Author(s)

Antônio Orestes De Salvo Castro¹, Mayara De Jesus Rocha Santos², Fabiana Rodrigues Leta², Cláudio Benevenuto C. Lima³, Gilson Brito Alves Lima²

¹Rio de Janeiro State University (UERJ), Rio de Janeiro, Brazil.
²Department of Engineering of Fluminense Federal University (UFF), Niterói, Brazil.
³Petróleo Brasileiro S.A, Rio de Janeiro, Brazil.

In the petroleum industry, sensor data and information are valuable. It can detect, predict and help to understand processes during oil production. Offshore wells require more attention. Once workovers, maintenance, and intervention are more costly than onshore wells. Coupling data-driven methods for well-monitoring applications, two unsupervised classification methods, one statistical and one machine learning-based, are proposed to detect anomalies in well data. The novelty is presented by applying a Control Chart using a 3 standard deviations window for the Permanent Downhole Gauge Pressure sensor (P-PDG), and a Fuzzy C-means algorithm to classify data from pressure and temperature sensors in an offshore field. The main goal in structuring a classified data set is using it to train machine learning models to monitor and manage petroleum production. Modeling applications for early fault detection systems in offshore production, based on real-time data from production sensors, require classified data sets. Then, labeling two target classes: “normal” and “fault” is a key step to be implemented in order to train the machine learning models. Therefore, this paper applies two methodologies to classify a real-time data set to create a training data set divided into “normal” and “fault” classes. Thus, it is possible to visualize the abnormal events pointed out by the methodologies and compare how sensible is each method. In addition, it is proposed a random forest application to test the performance of the classified data sets from both methods. The results have shown that the control chart method presents higher sensibility than fuzzy c-means, however, the differences between are insignificant. The random forest performance displayed sensitivity and specificity values of 99.91% and 100% for the data set classified by the control chart method and 94.01% and 99.98% for the data set classified by fuzzy c-means algorithm.

Unsupervised Classification, Fuzzy C-Means, Control Chart

De Salvo Castro, A. , De Jesus Rocha Santos, M. , Leta, F. , Lima, C. and Lima, G. (2021) Unsupervised Methods to Classify Real Data from Offshore Wells. American Journal of Operations Research, 11, 227-241. doi: 10.4236/ajor.2021.115014.