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中国科学院广州能源研究所机构知识库
Knowledge Management System Of Guangzhou Institute of Energy Conversion, CAS
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Municipal solid wastes pyro-gasification using high-temperature flue gas as heating resource and gasifying agent
期刊论文
WASTE MANAGEMENT, 2022, 卷号: 149, 页码: 114-123
Authors:
Ge, Shaoheng
;
Chen, Dezhen
;
Yin, Lijie
;
Hong, Liu
;
Zhou, Hongquan
;
Huang, Zhen
Favorite
  |  
View/Download:251/0
  |  
Submit date:2023/11/21
MSW pyrolysis
Pyro-gasification
High-temperature flue gas
Heating source
CGE
Pyrolysis of hydrothermally pretreated biowastes: The controllability on the formation of NOx precursors
期刊论文
CHEMICAL ENGINEERING JOURNAL, 2020, 卷号: 393, 页码: 14
Authors:
Zhuang, Xiuzheng
;
Song, Yanpei
;
Wang, Xinming
;
Zhan, Hao
;
Yin, Xiuli
;
Wu, Chuangzhi
;
Wang, Peng
Favorite
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View/Download:308/0
  |  
Submit date:2020/10/30
Coupled approach
Industrial biowaste
Regulatory mechanism
NOx precursor
Hydrothermal pretreatment
High-temperature pyrolysis
Aminoalkyldisiloxane as effective electrolyte additive for improving high temperature cycle life of nickel-rich LiNi0.6Co0.2Mn0.2O2/graphite batteries
期刊论文
JOURNAL OF POWER SOURCES, 2020, 卷号: 461, 页码: 10
Authors:
Yan, Xiaodan
;
Chen, Cheng
;
Zhu, Xuequan
;
Pan, Lining
;
Zhao, Xinyue
;
Zhang, Lingzhi
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View/Download:296/0
  |  
Submit date:2020/10/29
Aminoalkyldisiloxane
Electrolyte additive
Transition metal dissolution
High temperature
LiNi0.6Co0.2Mn0.2O2/graphite pouch cell
Stretch extinction characteristics of CH4/CO2 versus O-2/H2O/CO2 and O-2/H2O counterflow non-premixed flames at different oxidizer temperatures
期刊论文
FUEL, 2016, 卷号: 186, 页码: 648-655
Authors:
Li, Xing
;
Yang, Haolin
;
Jiang, Liqiao
;
Wang, Xiaohan
;
Zhao, Daiqing
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View/Download:224/0
  |  
Submit date:2017/02/20
Counterflow Non-premixed Flame
High Temperature Oxidizer
Co2 And H2o Concentrations
Stretch Extinction Limit
Flame Temperature
Synthesis and electrochemical performance of cubic Co-doped Li4Ti5O12 anode material for high-performance lithium-ion batteries
期刊论文
JOURNAL OF ELECTROANALYTICAL CHEMISTRY, 2016, 卷号: 776, 页码: 188-192
Authors:
Zhang, Congcong
;
Shao, Dan
;
Yu, Jingfang
;
Zhang, Linzhi
;
Huang, Xueyan
;
Xu, Donghui
;
Yu, Xiaoyuan
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  |  
View/Download:172/0
  |  
Submit date:2016/12/05
Li-ion Battery
High Temperature Solid Ball-milling Method
Co-doping
Li4ti5o12
Synthesis and Low-Temperature Detemplation of High-Silica MFI Zeolite Membranes
期刊论文
ACTA PHYSICO-CHIMICA SINICA, 2016, 卷号: 32, 期号: 2, 页码: 519-526
Authors:
Zhao Shu-Heng
;
Lang Lin
;
Jiang Jun-Fei
;
Yin Xiu-Li
;
Wu Chuang-Zhi
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View/Download:158/0
  |  
Submit date:2016/12/05
High-silica Mfi Zeolite Membrane
Template Removal
Low-temperature Hydrocracking
Gas Permeation
Support
TPAOH Template Removal from High-Silica ZSM-5 by Low-Temperature Hydrocracking
期刊论文
ACTA PHYSICO-CHIMICA SINICA, 2015, 卷号: 31, 期号: 4, 页码: 793-799
Authors:
Zhao Shu-Heng
;
Lang Lin
;
Yin Xiu-Li
;
Yang Wen-Shen
;
Wu Chuang-Zhi
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  |  
View/Download:395/0
  |  
Submit date:2015/09/25
Zsm-5 Zeolite
Template Removal
Low-temperature Hydrocracking
High Si/al Ratio
Tetrapropylammonium Hydroxide
Ethanol Production from High Solids Loading of Alkali-Pretreated Sugarcane Bagasse with an SSF Process
期刊论文
BIORESOURCES, 2014, 卷号: 9, 期号: 2, 页码: 3466-3479
Authors:
Gao, Yueshu
;
Xu, Jingliang
;
Yuan, Zhenhong
;
Zhang, Yu
;
Liang, Cuiyi
;
Liu, Yunyun
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View/Download:235/0
  |  
Submit date:2016/10/28
Sugarcane Bagasse
Fed-batch
High Temperature Simultaneous Saccharification And Fermentation
Separate Hydrolysis And Fermentation
Ethanol
Replacement of methane from quartz sand-bearing hydrate with carbon dioxide-in-water emulsion
期刊论文
ENERGY & FUELS, 2008, 卷号: 22, 期号: 3, 页码: 1759-1764
Authors:
Zhou, Xitang
;
Fan, Shuanshi
;
Liang, Deqing
;
Du, Jianwei
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View/Download:996/262
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Submit date:2010/09/23
The Replacement Of Ch4 From Its Hydrate In Quartz Sand With 90:10
70:30
And 50:50 (W-Co2:W-h2o) Carbon Dioxide-In-water (C/w) Emulsions And Liquid Co2 Has Been PerFormed In a Cell With Size Of Empty Set 36 x 200 Mm. The Above Emulsions Were Formed In a New Emulsifier
In Which The Temperature And Pressure Were 285.2 k And 30 Mpa
Respectively
And TH. Emulsions Were Stable For 7-12 H. TH. Results Of Replacing sH.wed tH.t 13.1-27.1%
14.1-25.5%
And 14.6-24.3% Of Ch4 Had Been Displaced From Its Hydrate WIth The Above Emulsions After 24-96 It Of Replacement
Corresponding To About 1.5 Times The Ch4 Replaced With High-pressure Liquid Co2. The Results Also Showed That The Replacement Rate Of Ch4 With The Above Emulsions And Liquid Co2.Decreased From 0.543
0.587
0.608
And 0.348 1/h To 0.083
0.077
0.069
And 0.063 1/H.WItH.TH. Replacement Time Increased From 24 To 96 H. It H.s Been Indicated By tH.s Study tH.t TH. Use Of Co2 Emulsions Is Advantageous Compared To TH. Use Of Liquid Co2 In replacIng cH. From Its H.drate.