화학공학소재연구정보센터
검색결과 : 5,063건
No. Article
81 Coalescence Characteristics of Side-by-Side Growing Bubbles in Carboxymethyl Cellulose Solutions
Fan WY, Du MQ, Sun YW, Chen H
Chemical Engineering & Technology, 43(2), 230, 2020
82 Porous Bed Saturation Changes in Elution Process with Surfactant Solutions in Advanced Oil Recovery
Blaszczyk MM, Sek JP, Przybysz L
Chemical Engineering & Technology, 43(12), 2477, 2020
83 Role of surfactant-induced chromia barriers on performance characteristics of Pd composite membranes
Pujari M, Agarwal A, Uppaluri R, Verma A
Chemical Engineering Communications, 207(2), 253, 2020
84 An insight into a di-chain surfactant adsorption onto sandstone minerals under different salinity-temperature conditions: Chemical EOR applications
Abbas AH, Moslemizadeh A, Sulaiman WRW, Jaafar MZ, Agi A
Chemical Engineering Research & Design, 153, 657, 2020
85 Cloud point extraction of La(III) by C13E10 non-ionic surfactant: Statistical refinement of experimental optimization by L-9 Taguchi's design
Sefrou Z, Belkhouche NE
Chemical Engineering Research & Design, 153, 819, 2020
86 Influence of surfactant on the penetration time of hydrophilic microparticles impacting into the gas-liquid interface at low impact velocities
Zhu SJ, Zhao CX, Lu HF, Chen XL
Chemical Engineering Research & Design, 160, 383, 2020
87 An experimental investigation on the use of saponin as a non-ionic surfactant for chemical enhanced oil recovery (EOR) in sandstone and carbonate oil reservoirs: IFT, wettability alteration, and oil recovery
Khayati H, Moslemizadeh A, Shahbazi K, Moraveji MK, Riazi SH
Chemical Engineering Research & Design, 160, 417, 2020
88 Effect of moderate DC electric field on formation of surfactant-laden drops
Kovalchuk N, Alberini F, Simmons MJH
Chemical Engineering Research & Design, 157, 133, 2020
89 Bubble size distribution and specific bubble interfacial area in two-phase microstructured dense bubbling bed
Prakash R, Majumder SK, Singh A
Chemical Engineering Research & Design, 156, 108, 2020
90 Reduction of clean fracturing fluid filtration loss by viscosity enhancement using nanoparticles: Is it feasible?
Dai CL, Li Y, Xie QC, Xu K, Hu Y, Zhou ZN, Wu YN
Chemical Engineering Research & Design, 156, 414, 2020