화학공학소재연구정보센터
검색결과 : 69건
No. Article
1 Liquid CO2 high-pressure fracturing of coal seams and gas extraction engineering tests using crossing holes: A case study of Panji Coal Mine No. 3, Huainan, China
Cheng XJ, Wen H, Fan SX, Chen J, Zhai XW, Yu ZJ, Tong XZ, Lei CX, Xu YH, Cheng BK, Li RK
International Journal of Energy Research, 45(3), 4565, 2021
2 Enhanced coalbed permeability and methane recovery via hydraulic slotting combined with liquid CO2 injection
Wei GM, Wen H, Deng J, Li ZB, Fan SX, Lei CK, Liu MY, Ren LF
Process Safety and Environmental Protection, 147, 234, 2021
3 Variations in surface fractal characteristics of coal subjected to liquid CO2 phase change fracturing
Liu XF, Wang ZP, Song DZ, He XQ, Yang T
International Journal of Energy Research, 44(11), 8740, 2020
4 Nanocomposite membranes consisting of poly(ethylene oxide)/ionic liquid/ZnO for CO2 separation
Rhyu SY, Cho YH, Kang SW
Journal of Industrial and Engineering Chemistry, 85, 75, 2020
5 Effect of coal maturity on CO2-based hydraulic fracturing process in coal seam gas reservoirs
Sampath KHSM, Perera MSA, Elsworth D, Ranjith PG, Matthai SK, Rathnaweera T, Zhang G
Fuel, 236, 179, 2019
6 Petrological and ultrasonic velocity changes of coals caused by thermal cycling of liquid carbon dioxide in coalbed methane recovery
Xu JZ, Zhai C, Ranjith PG, Sun Y, Qin L
Fuel, 249, 15, 2019
7 Propane/propylene separation and CO2 capture in magnetic ionic liquid [bmim][FeCl4]
He MG, Liu SQ, Bai LH, Liu XY
Chemical Engineering Research & Design, 137, 186, 2018
8 The effect of liquid CO2 treatment on surface properties of ultrafine coal
Zhang WJ, Dai XY, Li WM, Luo SF
Energy Sources Part A-recovery Utilization and Environmental Effects, 40(8), 916, 2018
9 Pebax/ionic liquid modified graphene oxide mixed matrix membranes for enhanced CO2 capture
Huang GJ, Isfahani AP, Muchtar A, Sakurai K, Shrestha BB, Qin DT, Yamaguch D, Sivaniah E, Ghalei B
Journal of Membrane Science, 565, 370, 2018
10 Experiment on micron-sized particle production of iron ore by rapid unloading of liquid CO2
Fan YB, Duan WJ, Li SH, Qiao JY
Powder Technology, 327, 449, 2018