加氢裂化

ICP-AES法同时测定加氢裂化催化剂中的Fe、Ni、Cu、V和Pb

Simultaneous Determination of Fe , Ni , Cu , V and Pb in Hydrocracking Catalyst by ICP-AES

研制了一种缓和加氢裂化（MHC）催化剂。

A new mild hydrocracking ( MHC ) catalyst has been developed .

用PLC改进加氢裂化装置的联锁程序控制系统

Using PLC improve interlocking control system on hydrocracking process

应用BP神经网络预测加氢裂化尾油蒸汽裂解产物收率

Application of BP neural networks in predicting the product yield of HVGO steam cracking

G的结果（[6]）。正癸烷加氢裂化集总动力学研究

G is generalized ( [ 6 ] ) . Study of the lumped kinetic modeling for n-decane hydrocracking

介绍了加氢裂化装置新氢压缩机HydroCOM气量调节系统的应用情况。

The application situation of Hydro COM gas capacity regulation system of fresh hydrogen compressor in hydrocracking unit was recommended .

CentumCS系统在加氢裂化装置中的应用

Application of CENTUM CS in Hydrogen Cracking Unit

应用RBI开展高压加氢裂化装置风险检验

Development of Risk Inspection According to RBI in High Pressure Hydrogenation Cracking Set

主要介绍了Honeywell公司TPS控制系统在加氢裂化装置中的应用。

The application of TPS system of Honeywell Company in the hydrogenation and cracking plant is introduced .

可同时生产高芳烃潜含量的重整原料和低硫中间馏分油，以及作乙烯原料的优质尾油；RMC中压加氢裂化技术的整体水平与国外同类工业化技术的水平相当。

The said technology can produce high aromatics potential reforming feedstock and low sulfur middle distillates simultaneously .

中国石化集团齐鲁石油化工公司胜利炼油厂1.40Mt／a加氢裂化装置高压分离器D405存在设备制造问题，现场调查和介质环境的跟踪分析表明，D405设备腐蚀环境为碱性湿H2S环境。

, Ltd. has fabrication defects . The site investigation and analysis of operating media show that the equipment service environment is alkali wet H_2S corrosion environment .

中压加氢裂化加工大庆VGO的研究

Research on mid-pressure hydrocracking of Daqing VGO

用程序升温硫化的方法研究了NiO－MoO3／USY型加氢裂化催化剂。

Temperature programmed sulfidation technique was used for studying hydrocracking catalysts of NiO-MoO 3 / USY .

FeY分子筛的合成、表征及其加氢裂化活性

Synthesis , Characterization and Hydrocracking Activity of FeY Molecular Sieve

基于BP网络、RBF网络、PLS算法建立了加氢裂化分馏塔航空煤油干点软测量模型。

Based on the BP network , RBF network and PLS algorithm the model of soft sensor for the dry point of jet fuel in hydrocracking fractionator has been developed .

MCM-22和ITQ-2分子筛负载型催化剂加氢裂化性能的对比研究

Comparative Study on Hydrocracking over MCM-22 and ITQ-2 Zeolite-Supported Catalysts

介绍了中压加氢裂化（RMC）工艺在3L中型试验装置上加工大庆VGO及其混合油的研究结果。

Mid pressure hydrocracking technology RMC was conducted on a 3L pilot plant processing Daqing VGO and its mixtures .

渣油悬浮床加氢裂化分散型催化剂的XANES研究

Study on XANES of dispersed catalyst for residue oil hydrocracking in slurry bed reactor

针对加氢裂化分馏塔多个产品的质量指标需同时预报的一类MIMO软测量建模问题，研究了适用于MIMO软测量建模的一种改进的PLS算法。

An improved PLS algorithm which is suitable for modeling in MIMO soft measurement is investigated . MIMO soft measurement is adapted in simultaneous estimation for multiple products of hydrogen cracking fractional column .

磷细菌P17对不同来源磷矿粉的溶磷作用及机制磷在加氢裂化催化剂中的作用

Effects and mechanism of P-solubilizing Bacillus p17 strain on phosphorus solubilization of different phosphate rocks

1.4Mt/a加氢裂化装置加工焦化蜡油生产技术总结

Summary on Production Technology of 1.4Mt/a Hydrocracking Plant Processing Coker Gatch

加氢裂化FC-16和FC-14催化剂组合工艺应用研究

Study on Combined Application of Catalysts FC-16 and FC-14 in Hydrocracking Unit

在劣质催化裂化柴油改质以及VGO部分转化的同时对未转化油改质方面，中压加氢裂化工艺有较好的应用前景。

The mid-pressure hydrocracking process has a good prospect in upgrading unconverted oil simultaneously when upgrading inferior FCC gas oil and partly converting VGO .

HC-K、3824、3823催化剂在工业加氢裂化装置上的应用

Commercial application of hc-k , 3824,3823 catalysts in a hydrocracker

加氢裂化尾油：临氢降凝-加氢补充精制工艺，产品可达APIⅡ类基础油，但产品收率低，加工流程长，加工成本高，不适合以大规模生产润滑油基础油装置。

The product can reach the API ⅱ base oil . But the yield of the product is low and the production cast is high . So it is unsuitable for the production of base oil of lubricant in large scale equipment .

1.4Mt/a加氢裂化装置的开工及运行

Startup and Operation of Qilu 1.4Mt/a Hydrocracking Plant

GW-101型硫化亚铁钝化剂在加氢裂化装置上的应用

Application of GW-101 ferrous sulfide passivator in hydrocracking unit

TS3000系统在加氢裂化装置紧急泄压联锁系统上的应用

Application of TS 3000 in the Emergency Pressure Release

其中，反应流出物空冷器（REAC）及相连管道的普遍性失效问题，已成为制约加氢裂化装置安全运行的关键因素。

Failures of the reaction effluent air cooler ( REAC ) and the connected pipelines have been the major obstacle to safe operation of the hydrocracking unit .

采用高压连续微反装置及X-射线光电子能谱（ESCA）等仪器，考察了不同硫化条件对加氢裂化催化剂中活性组分的存在状态及价态分布的影响。

The influence of sulfidizing conditions on the active metal structures and valences distribution of hydrocracking catalysts have been studied by using high pressure continuous flow reactor , FT-IR and ESCA .