1989.02-1991.12 中南大學，礦物加工系，工學博士  

1983.09-1986.07  内蒙古大學，化學系，無機化學專業，理學碩士

 

2020.05-至今         綠色化工過程強化省部共建國家重點實驗室（籌）主任  

2019.11-至今         國家磷資源開發利用工程技術研究中心主任、磷資源開發利用教育部工程研究中心主任  

2019.07-至今         綠色化工過程教育部重點實驗室主任  

2018.01-至今         77779193永利官网77779193永利官网/興發礦業學院院長  

2007.03-2017.12    77779193永利官网校長助理、綠色化工過程重點實驗室副主任  

2007.07-2014.08   77779193永利官网校長助理、77779193永利官网科技處處長  

2003.10-2007.07   77779193永利官网湖北省“楚天學者計劃”特聘教授、化工與制藥學院副院長、湖北省新型反應器與綠色化學工藝重點實驗室主任    

2002.11-2003.09     加拿大阿伯爾塔大學，化學工程與材料系，研究員

1999.12-2002.10     加拿大CVT制藥公司，高級科學家

1998.02-2000.07     加拿大阿爾伯塔大學，化工工程與材料系，副研究員

1997.12-1999.11     加拿大阿爾伯塔大學，化工工程與材料系，訪問學者，

1993.11-1997.11     清華大學核能技術研究院 203室  副研究員  

1992.01-1993.10     清華大學，核能與新能源技術研究院，博士後

 

 

 

稀土礦物加工、稀土濕法冶金、稀土元素地球化學、分離工程

l承擔的科技項目：

（1）科技部項目

1）國家重點研發計劃“場地土壤污染成因與治理技術”重點專項，2018YFC1801800，浸礦場地殘留浸礦劑高效淋洗材料、技術與裝備，主持；

2）國家科技支撐計劃，2012BAB07B03，高鈣鎂低品位石煤釩礦選礦預處理-濕法提取新技術及工程示範研究，主持；

3）國家基礎研究發展計劃(973計劃)前期專項， 2011CB411900，資源多樣性與生态環境安全重大問題，主持.

（2）教育部重點項目

教育部長江學者和創新團隊發展計劃， IRT0974，礦物處理過程強化，主持.  

（3）國家自然科學基金

1）國家自然科學基金重大研究計劃重點項目，91962211，風化殼淋積型中重稀土礦稀土元素賦存狀态與強化分離機理，主要參加人；

2）國家自然科學基金雲南聯合基金，U1802252，滇南地區風化殼淋積型稀土礦原地浸出回收稀土機理研究，主持；

3）國家自然科學基金重點項目，51734001，風化殼淋積型稀土礦原地浸出傳質過程強化，主持；

4）國家自然科學基金面上項目，41472071，稀土在風化體系中的遷移分餾及富集成礦規律，主持；  

5）國家自然科學基金面上項目，51274152，風化殼淋積型稀土礦堆浸提取稀土過程動力學，主持；

6）國家自然科學基金面上項目，50974098，風化殼淋積型稀土礦原地浸出的浸取劑滲透與稀土遷移規律，主持；  

7）國家自然科學基金重點項目，50834006，鈣鎂礦物浮選基礎理論研究，主要參加人；  

8）國家自然科學基金面上項目，50574069，高獨居石混合稀土礦的浮選動力學，主持；  

9）國家自然科學基金面上項目，50474022，稀土在粘土礦物上吸附動力學及遷移的分餾效應，主持；  

10）國家傑出青年科學基金，59725408，風化殼淋積型稀土礦工藝礦物學和稀土配分及稀土浸出動力學，主持；

11）國家自然科學基金面上項目，59674021，黑色風化礦泥浸出稀土動力學，主持。  

 

l  代表性論文和專著：

（1）代表性論文

[1] ZhuoChen, Zhenyue Zhang, Defeng Liu, Xiaowang Chi, Wendou Chen, Ruan Chi.Swelling of clay minerals on the leaching process of weathered crustelution-deposited rare earth ores by magnesium salts. Powder Technology,2020, 367:889-900.

[2] DefengLiu, Zhengyue Zhang, Ruan Chi. Seepage mechanism during in-situleaching process of weathered crust elution-deposited rare earth ores withmagnesium salt. Physicochemical Problem of Mineral Processing, 2020,56(2): 349-361.  

[3] HualiangZou, Zhenyue Zhang, Zhuo Chen, Defeng Liu, Xiuwei Chai, Han Zhang,RuanChi. Seepage process on Weathered crust elution-deposited rare earthores with ammonium carboxylate solution. Physicochemical Problem of MineralProcessing, 2020, 56(1): 90-102.

