<progress id="v9r7l"><cite id="v9r7l"><ruby id="v9r7l"></ruby></cite></progress><cite id="v9r7l"><strike id="v9r7l"><progress id="v9r7l"></progress></strike></cite><var id="v9r7l"></var>
<cite id="v9r7l"></cite>
<var id="v9r7l"></var>
<cite id="v9r7l"><dl id="v9r7l"><progress id="v9r7l"></progress></dl></cite>
<menuitem id="v9r7l"><dl id="v9r7l"><listing id="v9r7l"></listing></dl></menuitem><var id="v9r7l"></var>
<cite id="v9r7l"><dl id="v9r7l"></dl></cite>
<cite id="v9r7l"><strike id="v9r7l"><listing id="v9r7l"></listing></strike></cite>
<var id="v9r7l"></var>
      我的主頁      中南大學      能源科學與工程學院      
登錄   |   English
胡迎超
個人簡介
教育經歷
1. 2013/09-2018/06,華中科技大學,煤燃燒國家重點實驗室,博士(碩博連讀)

2. 2013/09-2015/06,華中科技大學,煤燃燒國家重點實驗室,碩士

3. 2009/09-2013/06,華中科技大學,能源與動力工程學院,本科

工作經歷
1. 2018/06-至今,中南大學,能源科學與工程學院,副教授

科研方向
燃煤污染物的減排與控制、CO2捕集及CO2光催化、電化學轉化資源化利用

學術成果
代表論文:

[18] Hu Yingchao, Lu Hongyuan, Liu Wenqiang,Yang Yuandong, Li Hailong. Incorporation of CaO into inert supports for enhanced CO2 capture: A review. Chemical Engineering Journal 2020; 396:125253.

[17] Hu Yingchao, Guo Yafei, Sun Jian, Li Haiong, Liu Wenqiang. Progress in MgO sorbents for cyclic CO2 capture: a comprehensive review. Journal of Materials Chemistry A. 2019;7(35):20103-20120.

[16] Li Hailong, Qu Mingyu, Yang Yuandong, Hu Yingchao*, Liu Wenqiang. One-step synthesis of spherical CaO pellets via novel graphite-casting method for cyclic CO2 capture. Chemical Engineering Jjournal. 2019;374:619-625. (通訊作者)

[15] Hu Yingchao, Liu, Wenqiang,Yang Yuandong, Qu Mingyu, Li Hailong. CO2 capture by Li4SiO4 sorbents and their applications: Current developments and new trends. Chemical Engineering Journal 2019; 359:604–625.

[14] Li Hailong, Qu Mingyu, Hu Yingchao*. Preparation of spherical Li4SiO4 pellets by novel agar method for high-temperature CO2 capture. Chemical Engineering Journal. 2020;380:122538. (通訊作者)

[13] Hu Yingchao, Qu Mingyu, Li Hailong, Yang Yuandong, Yang Jianping, Qu Wenqi, Liu Wenqiang. Porous extruded-spheronized Li4SiO4 pellets for cyclic CO2 capture. Fuel 2019; 236:1043–1049.

[12] Li Hailong, Qu Mingyu, Hu Yingchao*. High-temperature CO2 capture by Li4SiO4 adsorbents: Effects of pyroligneous acid (PA) modification and existence of CO2 at desorption stage. Fuel Processing Technology. 2020;197:106186. (通訊作者)

[11] Hu Yingchao, Liu Wenqiang, Wang Wenyu, Sun Jian, Yang Xinwei, Chen Hongqiang, Xu Minghou. Investigation of novel naturally occurring manganocalcite for CO2 capture under oxy-fuel calcination. Chemical Engineering Journal 2016; 296:412-419.

[10] Hu Yingchao, Liu Wenqiang, Sun Jian, Li Mingkui, Yang Xinwei, Zhang Yang, Liu Xiaowei, Xu Minghou. Structurally improved CaO-based sorbent by organic acids for high temperature CO2 capture. Fuel 2016; 167:17-24.

