The systemic test and contrast experiment results showed that CGO is accurate and high-precision in long-baseline processing.
经过大量的系统测试和实验对比,验证了CGO在长基线处理方面的准确性和高精度。
Saturated hydrocarbons content of CGO been increased by about 10 percent points and the nitrogen content decreased significantly after solvent refining.
焦化蜡油经溶剂精制后,饱和烃含量提高10个百分点左右,氮含量明显降低。
The hydrotreating performance of catalysts was also examined in a fixed-bed continuous-flow micro-reactor, using CGO from the Liaohe Oilfield as feedstock.
用固定床连续流动微反装置,以辽河焦化蜡油为反应原料,考察了催化剂的加氢精制性能。
The equivalent circuit model of the CGO film was recommended, and the complex impedance spectroscopy of the CGO film was analyzed at different test temperatures.
提出了阻抗谱的等效电路,并对不同测试温度下CGO的阻抗谱进行了分析。
Firstly, the trends of TAN and basic nitrogen contents (BNC) were investigated under different mass mixing ratios blending CGO with acidic crudes in order to obtain the optimal mass mixing ratio.
首先,考察了CGO与高酸原油按照不同质量比物理混合时,混合油样的酸值和碱性氮含量随混合比的变化规律。
CGO were hydrotreated by RN 2 catalyst to remove N and S impurities and improve the quality. The hydrotreated CGO was proposed to be mixed with VGO as FCC feedstock after testing in the pilot plant.
采用脱氮活性高的RN-2催化剂对管输油的焦化蜡油进行加氢处理,脱除其中的氮、硫等杂质及改善烃类组成后,进行催化裂化或与直馏蜡油混合作催化裂化进料。
CGO were hydrotreated by RN 2 catalyst to remove N and S impurities and improve the quality. The hydrotreated CGO was proposed to be mixed with VGO as FCC feedstock after testing in the pilot plant.
采用脱氮活性高的RN-2催化剂对管输油的焦化蜡油进行加氢处理,脱除其中的氮、硫等杂质及改善烃类组成后,进行催化裂化或与直馏蜡油混合作催化裂化进料。
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