A cluster analysis-based identification method for phase state critical point of oil-gas-water three-phase flow
An identification method and cluster analysis technology, applied in the field of petroleum engineering, can solve problems affecting the measurement results of oil-gas-water three-phase flow
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specific Embodiment approach 1
[0062] A method for identifying a phase state critical point of oil-gas-water three-phase flow based on cluster analysis, the identification method comprising the following steps:
[0063] Step 1: Select 3 data from all current measurement data values of oil-gas-water three-phase flow, define it as the initial center M, and divide all data into 3 categories with M as the center;
[0064] Step 2: According to the Euclidean distance, classify other data except the initial center M into the class represented by the nearest initial center point to itself, and calculate the difference of the whole set of data in this classification case sum of absolute values E pre ;
[0065] Step 3: Extract the data of the center position in the two types of data in step 2 as the new center M new , and reclassified to calculate the sum of the absolute values of the corresponding differences E new , using the principle that the total cost of exchange TP is negative, replace the initial cen...
specific Embodiment approach 2
[0068] This embodiment is a further description of the first embodiment. In the first step, the current measurement data of the oil-gas-water three-phase flow is represented by a set X, and the set X is expressed as:
[0069] X={a 1 , a 2 ...,a i ,...,a j ,...,a s}
[0070] In the formula, i and j both represent the serial number of the current data value, a i ,a j Obtain the converted i-th and j-th current data values for the multi-phase flow detected by the differential pressure sensor respectively, and s is the number of all current measurement data;
[0071] Because the data obtained by the detection of the differential pressure sensor for each phase of the oil-gas-water three-phase flow will change, therefore, the set X is classified and integrated, and the set X is expressed as:
[0072] X={A 1 ,A 2 ,A 3}
[0073] where A 1 ,A 2 ,A 3 Three sets of data sets are obtained for the differential pressure sensor detecting oil, water, and gas phases respectively...
specific Embodiment approach 3
[0075] This embodiment is a further description of Embodiment 2. The method of selecting 3 initial centers described in step 1 is:
[0076] First calculate the distance D between all current data values according to the Euclidean distance:
[0077]
[0078] In the formula Obtain the converted current data value a for the differential pressure sensor to detect multiphase flow i and current data value a j the distance between
[0079] Then calculate the current data value a i and current data value a j (j≠i) distance accounted for current data value a j The sum V of distance ratios to all data:
[0080]
[0081] In the formula, l represents the serial number of the current data value. For the convenience of subsequent description, the matrix V is rewritten, and the matrix V is expressed as:
[0082]
[0083] In the formula, u represents the number of elements in the matrix V, arrange all the elements in the matrix V in ascending order, and the arranged matrix ...
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