[9] Hu Yingchao, Liu Wenqiang, Chen Hongqiang, Zhou Zijian, Wang Wenyu, Sun Jian, Yang Xinwei, Li Xian, Xu Minghou. Screening of inert solid supports for CaO-based sorbents for high temperature CO2 capture. Fuel 2016; 181:199-206.

[8] Hu Yingchao, Liu Xiaowei, Zhou Zijian, Liu Wenqiang, Xu Minghou. Pelletization of MgO-based sorbents for intermediate temperature CO2 capture. Fuel 2017; 187:328-337.

[7] Hu Yingchao, Liu Wenqiang, Peng Yang, Yang Yuandong, Sun Jian, Chen Hongqiang, Zhou Zijian, Xu Minghou. One-step synthesis of highly efficient CaO-based CO2 sorbent pellets via gel-casting technique. Fuel Processing Technology 2017; 160:70-77.

[6] Hu Yingchao, Liu Wenqiang, Sun Jian, Yang Xinwei, Zhou Zijian, Zhang Yang, Xu Minghou. High temperature CO2 capture on novel Yb2O3-supported CaO-based sorbents. Energy & Fuels 2016; 30:6606-6613.

[5] Hu Yingchao, Liu Wenqiang, Zhou Zijian, Yang Yuandong. Preparation of Li4SiO4 sorbents for carbon dioxide capture via a spray-drying technique. Energy & Fuels 2018; 32:4521-4527.

[4] Hu Yingchao, Liu Wenqiang, Yang Yuandong, Tong Xianliang, Chen Q Zhou Zijian. Synthesis of highly efficient, structurally improved Li4SiO4 sorbents for high-temperature CO2 capture. Ceramics International 44 (2018) 16668–16677.

[3] Hu Ying-chao, Liu Wen-qiang, Yang Yuan-dong, Sun Jian, Zhou Zi-jian, Xu Ming-hou. Enhanced CO2 capture performance of limestone by industrial waste sludge. Chemical Engineering & Technology 2017; 40:2322-2328.

[2] Zhang Yang, Liu Wenqiang*, Yang Xinwei, Sun Jian, Hu Yingchao*, Xu Minghou. Incorporation of CaO in inert solid matrix by spray drying sol mixture of precursors. RSC Advances 2016; 6:57658-57666. (通訊作者)

[1] Hu Yingchao, Liu Wenqiang, Sun Jian, Li Mingkui, Yang Xinwei, Zhang Yang, Xu Minghou. Incorporation of CaO into novel Nd2O3 inert solid support for high temperature CO2 capture. Chemical Engineering Journal 2015; 273:333-343.

授權專利:

[1] 胡迎超,劉文強,徐明厚,楊新偉,孫健,王文煜,陳洪強. 一種鈣基CO2吸附劑及其制備方法. 國家發明專利. 專利號:ZL 201510788245.X.

[2] 胡迎超,劉文強,徐明厚,孫健,楊新偉,王文煜,陳洪強, 一種球狀鈣基CO2吸附劑的制備方法, 國家發明專利. 專利號: ZL 201610368182.7.

[3] 胡迎超,劉文強,徐明厚,楊新偉,孫健,王文煜,陳洪強. 一種鐿摻雜的CO2吸附劑及其制備方法, 國家發明專利. 專利號: ZL 201510922931.1.

科研項目:

[5] 生物質模板重構多孔Li4SiO4成型顆粒循環捕集CO2特性及機理研究, 國家自然科學基金,主持,25萬,2020-2022。

[4] 中南大學特聘副教授科研啟動資金,主持,80萬,2018-2022

[3] 近零排放煤利用系統復合催化-吸附劑制備及性能研究,國家自然科學基金,參與。

[2] 新型Li4SiO4吸附劑低濃度CO2氣氛下脫碳機理研究,國家自然科學基金,參與。

[1] 燃煤電廠新型高效除塵技術及工程示范,國家重點研發計劃,參與。

學術獎勵
教育部博士研究生國家獎學金,華中科技大學知行獎學金、三好研究生、社會活動積極分子

彩票在线注册网址