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Academic Journal of Engineering and Technology Science, 2022, 5(9); doi: 10.25236/AJETS.2022.050902.

The parameter acquisition system of oil drill’s bit in working process

Author(s)

Pan Wu, Wei Lin, Jun Tian, Guochao Li, Chunping Liang, Jianhua Zhao, Yanyun Chen, Linyan Chen, Guang Chen

Corresponding Author:
​Pan Wu
Affiliation(s)

College of Engineering, Southwest Petroleum University, Chengdu, China

Abstract

In the process of oil drilling, it is often required to improve the drilling efficiency and to be able to analyze the faults in the drilling process, so it is of great significance to study the parameter acquisition system of the oil drill bit working process[1]. Aiming at this situation, this paper designs a device for downhole data acquisition, vibration detection, temperature detection and rotational speed detection of deep well drill bits. In this paper, an overall scheme is designed, and the acceleration[2], on-board temperature [3]and rotational speed[4] of the three axes of X, Y, and Z are selected as the main measurement objects. The working parameters of the drill bit can not only reflect the entire working condition of the drill bit, but also can be used for failure analysis during the drilling process. Provide strong evidence. First of all, components need to have high temperature resistance characteristics. At the same time, the selected components can meet the detailed parameters of technical requirements, including measurement range, measurement accuracy, resolution, etc. Secondly, design the hardware circuit, including acceleration acquisition circuit, temperature measurement circuit, rotational speed measurement circuit and data storage circuit. Finally, the software is designed, including the data acquisition, the A/D conversion and the Flash stored program design.

Keywords

Drilling Engineering; Deep Well Drill Pipe; Measuring Device; Data Acquisition

Cite This Paper

Pan Wu, Wei Lin, Jun Tian, Guochao Li, Chunping Liang, Jianhua Zhao, Yanyun Chen, Linyan Chen, Guang Chen. The parameter acquisition system of oil drill’s bit in working process. Academic Journal of Engineering and Technology Science (2022) Vol. 5, Issue 9: 8-12. https://doi.org/10.25236/AJETS.2022.050902.

References

[1] Xingguo Hou, Zhengwen Guo. Current Situation and Development Trend of Petroleum Drilling Technology in China [J]. Chemical Engineering Design Communications, 2021, 47(11): 36-37. 

[2] Zhengguo Yan, Wei Li. Inclination angle based on ADXL343 acceleration sensor Measurement System Design [J]. Today Electronics, 2015(01): 55-59. 

[3] Xiaolu Wang, Shanshan Li, Maochao Lv. Research on the influence of different ambient temperatures on the measurement error of the circuit temperature measurement system[J]. Metrology and TestinTechnology, 2022,49(06):26-28.DOI:10.15988/j.cnki.1004-6941.2022.6.008. 

[4] Jinwen Wu, Lei Li, Jihong Song. Design of frequency-based speed sensor based on the principle of electromagnetic induction[J]. Sensor World, 2021, 27(11): 6-9. DOI: 10.16204/j.cnki.sw.2021.11.015. 

[5] Minsheng Wang, Xinjun Guang, Lidong Geng. The application status and development of artificial intelligence in drilling engineering Suggestion[J]. Petroleum Drilling and Production Technology, 2021,43(04):420-427.DOI:10.13639/j.odpt.2021.04.002. 

[6] Guanjie Zhang. Application of Rotary Percussion Drilling Technology in Oil Drilling[J]. Chemical Design Communication, 2022,48(04):49-51. 

[7] Guangming Han. Application of modern information technology in petroleum engineering construction[J].Oil and gas field surface engineering, 2014,33(01):15- 16. 

[8] Fenglin Tang, Есауленко В.Н., Ning Fulong, Duan Longchen, Чихоткин В.Ф. Analysis and Research on Sensors for Bottom-hole Parameter Measurement System for Deep Well Drilling [J]. Drilling Engineering, 2021, 48( 05):38-46.

[9] Haige Wang, Yunhua Ge, Lin Shi. Status Quo, Challenges and Development Direction of "13th Five-Year Plan" of Deep Well and Ultra-Deep Well Drilling and Completion Technology [J]. Natural Gas Industry, 2017, 37(04): 1- 8. 

[10] Qingyu Meng, Baichuan Wu. Analysis of drill pipe vibration characteristics and prediction of fatigue cycle [J]. China Manganese Industry, 2019, 37(06): 87-90+94. DOI: 10.14101/j.cnki.issn. 1002-4336.2019.06.018. 

[11] Huajun Song, Guangbing Zhou, Wei Yu. Design of drill string vibration measuring instrument for laboratory drilling simulation platform [J]. Laboratory Research and Exploration, 2018, 37(06):60-62+75 . 

[12] Rongzuo Guo, Jun Huang. Design of drilling platform data acquisition system based on IoT perception [J]. Computer Engineering and Design, 2020, 41(03): 887-895. DOI: 10.16208/j.issn 1000-7024.2020. 03.046. 

[13] Dong Fu, Xiaowei Jin, Jibiao Xue, Ning Zhan, Pengxiang Zhang. The influence of drill pipe rotation speed on oil casing wear[J]. Mechanical Design and Research, 2021, 37(04): 115-119. DOI: 10.13952/j.cnki.jofmdr. 2021.0148.