[4] XiaoyanWu, Fang Zhou, Jian Feng, Xuemei Liu, Zhenyue Zhang, Ruan Chi.Direct reuse of rare earth oxalate precipitation mother liquor for rare earthleaching. Physicochemical Problem of Mineral Processing, 2019, 55(3):760-769.

[5] FangZhou, Jian Feng, Xiong Xie, Baihong Wu, Qi Liu, Xiaoyan Wu, Ruan Chi.Adsorption of lanthanum (Ⅲ) and yttrium (Ⅲ) on Kaolinite: Kinetics andadsorption isotherms. Physicochemical Problems of Mineral Processing,2019, 55(4): 928-939.

[6] JunxiaYu, Jing Zhu, Liyuan Feng, Xiaoli Cai, Yuefei Zhang,Ruan Chi,Removal of cationic dyes by modified waste biosorbent under continuous model:Competitive adsorption and kinetics. Arabian Journal of Chemistry, 2019, 12:2044-2051.

[7] XuLiu, Fang Zhou, Ruan Chi, Jian Feng, Yingying Ding, Qi Liu.Preparation of modified montmorillonite and its application to rare earth adsorption.Minerals，2019, 9, 747.

[8] FangZhou, Qi Liu, Jian Feng, Jiangxing Su, Xu Liu, Ruan Chi. Role ofinitial moisture content on the leaching process of weathered crustelution-deposited rare earth ores. Separation and Purification Technology,2019: 217:24-30.

[9] ZhenyueZhang, Ningjie Sun, Zhengyan He, Ruan Chi. Local concentration ofmiddle and heavy rare earth elements on weathered crust elution-deposited rareearth ores. Journal of Rare Earths, 2018, 36(5): 552-558.

[10] JianFeng, Fang Zhou, Ruan Chi, Xu Liu, Yuanlai Xu, Qi Liu. Effect ofa novel compound on leaching process of weathered crust elution-deposited rareearth ore. Minerals Engineering, 2018, 129, 63-70.

[11] ZhenyueZhang, Zhengyan He, Fang Zhou, Chengbin Zhong, Ningjie Sun, Ruan Chi.Swelling of clay minerals in ammonium leaching of weathered crustelution-deposited rare earth ores. Rare Metals, 2018, 37(1), 72-78

[12] FenWang, Junxia Yu, Zhenyue Zhang, Yuanlai Xu, Ruan Chi. Anamino-functionalized ramie stalk-based adsorbent for highly effective Cu²⁺removal from water: Adsorption performance and mechanism. Process Safety andEnvironment Protection, 2018, 117: 511-522.

[13] FenWang, Junxia Yu, Wanli Xiong, Yuanlai Xu, Ruan Chi. A two-stepleaching method designed based on chemical fraction distribution of the heavymetals for selective leaching of Cd, Zn, Cu, and Pb from metallurgical sludge. EnvironmentalScience Pollution Research International, 2018,25(2): 1752.

[14] ZhuoChen, Zhenyue Zhang, Zhengyan He, Ruan Chi, Mass transfer processof leaching weathered crust elution-deposited rare earth ores with magnesiumsalts. Physicochemical Problem of Mineral Processing, 2018, 54(3):1004-1013.

[15] ChengbinZhong, Caili Xu, Renliang Lyu, Zhenyue Zhang, Xiaoyan Wu, Chi Ruan.Enhancing mineral liberation of a Canadian rare earth ore with microwavepretreatment. Journal of rare earths, 2018, 36(2): 215-224.

[16] YuefeiZhang, Haibing Wang, Ningjie Sun, Ruan Chi. Experimental andcomputational study on mechanism of dichromate adsorption by ionicliquid-bonded silica gel. Separation Purification Technology, 2018, 205:84-93.

[17] JiadongChen, Junxia Yu, Fen Wang, Jiaqi Tang, Yuefei Zhang, Yuanlai Xu, Ruan Chi.Selective adsorption and recycle of Cu²⁺from aqueous solution bymodified sugarcane bagasse under dynamic condition. Environmental SciencePollution Research, 2017, 24(10): 9202-9209.

[18] FangZhou, Louxiang Wang, Zhenghe Xu, Yaoyang Ruan, Ruan Chi. A studyon novel reactive oily bubble technology enhanced collophane flotation. InternationalJournal of Mineral Processing, 2017, 169: 85-90.

[19] ChunqiaoXiao, Xiaoyan Wu, Tingting Liu, Guang Xu, Ruan Chi. MicrobialCommunity Structure of Activated Sludge for Biosolubilization of Two DifferentRock Phosphates. Applied biochemistry and biotechnology, 2017, 182(2):742-754.

