近些年发表的主要研究论文: (1) Xu Dan; Yang Siyuan; Su Yinhai; Shi Lei; Zhang Shuping; Xiong Yuanquan*. Simultaneous production of aromatics-rich bio-oil and carbon nanomaterials from catalytic co-pyrolysis of biomass/plastic wastes and in-line catalytic upgrading of pyrolysis gas. Waste management, 2021, 121: 95-104. (一区,SCI, EI收录) (2) Xu Dan; Xiong Yuanquan*; Zhang Shuping; Su Yinghai. The synergistic mechanism between coke depositions and gas for H2 production from co-pyrolysis of biomass and plastic wastes via char supported catalyst. Waste management. 2021, 121: 23-32. (一区,SCI, EI收录) (3) Su Yinhai; Dan Xu; Liu Lingqin; Shi Lei; Zhang Shuping; Xiong Yuanquan*. Simultaneous Catalytic Conversion of Acid-Pretreated Biomass into High-Quality Syngas and Bio-oil at Mild Temperature. ENERGY & FUELS. 2020, 34(7): 8366-8375. (二区,SCI, EI收录) (4) Xu Dan; Xiong Yuanquan*; Ye Jiandong; Su Yinhai; Dong Qing; Zhang Shuping. Performances of syngas production and deposited coke regulation during co-gasification of biomass and plastic wastes over Ni/γ-Al2O3 catalyst: Role of biomass to plastic ratio in feedstock. Chemical Engineering Journal. 2020, 392: 123728.(一区,SCI, EI收录) (5) Su Yinhai; Liu Lingqin; Xu Dan; Du Haoran; Xie Yinhang; Xiong Yuanquan*. Syngas production at low temperature via the combination of hydrothermal pretreatment and activated carbon catalyst along with value-added utilization of tar and bio-char. Energy Conversion and Management. 2020, 205: 112382. (一区,SCI, EI收录) (6) Su Yinhai; Liu Lingqin; Zhang Shuping; Xu Dan; Du Haoran; Cheng Yu; Wang Zhongwen; Xiong Yuanquan*. A green route for pyrolysis poly-generation of typical high ash biomass, rice husk: Effects on simultaneous production of carbonic oxide-rich syngas, phenol-abundant bio-oil, high-adsorption porous carbon and amorphous silicon dioxide. Bioresource technology. 2020, 295: 122243. (一区,SCI, EI收录) (7) Xu Dan; Xiong Yuanquan*; Zhang Shuping. The influence of preparation method of char supported metallic Ni catalysts on the catalytic performance for reforming of biomass tar. Int J Energy Res. 2019, 43: 6922–6933. (二区,SCI, EI收录) (8) Xie Yinhang; Su Yinhai; Wang Peng; Zhang Shuping; Xiong Yuanquan*. In-situ catalytic conversion of tar from biomass gasification over carbon nanofibers- supported Fe-Ni bimetallic catalysts. Fuel Processing Technology. 2018, 182: 77–87. (二区,SCI, EI收录) (9) Su Yinhai; Zhang Shuping; Liu Lingqin; Xu Dan; Xiong Yuanquan*. Investigation of representative components of flue gas used as torrefaction pretreatment atmosphere and its effects on fast pyrolysis behaviors. Bioresource technology. 2018, 267: 584–590. (一区,SCI, EI收录) (10) Zhang Shuping; Zhu Shuguang; Zhang Houlei; Chen Tao; Xiong Yuanquan*. Catalytic fast pyrolysis of rice husk: Effect of coupling leaching with torrefaction pretreatment. JOURNAL OF ANALYTICAL AND APPLIED PYROLYSIS. 2018, 133: 91–96.(二区,SCI, EI收录) (11) Zhang Shuping; Chen Tao; Xiong Yuanquan*. Effect of Washing Pretreatment with Aqueous Fraction of Bio-Oil on Pyrolysis Characteristic of Rice Husk and Preparation of Amorphous Silica. Waste Biomass Valor. 2018, 9: 861–869.