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Zhao Chuanwen, Chen Xiaoping, E. J. Anthony, et al. CO2 capture from flue gas using dry regenerable alkali metal-based sorbent. Progress in Energy and Combustion Science, 2013, 39 (6): 515-534. (TOP, 影响因子25.2)
Wang Peng, Guo Yafei, Zhao Chuanwen*, Yan Junjie, Lu Ping. Biomass derived wood ash with amine modification for post-combustion CO2 capture. Applied Energy, 2017, 201: 34-44. (TOP, 影响因子7.9)
Guo Yafei, Zhao Chuanwen*, Chen Xiaoping, Li Changhai. CO2 capture and sorbent regeneration performances of some wood ash materials. Applied Energy. 2015, 137: 26-36. (TOP, 影响因子7.9)
Guo Yafei, Zhao Chuanwen*, Li Changhai, Lu Shouxiang. Application of PEI–K2CO3/AC for capturing CO2 from flue gas after combustion. Applied Energy. 2014, 129: 17-24. (TOP, 影响因子7.9)
Zhao Chuanwen, Guo Yafei, Li Changhai, Lu Shouxiang. Removal of low concentration CO2 at ambient temperature using several potassium-based sorbents. Applied Energy. 2014, 124: 241-247. (TOP, 影响因子7.9)
Zhao Chuanwen*, Guo Yafei, Li Weiling, Bu Changsheng, Wang Xinye, Lu Ping. Experimental and modeling investigation on CO2 sorption kinetics over K2CO3-modified silica aerogels. Chemical Engineering Journal, 2017, 312: 50-58. (TOP,影响因子:6.7)
Guo Yafei, Li Changhai, Lu Shouxiang*, Zhao Chuanwen*. Efficacious means for inhibiting the deactivation of K2CO3/AC for low-concentration CO2 removal in the presence of SO2 and NO2. Chemical Engineering Journal, 2017, 308: 516-526. (TOP,影响因子:6.7)
Guo Yafei, Li Changhai, Lu Shouxiang*, Zhao Chuanwen*. Understanding the deactivation of K2CO3/AC for low-concentration CO2 removal in the presence of trace SO2 and NO2. Chemical Engineering Journal, 2016,301:325~333. (TOP,影响因子:6.7)
Guo Yafei, Zhao Chuanwen*, Li Changhai, Wu Ye. CO2 sorption and reaction kinetic performance of K2CO3/AC in low temperature and CO2 concentration. Chemical Engineering Journal. 2015, 260: 596-604. (TOP,影响因子:6.7)
Zhao Chuanwen, Guo Yafei, Li Changhai, Lu Shouxiang. Carbonation behavior of K2CO3/AC in low reaction temperature and CO2 concentration. Chemical Engineering Journal. 2014, 254: 524-530. (TOP,影响因子:6.7)
Guo Yafei, Zhao Chuanwen*, Sun Jian, Li Weiling, Lu Ping. Facile synthesis of silica aerogel supported K2CO3 sorbents with enhanced CO2 capture capacity for ultra-dilute flue gas treatment. Fuel, 2018, 215: 735-743. (TOP, 影响因子4.9)
Guo Yafei, Tan Chang, Sun Jian, Li Weiling, Zhao Chuanwen*, Zhang Jubing, Lu Ping. Nanostructured MgO Sorbents Derived from Organometallic Magnesium Precursors for Post-combustion CO2 Capture. Energy & Fuels, 2018, 32: 6910-6917. (TOP, 影响因子3.0)
Guo Yafei, Li Changhai, Lu Shouxiang*, Zhao Chuanwen*. K2CO3-modified potassium feldspar for CO2 capture from post-combustion flue gas. Energy & Fuels, 2015, 29: 8151-8156. (TOP, 影响因子3.0)
Zhao Chuanwen, Chen Xiaoping, Zhao Changsui. K2CO3/Al2O3 for capturing CO2 in flue gas from power plant Part 1: Carbonation behaviors of K2CO3/Al2O3. Energy & Fuels, 2012, 26 (2): 1401–1405. (TOP, 影响因子3.0)
Zhao Chuanwen, Chen Xiaoping, Zhao Changsui. K2CO3/Al2O3 for capturing CO2 in flue gas from power plant Part 2: Regeneration behaviors of K2CO3/Al2O3. Energy & Fuels, 2012, 26 (2), 1406–1411. (TOP, 影响因子3.0)
Zhao Chuanwen, Chen Xiaoping, Zhao Changsui. K2CO3/Al2O3 for capturing CO2 in flue gas from power plant Part 3: CO2 capture behaviors of K2CO3/Al2O3 in a bubbling fluidized bed reactor. Energy & Fuels, 2012, 26 (5): 3062–3068. (TOP, 影响因子3.0)
Zhao Chuanwen, Chen Xiaoping, Zhao Changsui. K2CO3/Al2O3 for capturing CO2 in flue gas from power plant Part 4: The abrasion characteristics of K2CO3/Al2O3 sorbent. Energy & Fuels, 2012, 26 (2), 1395–1400. (TOP, 影响因子3.0)
Wu Ye, Chen Xiaoping, Dong Wei, Zhao Chuanwen, et al. K2CO3/Al2O3 for Capturing CO2 in Flue Gas from Power Plants. Part 5: Carbonation and Failure Behavior of K2CO3/Al2O3 in the Continuous CO2 Sorption–Desorption System. Energy & Fuels, 2013, 27 (8), 4804–4809. (TOP, 影响因子3.0)
Zhao Chuanwen, Chen Xiaoping, Zhao Changsui. Multiple cycles behaviour of K2CO3/Al2O3 for CO2 capture in a fluidized-bed reactor. Energy & Fuels, 2010, 24 (2): 1009-1012. (TOP, 影响因子3.0)
