1) mixing light oil
掺稀油
1.
Study of experiment and numerical simulation of superheavy oil production by mixing light oil;
超稠油掺稀油开采实验及数值模拟研究
2.
Based on the research of viscosity?temperature relationship of heavy oil, lifting technology in deep wells and mixing light oil for viscosity reduction, the feasibility of lifting technology of hollow rod is studied.
该文针对深层稠油油藏的特点 ,在对稠油粘温关系和深井举升工艺进行研究的基础上 ,结合实验室掺稀油降粘效果研究结果 ,对空心杆泵上和泵下掺稀油举升工艺的可行性进行了研究。
2) thinning of heavy crude
稠油掺稀油
3) blending diluting oil technology
掺稀油降粘工艺
1.
The flow and heat transfer thermal-dynamic model for the fluid flowing along wellbore by using the blending diluting oil technology to reduce the viscosity was established on the basis of heat transfer principle and two-phase flow theory.
基于热量传递原理和两相流动理论,建立了井筒掺稀油降粘工艺中产液沿井筒流动与传热的热力学模型。
4) blending thin oil
掺稀
1.
At present the heavy oil is produced using the technique of blending thin oil visbreaking.
在采用掺稀降粘工艺开采稠油时,油管失效除了常见的失效形式(滑脱、管体破裂、穿孔、腐蚀等)外,又出现了新的失效形式——油管挤毁,尤其是在西部油田。
5) rare earth doping
稀土掺杂
1.
Synthesis of rare earth doping cathode materials LiMn_2O_4 used for lithium ion batteries;
稀土掺杂合成离子电池正极材料LiMn_2O_4技术
2.
The sol-gel process was used in the preparation of pure TiO_2 and rare earth doping TiO_2, the phase structure and anti-UV capacity were studied by means of XRD and UPF, we investigated how the doping quantity and doping category influence the anti-UV capacity.
采用溶胶凝胶法制备纯净及稀土掺杂的TiO2,用X射线衍射(XRD)和UPF进行表征,研究了不同掺杂种类及掺杂量对紫外吸收性能的影响,结果表明掺杂2%CeO2、2%La2O3、1。
3.
The development importance of lithium ion battery technology is described; the application of rare earth doping in positive material, negative material and solid electrolyte of lithium ion battery is summarized.
阐述了锂离子电池技术发展的重要性,综述了稀土掺杂在锂离子电池正极材料、负极材料及固体电解质中的应用。
补充资料:掺掺
1.女手纤美貌。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条