(二区,SCI, EI收录) (12) Yang Siyuan,Xiong yuanquan*.Heterogeneous Fenton oxidation of nitric oxide by magnetite: Kinetics and mechanism. MATERIALS LETTERS,2018,Vol: 218, P: 257-261(二区,SCI, EI收录) (13) Wu Bo,Xiong Yuanquan*,ect. A novel low-temperature NO removal approach with center dot OH from catalytic decomposition of H2O2 over La1-xCaxFeO3 oxides. JOURNAL OF CHEMICAL TECHNOLOGY AND BIOTECHNOLOGY,2018, Vol: 93 No: 1 P: 43-53(二区,SCI, EI收录) (14) Wu Bo, Xiong Yuanquan*,ect.Simultaneous removal of SO2 and NO from flue gas with % OH from the catalytic decomposition of gas-phase H2O2 over solid-phase Fe2(SO4)3. CHEMICAL ENGINEERING JOURNAL,2018,Vol: 331,p: 343-354. (一区,SCI, EI收录) (15) Zhang Shuping; Chen Tao; Xiong Yuanquan*. Effects of wet torrefaction on the physicochemical properties and pyrolysis product properties of rice husk. Energy Conversion and Management. 2017, 141: 403–409. (一区,SCI, EI收录) (16) Zhang Shuping; Chen Tao; Li Wan; Dong Qing; Xiong Yuanquan*. Physicochemical properties and combustion behavior of duckweed during wet torrefaction. Bioresource Technology. 2016, 218: 1157–1162. (一区,SCI, EI收录) (17) Zhang Shuping; Xiong Yuanquan*. Washing pretreatment with light bio-oil and its effect on pyrolysis products of bio-oil and biochar. RSC ADV. 2016, 6: 5270-5277. (二区,SCI, EI收录) (18) Zhang Shuping; Hu Bin; Zhang Li; Xiong Yuanquan*. Effects of torrefaction on yield and quality of pyrolysis char and its application on preparation of activated carbon. J ANAL APPL PYROL. 2016, 119: 217-223. (二区,SCI, EI收录) (19) Zhang Shuping; Dong Qing; Chen Tao; Xiong Yuanquan*. Combination of Light Bio-oil Washing and Torrefaction Pretreatment of Rice Husk: Its Effects on Physicochemical Characteristics and Fast Pyrolysis Behavior. ENERG FUEL. 2016, 30: 3030-3037. (二区,SCI, EI收录) (20) Zhang Shuping; Dong Qing; Zhang Li; Xiong Yuanquan*. Effects of water washing and torrefaction on the pyrolysis behavior and kinetics of rice husk through TGA and Py-GC/MS. BIORESOURCE TECHNOL. 2016, 199: 352-361. (一区,SCI, EI收录) (21)Zhang Shuping; Chen Tao; Li Wan; Dong Qing; Xiong Yuanquan*. Physicochemical properties and combustion behavior of duckweed during wet torrefaction. BIORESOURCE TECHNOL. 2016, 218: 1157-1162. (一区,SCI, EI收录) (22) Wu Bo, Xiong Yuanquan*, Ru Jingbo, Feng Hao. Enhancement of NO absorption in ammonium-based solution using heterogeneous Fenton reaction at low H2O2 consumption. KOREAN J CHEM ENG. 2016;33:3407-3416. (三区,SCI, EI收录) (23) Zhou Haijun, Xiong Yuanquan*, Pei Yu. Effect of moisture content on dense-phase pneumatic conveying of pulverized lignite under high pressure. POWDER TECHNOL. 2016;287:355-363. (二区,SCI, EI收录) (24) Wu Bo, Xiong Yuanquan*, Ru Jingbo, Feng Hao. Removal of NO from flue gas using heat-activated ammonium persulfate aqueous solution in a bubbling reactor. RSC ADV. 2016;6:33919-33930. (二区,SCI, EI收录) (25) Zhang Shuping; Dong Qing; Zhang Li; Xiong Yuanquan*, Liu Xinzhi; Zhu Shuguang. Effects of water washing and torrefaction pretreatments on rice husk pyrolysis by microwave heating. BIORESOURCE TECHNOL. 2015, 193: 442-448. (一区,SCI, EI收录) (26) Zhang Shuping; Dong Qing; Zhang Li; Xiong Yuanquan*. High quality syngas production from microwave pyrolysis of rice husk with char-supported metallic catalysts. BIORESOURCE TECHNOL. 2015, 191: 17-23. (一区,SCI, EI收录) (27) Dong Qing; Zhang Shuping; Zhang Li; Ding Kuan; Xiong Yuanquan*. Effects of four types of dilute acid washing on moso bamboo pyrolysis using Py-GC/MS. BIORESOURCE TECHNOL. 2015, 185: 62-69. (一区,SCI, EI收录) (28) Dong Qing, Xiong Yuanquan*. Kinetics study on conventional and microwave pyrolysis of moso bamboo. BIORESOURCE TECHNOL. 2014;171:127-131. (一区,SCI, EI收录)
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