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Songkong crack4/10/2023 Acta Petrolei Sinica(Petroleum Processing Section), 2021, 37(1): 230-238. ZHANG Yuan, LI Wei, ZHANG Guannan, BAI Liwen, ZHANG Jingshun, ZHU Jun, LIU Zhanfang, SUN Yuyou.Īnalysis of Gasoline Collected in From Gas Station of in Jilin by Comprehensive Two-Dimensional Gas Chromatography Coupled With Quadrupole Mass Spectrometry Acta Petrolei Sinica(Petroleum Processing Section), 2021, 37(2): 320-329. Scheduling Model Based on Rolling-Horizon Algorithm for Crude Oil Transportation Acta Petrolei Sinica(Petroleum Processing Section), 2021, 37(3): 601-610. GONG Haifeng, LIAO Zhixiang, PENG Ye, QIU Zhi, YU Bao, ZHANG Xianming, LIU Yunqi.ĭynamic Simulation and Response of Emulsion Droplets Excited by Chaotic Frequency Electric Field Acta Petrolei Sinica(Petroleum Processing Section), 2021, 37(4): 831-839. Molecular Dynamics Simulations of the Molecular Behavior and Synergistic Effect of Anionic/Zwitterionic Surfactants at Oil-Water Interface WU Xu, XIA Yu, YUAN Lianhua, YUAN Run, HE Xuwen. Acta Petrolei Sinica(Petroleum Processing Section), 2021, 37(4): 798-806. PENG Wei, LIU Junping, ZHANG Junyi, YU Liyong, LIU Yansheng, LIU Jianxin.įlow Patterns of Gas-Solids in FCC Standpipe and Their Effects on Reaction Temperature Acta Petrolei Sinica(Petroleum Processing Section), 2021, 37(4): 815-823. WANG Jiangyun, WANG Zhuang, HOU Linqian, WANG Juan, XIE Kai.Ĭavitation Shedding Characteristics and Cavitation Damage Analysis in Sudden Change Channel LAI Jinbo, LONG Jun, REN Qiang, DAI Zhenyu.Įssence Research On the Molecular Interaction Between Furfural and Aromatics Solids Removal Performance of FCC Slurry Based on the Coupling of Electric Field and Flow Field LI Qiang, LI Anmeng, GUO Linfei, CAO Hao, XU Weiwei, WANG Zhenbo. Performance of the Cyclone Separator With Variable Inlet Area ZHAO Yang, CHEN Jianyi, CAO Mingqian, YE Song, KONG Lingshen. WANG Nannan, CHEN Jiaqing, LIU Fan, WANG Xiaodong, AN Shenfa, LUAN Zhiyong, ZHANG Baosheng, HUANG Songtao.ĭeformation Simulation and Kinetics Analysis of Water Droplet in W/O Emulsions Under Electric Field Simulation Optimization of Flash Evaporation and Energy Consumption During Regeneration of Semi-Lean Solution Process TANG Jianfeng, LIU Yunfei, ZHANG Yuanyuan, FAN Minglong, YANG Minghao, TIAN Rufeng. Molecule Simulation on the Effects of Surface Functional Groups of Activated Carbon on the Benzene Adsorption Performance LI Xiaofei, SONG Kunli, ZHAO Dongfeng, YU Lan, LI Shi. Reaction Fundamentals and Core Technology Development NIE Hong, WEI Xiaoli, HU Zhihai, LI Dadong. Process and Optimization of Process Parameters Simulation of the Crude Oil Direct Catalytic Cracking ZHOU Xin, YAN Hao, ZHAO Hui, LIU Yibin, CHEN Xiaobo, YANG Chaohe. Key words: catalytic cracking, absorptionstabilization system, simulation, energy consumption, optimization Consequently, the improved process presents a very good application prospect, and the adaptability of stabilizer sidecut naphtha as supplementary absorbent process needs to be further optimized. when light gasoline from stabilizer side line as supplementary absorbent process, the heat load decreases by 808%, the cooling load decreases by 062%, and the propylene production in the LPG increases by 58 kg/h, but the C4 loss increases by 299 kg/h. Results show that, compared with the conventional process, in the improved process that compressed gas rich directly intakes into desorption tower, the decrease of heat load by 1026%, the decrease of cooling load by 1677% and the increase of propylene yield in liquefied gas by 78 kg/h. Both advantages and disadvantages of different absorptionstabilization systems in catalytic cracking process are discussed based on the product yield and system energy consumption by process simulation technology, which provides reference and inspiration for the process improvement.
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