Effects of Hydrotreating Severity on Hydrocarbon Compositions and Deep Catalytic Cracking Product Yields

被引：0

作者：

Deng Zhonghuo ^{[1
]}

Dai Lishun ^{[1
]}

Niu Chuanfeng ^{[1
]}

Jia Yanzi ^{[1
]}

Wei Xiaoli ^{[1
]}

Cai Xinheng ^{[1
]}

机构：

[1] SINOPEC Research Institute of Petroleum Processing

来源：

ChinaPetroleumProcessing&PetrochemicalTechnology | 2021年 / 23卷 / 03期

关键词：

D O I：

暂无

中图分类号：

TE624.41 []; TQ221.212 [];

学科分类号：

摘要：

Residue deep hydrotreating(RDHT) process was developed by the Research Institute of Petroleum Processing(RIPP) to provide high quality feedstock for deep catalytic cracking(DCC) process. In this research work, the effects of RDHT process and reaction severity on heteroatom removal, hydrogen content increase, hydrocarbon composition improvement, and DCC product yields were studied. It was showed that the RDHT process can effectively reduce heteroatoms, increase hydrogen content and improve the hydrocarbon compositions, which can contribute to an increase of light olefins yield in DCC unit.

引用

页码：112 / 118

页数：7

共 34 条

[1] Effects of Hydrotreating Severity on Hydrocarbon Compositions and Deep Catalytic Cracking Product Yields
Deng Zhonghuo
Dai Lishun
Niu Chuanfeng
Jia Yanzi
Wei Xiaoli
Cai Xinheng
CHINA PETROLEUM PROCESSING & PETROCHEMICAL TECHNOLOGY, 2021, 23 (03) : 112 - 118
[2] Fluid catalytic cracking feed hydrotreatment and its severity impact on product yields and quality
Stratiev, Dicho S.
Shishkova, Ivelina K.
Dobrev, Dimitar S.
FUEL PROCESSING TECHNOLOGY, 2012, 94 (01) : 16 - 25
[3] EFFECT OF CATALYTIC CRACKING METHOD ON PRODUCT YIELDS
RUSTAMOV, MI
ALIEV, VS
PRYANIKOV, EI
ABDULLAEV, MA
CHEMISTRY AND TECHNOLOGY OF FUELS AND OILS, 1977, 13 (1-2) : 26 - 30
[4] Method of calculation of product yields in catalytic cracking
Sudakov, EN
CHEMISTRY AND TECHNOLOGY OF FUELS AND OILS, 1998, 34 (04) : 208 - 215
[5] Effects of Molecular Structure on Hydrocarbon Catalytic Cracking Performance
Li, Fuchao
Yuan, Qimin
Wei, Xiaoli
Shiyou Xuebao, Shiyou Jiagong/Acta Petrolei Sinica (Petroleum Processing Section), 2020, 36 (04): : 661 - 666
[6] A novel approach for the prediction of hydrocarbon thermal cracking product yields from the substitute feedstock composition
Belohlav, Z
Zámostny, P
Herink, T
Eckert, E
Vanek, T
CHEMICAL ENGINEERING & TECHNOLOGY, 2005, 28 (10) : 1166 - 1176
[7] Development of regression models to control product yields and properties of the fluid catalytic cracking process
Al-Enezi, G
Fawzi, N
Elkamel, A
PETROLEUM SCIENCE AND TECHNOLOGY, 1999, 17 (5-6) : 535 - 552
[8] Development of regression models to control product yields and properties of the fluid catalytic cracking process
Al-Enezi, G.
Fawzi, N.
Elkamel, A.
Petroleum Science and Technology, 1999, 17 (05): : 535 - 552
[9] Role of contaminant metals in fluid catalytic cracking reactions: The effects on product boiling point distribution and chemical compositions.
Zhao, XJ
Rudesill, JA
Cheng, WC
ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 2001, 221 : U507 - U507
[10] Effects of HL/HW Composite Zeolite on the Performance of Hydrocarbon Catalytic Cracking Catalyst
Huo Quan
Dou Tao
Li Dan
Wei Guoyou
Sun Shengnan
Pan Huifang
CHINESE JOURNAL OF CATALYSIS, 2009, 30 (09) : 907 - 912

← 1 2 3 4 →