[1]白书齐,杜 鹏,张 萍,等.基于射频法的油库液体石油产品数量在线检测装置研究[J].工业仪表与自动化装置,2026,(01):37-40.[doi:10.19950/j.cnki.CN61-1121/TH.2026.01.007]
 BAI Shuqi,DU Peng,ZHANG Ping,et al.Research on on-line detection device of liquid petroleum product quantity in oil depot based on radio frequency method[J].Industrial Instrumentation & Automation,2026,(01):37-40.[doi:10.19950/j.cnki.CN61-1121/TH.2026.01.007]
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基于射频法的油库液体石油产品数量在线检测装置研究()

《工业仪表与自动化装置》[ISSN:1000-0682/CN:61-1121/TH]

卷:
期数:
2026年01期
页码:
37-40
栏目:
出版日期:
2026-02-15

文章信息/Info

Title:
Research on on-line detection device of liquid petroleum product quantity in oil depot based on radio frequency method
文章编号:
1000-0682(2026)01-0037-04
作者:
白书齐杜 鹏张 萍钱铁鑫李岳先
辽宁省检验检测认证中心(辽宁省产品质量监督检验院),辽宁 阳 110000
Author(s):
BAI Shuqi DU Peng ZHANG Ping QIAN Tiexin LI Yuexian
Liaoning Inspection, Examination & Certification Centre, Liaoning Province Product Quality Supervision and lnspection Institute, Liaoning henyang 110000, China
关键词:
射频法多功能传感器机器人巡检云平台油库数量检测
Keywords:
radio frequency method multifunctional sensor robot inspection cloud platform oil depot quantity detection
分类号:
TN 958.98-34
DOI:
10.19950/j.cnki.CN61-1121/TH.2026.01.007
文献标志码:
A
摘要:
针对传统油库数量检测技术存在准确度低、周期长、人员操作繁琐及工作危险程度高等问题,设计并开发了1套基于射频传感技术的智能化在线检测装置。基于射频波逐层扫描原理,在线识别罐内液体石油产品的油层、混合层、水层;利用集成多功能传感器和机器人巡检装置(Robot-A)对油库罐内液体石油产品进行检测,通过计算机智能计算,获取储罐内液位、温度、压力、密度、含水率及分层界面等参数;搭建“云平台”并预置预警模块,对储罐的温度、压力、液位最高极限和最低极限开启预警模式,智能联动应急措施,达到智能化在线检测和预警的作用。为石化行业油库液体石油产品数量检测的智能化升级提供技术支撑。
Abstract:
Aiming at the problems of low accuracy, long cycle, cumbersome operation and high risk of traditional oil depot quantity detection technology, an intelligent online detection device based on radio frequency sensing technology is designed and developed.Firstly, based on the principle of layer-by-layer scanning of radio frequency wave, the oil layer, mixed layer and water layer of liquid petroleum products in the tank are identified online. Secondly, the integrated multi-functional sensor and robot inspection device (Robot-A) are used to detect the liquid petroleum products in the oil tank. Through computer intelligent calculation, the parameters such as liquid level, temperature, pressure, density, water content and stratification interface in the tank are obtained. A cloud platform is built and an early warning module is preset to open the early warning mode for the highest and lowest limits of temperature, pressure and liquid level of storage tanks, and intelligent linkage emergency measures are taken to achieve intelligent online detection and early warning. It provides technical support for the intelligent upgrading of liquid petroleum product quantity detection in oil depot of petrochemical industry.

参考文献/References:

[1] KAMAL B, ABBASI Z, HASSANZADEH H. Water-Cut Measurement Techniques in Oil Production and Processing—A Review[J]. Energies,2023,16(17):6410.

[2] GAO G, HOU D, LE H, et al. Research Status and Development Trend of Water Cut Detection Methods for Crude Oil [J]. Journal of Physics: Conference Series, 2021, 1894(1):012093.
[3] 王飞飞.多功能油罐液位计研制与应用[J].当代化工研究, 2022(14): 174-176.
[4] 杨冉.外感式阵列化超声波液位监测系统关键技术研究[D].太原:中北大学,2022.
[5] 郭路刚.基于电容法的原油含水率测量系统研究与设计[D].荆州:长江大学,2023.
[6] 韩建,刘鹤,黄颖,等.基于电容法原油高含水测量系统设计[J].电子设计工程,2018,26(17):116-120.
[7] 宋震,吕忠蕾,麦洋.基于平面电容的油水多界面检测方法研究[J].电子测量与仪器学报,2022,36(02):178-187.
[8] REYNA CARLOS A. B, FRANCO EDIGUER E, DUR?N ALBERTO L,et al.Water Content Monitoring in Water-in-Oil Emulsions Using a Piezoceramic Sensor[J].Machines, 2021, 9(12): 335-335.
[9] 行毅鹏.1万方LNG储罐的现场仪表选型及其基本测量原理[J].石化技术,2024,31(01): 97-99.
[10] 徐首恒.油罐超声液位仪系统设计及影响因素研究[D], 西安:西安石油大学,2024.
[11] 廖四毛,颜景国.一种新型多功能储油罐液位仪的研发[J].石油库与加油站,2020,29(02): 3-5+53.
[12] 关士洁.原油含水率在线监测技术在油井的应用[J].石化技术,2025,32(05): 153-154+160.
[13] 高维.高精度含水率测量系统优化与校正方法研究[D]. 西安:西安石油大学,2023.
[14] 卿红霞.射频和红外两种原理在线含水分析仪现场应用比较[J].仪器仪表用户,2022, 29(03):22-26+8.
[15] 徐鑫.射频法原油含水率测量系统研究及参数优化[D]. 西安:西安石油大学,2020.
[16] 赵鹤竹.外围油田卸油点原油含水率在线检测仪的设计[J].中国计量,2024(10): 90-94.

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备注/Memo

备注/Memo:
收稿日期:2025-09-16基金项目:国家市场监督管理总局科技计划项目———智能化在线检测技术的研究及在石化油库数量检测中的应用(2023MK021)第一作者:白书齐(1995—),女,汉族,工程师,硕士研究生,主要研究方向为检验检测与标准化研究。
更新日期/Last Update: 1900-01-01