摘要
原油凝点及流变特性是衡量管道输送安全性的关键指标,其数值波动不仅影响输送能耗,更可能引发管道堵塞等安全隐患,因此对原油物性及改性效果的研究具有重要工程意义。为系统掌握长庆含蜡原油的输送适配性,本文通过室内实验对长庆油田5个采油厂8种原油的物性及热处理效果进行研究,着重分析了长庆含蜡原油不同热处理温度下的凝点变化规律。结果显示,长庆原油凝点低、蜡含量少、富含轻质成分,沥青质与胶质含量低,因此呈现较低的黏度和屈服应力;同时研究油品的热处理效果及影响因素,发现热处理敏感性原油的凝点最大可降低14℃;结合相关性分析法确定了热处理敏感性原油凝点变化的关键影响因素为热处理温度与析蜡点间的差值,并建立了热处理敏感性原油热处理后的凝点预测模型,模型预测值与实验测量值的平均绝对偏差温度值为1.84℃。该模型为长庆油田原油热处理工艺参数的优化提供了理论依据,更为保障地面集输管道的安全高效运行提供了切实有效的数据支撑。
Crude oil freezing point and rheological properties are key indicators of pipeline transportation safety.Fluctuations in these values not only impact transportation energy consumption but may also trigger safety hazards such as pipeline blockages.Therefore,research into crude oil properties and modification effects holds significant engineering importance.To systematically understand the transport compatibility of wax-containing crude oil from the Changqing field,through indoor experiments,we studied the physical properties and thermal treatment effects of eight types of crude oil from five oil production plants in the Changqing Oilfield,focusing on analyzing the changes in the pour point of waxcontaining crude oil from Changqing at different thermal treatment temperatures.The results showed that Changqing crude oil had a low pour point,low wax content,and was rich in light components,with low asphaltic and gum content,resulting in low viscosity and yield stress.Additionally,the study investigated the effects of thermal treatment on the crude oil and its influencing factors,finding that the pour point of thermally sensitive crude oil could be reduced by up to 14℃.Using correlation analysis,the key influencing factors for changes in the pour point of thermally sensitive crude oil were determined to be the difference between the thermal treatment temperature and the wax precipitation point.A predictive model for the pour point of thermally sensitive crude oil after thermal treatment was established,with the average absolute temperature deviation between the model’s predicted values and experimental measurements being 1.84℃.This model provided a theoretical basis for optimizing the thermal treatment parameters of crude oil in the Changqing Oilfield,and offered practical and effective data support for ensuring the safe and efficient operation of surface gathering pipelines.
作者
刘海军
田静茹
王毅杰
侯军刚
张镇雄
李敬
LIU Haijun;TIAN Jingru;WANG Yijie;HOU Jungang;ZHANG Zhenxiong;LI Jing(China National Petroleum Corporation Changqing Oilfield Branch First Oil Production Plant,Yan’an 716009,Shaanxi,China;College of Mechanical and Transportation Engineering,National Engineering Laboratory for Pipeline Safety,Beijing Key Laboratory of Urban Oil and Gas Distribution Technology,China University of Petroleum(Beijing),Beijing 102249,China;PipeChina West Pipeline Company,Urumqi 830011,Xinjiang,China)
出处
《化工进展》
北大核心
2025年第S1期134-143,共10页
Chemical Industry and Engineering Progress
基金
国家自然科学基金重点项目(51534007)
国家自然科学基金面上项目(51374224)。
关键词
含蜡原油
凝点
流变特性
热处理温度
析蜡特性
waxy crude oil
freezing point
rheological properties
heat treatment temperature
wax precipitation properties
