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International Journal of New Developments in Engineering and Society, 2024, 8(1); doi: 10.25236/IJNDES.2024.080104.

Research on BaaS Level Measurement and Control Device of 5000m3 Storage Tank Based on Vision Sensing


Zifan Gao, Feifei Wang, Cong Ren, Mingshuo Xia, Yunqing Wang, Qingyu Shang

Corresponding Author:
Cong Ren

Dongying Vocational Institute, Dongying City, Shandong Province, China


The BaaS liquid level measurement and control device of 5000m3 storage tank in oilfield based on visual sensing aims to solve the safety, environmental protection and digital problems of tank level monitoring in the field of petroleum and petrochemical energy. The device consists of three modules: level measurement, data analysis, and safety and environmental protection. Relying on intelligent visual perception and control, blockchain and other technologies, the remote digitization of the 5000m3 storage tank level signal in the oilfield is realized, and the blockchain + knowledge graph + privacy computing + Internet of Things creates a trusted data base to realize the real-time matching of product objects and ledgers.


Intelligent visual perception, Control block chain, Intelligent redundancy arrester, Sealed square box

Cite This Paper

Zifan Gao, Feifei Wang, Cong Ren, Mingshuo Xia, Yunqing Wang, Qingyu Shang. Research on BaaS Level Measurement and Control Device of 5000m3 Storage Tank Based on Vision Sensing. International Journal of New Developments in Engineering and Society (2024) Vol.8, Issue 1: 21-27. https://doi.org/10.25236/IJNDES.2024.080104.


[1] Jia Baofeng. Application of improved radar level meter in tank fluid level measurement [J]. Automation instrumentation, 2017 (11): 20.

[2] Li Chunqing, Zhang Youquan. Measurement principle and troubleshooting of radar-type liquid level meter [J]. Instrumentation user, 2003,10 (5): 67-68.

[3] Wang Fei. Common faults and handling of radar level meter [J]. Chemical Trade in China, 2017 (01): 20.

[4] Qiao Pengli. Application and maintenance of radar level meter in tank area of refinery [J]. Science and Technology Innovation Guide, 2018 (03).

[5] Jiang Yong, Yang Ying. Research and discussion on the detection standard of liquid level meter in the tank area of petrochemical enterprises [J]. China Petroleum and Chemical Industry Standards and Quality, 2016 (11).

[6] Chen Liang, Wang Yongqing, Fang Yuzhuan, Song Haiying. Application practice of radar level meter in oil fields in southern Iraq [J]. Petrochemical Construction, 2018 (01).

[7] Tan Mengqi, Wang Hui. Application of radar level meter on crude oil storage tank [J]. Oil and gas field surface works, 2015(4):43-44.

[8] Shen Yijun, Li Bo, Wang Penghao. Application of radar level meter ranging technology in ship hydraulic meter [J]. Chinese Ship Research, 2017 (6): 134-140.

[9] Cheng Jun. Application of ultrasonic liquid level meter in cooling water tower [J]. Electrical technology, 2018,482 (20): 94-95.

[10] Hong Z.Study on Ultrasonic Liquid Level Measurement on the Ektexine of Seal Vessel[J].Journal of Electronic Measurement & Instrument, 2007, 21(4):46-49.

[11] JJG971-2002, liquid level meter [S].

[12] Y Ji, S Song.The current situation and development tendency of liquid level measurement technology of storage tank[J].Petroleum Engineering Construction,2006,32(4):1-4 .

[13] Miao Naigui, Zhang Dongliang, Gao Jianmei, and so on. Brief describe blow level measuring unit for 200-foot jack rig [J]. Technology Communication, 2011 (03): 147 + 144.

[14] Sun Jingcai. Application of air blowing liquid level meter in 16 0,000 t coal to oil [J]. Inner Mongolia Petrochemical Industry, 2015,41 (15): 17-18.

[15] Huang Jiaping. On the comparison and installation of liquid level gauge in waste liquid storage tank in nuclear power plant [J]. China Instrument, 2019 (07): 54-58.

[16] Zhang Yanyan. Application of blowing level measurement system in chemical plant [J]. Chemical Automation and Instrument, 2015,42 (11): 1266-1268.

[17] Zhang Qian. Research on the piezostatic pressure sensor measurement system [D]. Shanghai: Donghua University, 2018.

[18] Tong Kebo. Design and implementation of belt transmission speed regulation system based on PROFIBUS fieldbus communication [J]. Industrial instrument and automation device, 2014 (2): 90-92.

[19] Jiang Shiling, Liang Rong, Zhao Yong. Design and implementation of an intelligent remote IO communication device based on PROFIBUS-DP [J]. Industrial control computer, 2014,27 (5): 47-48.

[20] Wang Lei. Development of the converter gas recovery control system based on CS3000DCS [D]. Dalian University of Technology, 2014.

[21] Wang Xuebing, Ding Jianyue. Application of single flange level transmitter in closed container [J]. Well Mine Salt, China, 2013 (3): 41-42.

[22] Wu Xiaohui. Application of single flange differential pressure transmitter in mixed single batching system of polymerization device [J]. Oil Refining and Chemical Industry, 2007,18 (4): 54-54.

[23] Bispo J,Cardoso J M P.A MATLAB subset to C compiler targeting embedded systems[J].Software Practice & Experience,2016,47(2).

[24] Zhang Jilong, Chen Jian, He Peixiang. Frequency domain analysis program of a linear time-invariant control system based on MATLAB [J]. Journal of Chongqing University of Technology, 2005,19 (8): 45-47.

[25] Başçi A,Derdiyok A.Implementation of an adaptive fuzzy compensator for coupled tank liquid level control system[J].Measurement,2016,91:12-18.

[26] Wang Yueqing, Hao Luanyi, Wang Xuemin, et al. Application of radar level meter in tank area detection [J]. Oil & gas Well test, 2010,19 (2): 60-61.

[27] Lu C,Zhang J.Design an d simulation of a fuzzy-PID composite parameters'controller with MATLAB[C]//International Conference on Computer Design and Applications.IEEE, 2010:V4-308-V4-311.

[28] Yang S K.A new anti‐windup strategy for PID controllers with derivative filters[J].Asian Journal of Control,2012,14(2): 564-571.