Zhao Chuanwen, Chen Xiaoping, Zhao Changsui. CO2 absorption using dry potassium-based sorbents with different supports. Energy & Fuels, 2009, 23 (9): 4683-4687. (TOP, 影响因子3.0)
Zhao Chuanwen, Chen Xiaoping, Zhao Changsui, Liu Yakun. Carbonation and hydration characteristics of dry potassium-based sorbents for CO2 capture. Energy & Fuels, 2009, 23 (3): 1766-1769. (TOP, 影响因子3.0)
Zhao Chuanwen, Chen Xiaoping, Zhao Changsui. Effect of crystal structure on CO2 capture characteristics of dry potassium-based sorbents. Chemosphere, 2009, 75 (10): 1401-1404. (TOP, 影响因子:4.4)
Zhao Chuanwen, Chen Xiaoping, Zhao Changsui. Carbonation behavior and the reaction kinetic of a new dry potassium-based sorbent for CO2 capture. Industrial & Engineering Chemistry Research, 2012, 51 (44): 14361–14366. (TOP, 影响因子:3.1)
Zhao Chuanwen, Chen Xiaoping, Zhao Changsui. Carbonation and active component distribution behaviors of several potassium-based sorbents. Industrial & Engineering Chemistry Research, 2011, 50 (8): 4464–4470. (TOP, 影响因子:3.1)
Zhao Chuanwen, Chen Xiaoping, Zhao Changsui. Carbonation behavior of K2CO3 with different microstructure used as an active component of dry sorbents for CO2 capture. Industrial & Engineering Chemistry Research, 2010, 49 (23): 12212–12216. (TOP, 影响因子:3.1)
Guo Yafei, Zhao Chuanwen*, Lin Jin, Li Changhai, Lu Shouxiang*. Facile synthesis of supported copper manganese oxides catalysts for low temperature CO oxidation in confined spaces. Catalysis Communications, 2017, 99: 1-5. (影响因子3.46)
Guo Yafei, Lin Jin, Li Changhai, Lu Shouxiang*, Zhao Chuanwen*. Copper manganese oxides supported on multi-walled carbon nanotubes as an efficient catalyst for low temperature CO oxidation. Catalysis Letters, 2016, 146:2364-2375. (影响因子:2.91)
Guo Yafei, Li Changhai, Lu Shouxiang*, Zhao Chuanwen*. Low temperature CO catalytic oxidation and kinetic performances of KOH-Hopcalite in the presence of CO2. RSC Advances, 2016, 6: 7181-7188. (影响因子2.94)
Guo Yafei, Zhao Chuanwen*, Li Changhai. CO2 adsorption kinetic characteristic of K2CO3/AC for low-concentration CO2 removal from confined spaces. Chemical Engineering & Technology, 2015, 38 (5): 891–899. (影响因子:1.59)
Guo Yafei, Zhao Chuanwen*, Li Changhai. Thermogravimetric analysis of kinetic characteristics of K2CO3-impregnated mesoporous silicas in low concentration CO2, Journal of Thermal Analysis and Calorimetry, 2015, 121: 1393-1402. (影响因子:2.21)
Guo Yafei, Zhao Chuanwen*, Li Changhai. Thermogravimetric analysis of carbonation behaviors of several potassium-based sorbents in low concentration CO2. Journal of thermal analysis and calorimetry. 2015, 119: 441-451. (影响因子:2.21)
Zhao Chuanwen, Chen Xiaoping, Zhao Changsui. Study on CO2 Capture Using dry potassium-based sorbents through orthogonal test method. International Journal of Greenhouse Gas Control, 2010, 4 (4): 655-658. (影响因子:4.08)
Sun Jian, Yang Yuandong, Guo Yafei, Xu Yongqing, Li Weiling, Zhao Chuanwen, Liu Wenqiang, Lu Ping. Stabilized CO2 capture performance of wet mechanically activated dolomite. Fuel, 2018, 222: 334-342. (TOP, 影响因子4.9)
Li Weiling*, Zhao Chuanwen, Lu Ping. Hydrodynamic study of a gas–liquid–solid bubble column employing CFD–BPBM method. International Journal of Chemical Reactor Engineering, 2017, 15(4). (影响因子0.62)
Guo Yafei, Lu Shouxiang*, Lin Jin, Zhao Chuanwen, Li Changhai. Reaction characteristics of KOH-modified copper manganese oxides catalysts for low-temperature CO oxidation in the presence of CO2. Reaction Kinetics Mechanisms and Catalysis, 2017, 120:149-165. (影响因子:1.26)
Dong Wei, Chen Xiaoping, Wu Ye, Zhao Chuanwen, Liang Cai, Liu Daoyin. Carbonation characteristics of dry sodium-based sorbents for CO2 capture. Energy & Fuels, 2012; 26(9): 6040-6046. (TOP, 影响因子3.0)
Wu Ye, Chen Xiaoping, Zhao Chuanwen. Study on the failure mechanism of potassium-based sorbent for CO2 capture and the improving measure. International Journal of Greenhouse Gas Control, 2011; 5(5): 1184-1189. (影响因子:4.08)