guiding hole in communication with the first phase collection cell, while in an area of each longitudinal baffle plate where the second phase collection cell is located, said longitudinal baffle plate is provided with a second phase guiding hole in communication with the second phase collection cell. 2. The separation device according to claim 1 , wherein each sub-channel has a cross-sectional shape having a geometric highest point and a geometric lowest point. 3. The separation device according to claim 2 , wherein a density of the third phase is greater than that of the first phase, but smaller than that of the second phase, and the first phase guiding hole is arranged at a position corresponding to the geometric highest point, while the second phase guiding hole is arranged at a position corresponding to the geometric lowest point. 4. The separation device according to claim 3 , wherein the cross-sectional shape of the sub-channel is one of a triangle, a trapezoid, and a parallelogram. 5. The separation device according to claim 4 , wherein the cross-sectional shape of the sub-channel is a triangle, and the lateral baffle plate and the longitudinal baffle plate together form an angle in a range of 10 to 80 degrees. 6. The separation device according to claim 1 , wherein in each sub-channel, the first phase guiding hole in the area corresponding to the first phase collection cell and the second phase guiding hole is arranged in the area corresponding to the second phase collection cell. 7. The separation device according to claim 1 , wherein multiple transverse baffle plates are arranged in each collection chamber along the longitudinal direction, so that multiple first phase collection cells and second phase collection cells which are arranged alternately are formed in the collection chamber. 8. The separation device according to claim 7 , wherein the transverse baffle plates in different collection chambers are aligned with each other in sequence in a transverse direction. 9. The separation device according to claim 7 , wherein all the first phase collection cells are connected with an external first phase collector via a first manifold, and all the second phase collection cells are connected with an external second phase collector via a second manifold. 10. The separation device according to claim 1 , wherein the first phase guiding hole extends through a whole longitudinal length of the first phase collection cell, and the second phase guiding hole extends through a whole longitudinal length of the second phase collection cell. 11. The separation device according to claim 1 , wherein an outlet of each flow channel is in communication with an external third phase collector. 12. The separation device according to claim 1 , wherein the fluid is oilfield produced liquid, and the first phase, the second phase and the third phase are respectively oil, suspended solids, and water. 13. A device for separating oilfield produced liquid, which contains an oil phase, a suspended solid phase, and an aqueous phase, including: an approximately cylindrical housing; multiple pairs of longitudinal baffle plates which are arranged along a longitudinal direction of the housing; a flow channel used for flow of the fluid and formed between every pair of longitudinal baffle plates; and collection chambers formed between adjacent pairs of longitudinal baffle plates and formed between the longitudinal baffle plate and an inner wall of the housing, each collection chamber being provided therein with multiple transverse baffle plates spaced apart along the longitudinal direction, so as to separate the collection chamber into multiple oil phase collection cells and suspended solid phase collection cells that are arranged alternately along the longitudinal direction, wherein each flow channel is provided therein with multiple lateral baffle plates which are arranged in an inclined manner with respect to the longitudinal baffle plates, so as to separate the flow channel into multiple sub-channels which are arranged vertically, each sub-channel having a cross-sectional shape of a triangle, and in an area of each longitudinal baffle plate where the oil phase collection cell is located, an oil phase guiding hole in communication with the oil phase collection cell is arranged on the longitudinal baffle plate at a position corresponding to the geometric highest point of the triangle, and in an area of each longitudinal baffle plate where the suspended solid phase collection cell is located, a suspended solid phase guiding hole in communication with the suspended solid phase collection cell is arranged on the longitudinal baffle plate at a position corresponding to the geometric lowest point of the triangle.