DocumentCode
2268094
Title
Drilling data quality control via wired drill pipe technology
Author
Zhao, Kairui ; Sui, Dan
Author_Institution
School of automation, Northwestern polytechnical university
fYear
2015
fDate
28-30 July 2015
Firstpage
7883
Lastpage
7888
Abstract
It is widely known that data associated with oil well drilling is often noisy and otherwise of bad quality. Bad data quality may be derived from mis-calibrated sensors/actuators, wrong data transmission or some faults in wells, etc. It is also known that solutions need to draw on people, processes and technologies to make traction. This paper addresses the challenges in measuring real-time downhole data and presents a method to extract downhole unmeasurable parameters via using the wired drill pipe (WDP) technology, which has gained industry acceptance as a viable alternative to typical logging while drilling (LWD) transmission methods and is being adopted with increasing frequency. An advanced data processing method, data validation and reconciliation (DVR) is applied to calibrate the WDP data and calculate the unmeasured drilling parameters by using the data redundancy of the system as the source of information. The ability of the DVR technology is not only to filter/remove the noise of the data, ensure the coherency of all sensors and models, but to put more emphasis on the accurate measurements and relax on inaccurate ones. Multiple measurements by several distributed sensors with WDP over time and under different conditions can be used to extract the crucial model parameters and correct the measurements. This scheme can further deal with sensor faults/redundancy and distinguish a sensor fault from drilling problems, a kick/lost or other unwanted events.
Keywords
Data models; Friction; Mathematical model; Pressure measurement; Redundancy; Sensors; Temperature measurement; data quality control; data validation and reconciliation; drilling data;
fLanguage
English
Publisher
ieee
Conference_Titel
Control Conference (CCC), 2015 34th Chinese
Conference_Location
Hangzhou, China
Type
conf
DOI
10.1109/ChiCC.2015.7260892
Filename
7260892
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