[20] JunxiaYu, Wanli Xiong, Jing Zhu, Liyuan Feng, Ruan Chi, Removal ofcongo red from aqueous solution by adsorption onto different amine compoundsmodified sugarcane bagasse.Clean Technologies and Environmental Policy,2017,19: 517-525.

[21] ChunqiaoXiao, Xiaoyan Wu, Tingting Liu, Guang Xu, Ru-an Chi,Optimizations of particle size and pulp density for solubilization of rockphosphate by a microbial consortium from activated sludge.PreparativeBiochemistry and Biotechnology, 2017, 47 (6): 562-569.

[22] ZhenyueZhang, Zhengyan He, Junxia Yu, Zhigao Xu, Ruan Chi, Novelsolution injection technology for in-situ leaching of weathered crustelution-deposited rare earth ores.Hydrometallurgy, 2016, 164: 248-256.

[23] JunxiaYu, Wanli Xiong, Jing Zhu, Ruan Chi, Separation of Cu²⁺and Pb²⁺ by tetraethylenepentamine-modified sugarcane bagassefixed-bed column: selective adsorption and kinetics.International Journal ofEnvironmental Science and Technology, 2016, 13: 1933-1940.

[24] ZhengyanHe, Zhenyue Zhang, Junxia Yu, Fang Zhou, Yuanlai Xu, Zhigao Xu, Zhe Chen, RuanChi. Kinetics of column leaching of rare earth and aluminum fromweathered crust elution-deposited rare earth ore with compound ammonium salt. Hydrometallurgy,2016, 163: 33-39.

[25] ZhengyanHe, Zhenyue Zhang, Junxia Yu, Zhigao Xu, Ruan Chi. Processoptimization of rare earth and aluminum leaching from weathered crustelution-deposited rare earth ore with compound ammonium salts. Journal ofrare earth, 2016, 34(4):413-419.

[26] ChunqiaoXiao, Tingting Liu, Guang Xu, Ruan Chi. Characteristics andMechanisms of Biosolubilization of Rock Phosphate by Aspergillus japonicas,Biological and Applied Sciences, 2016, 59:1-11.

[27] ZhigaoXu, Lijun Wang, Ming Wu, Yuanlai Xu, Ruan Chi, Panhong Li, JunZhao, Separation of zirconiumand hafniumby solvent extraction usingmixture ofDIBK and P204, Hydrometallurgy, 2016, 165: 275-281.

[28] ChunqiaoXiao, Yujuan Fang, Ruan Chi, Phosphate solubilization in vitro byisolated Aspergillus niger and Aspergillus carbonarius, Researchon Chemical Intermediates, 2015, 41（5）:2867-2878.

[29] JunxiaYu, Wanli Xiong, Quan Sun, Jing Zhu, Ruan Chi, Yuefei Zhang,Separation of Pb²⁺ from Mg²⁺ by modified sugarcanebagasse under batch and column conditions: Effect of initial concentrationratio. Arabian Journal of Chemistry, 2019, 12: 4438-4445.

[30] YuefeiZhang, Zhe Liu, Yali Li, Ruan Chi. Optimization of ultrasound-assistedacid hydrolysis of total isoavones in radix puerariae using response surface methodology.Journal of Chemical Engineering of Japan, 2015, 48, (1): 1-9.

[31] YuefeiZhang, Yali Li, Zhe Liu, Ling Zhong, Ruan Chi, Junxia Yu. Dynamicmicrowave-assisted extraction of total ginsenosides from ginseng fibrous roots.Wuhan University Journal of Natural Sciences.2015, 44: 1-8.

[32] ChunqiaoXiao, Xiaoyan Wu, Ruan Chi. Dephosphorization of high-phosphorusiron ore using different sources of Aspergillus niger strains. AppliedBiochemistry and Biotechnology. 2015, 176: 518-528.

[33] JunxiaYu, Jing Zhu, Liyuan Feng, Ruan Chi, Simultaneous removal ofcationic and anionic dyes by the mixed sorbent of magnetic and non-magneticmodified sugarcane bagasse, Journal of Colloid and Interface Science,2015, 451: 153-160.

[34] JunxiaYu, Xiaoli Cai, Liyuan Feng, Wanli Xiong, Jing Zhu, Yuanlai Xu, Yueei Zhang, RuanChi, Synergistic and competitive adsorption of cationic and anionicdyes on polymer modified yeast prepared at room temperature.Journal of theTaiwan Institute of Chemical Engineers, 2015, 57, 98-103.

[35] JunxiaYu, Liyan Wang, Ruan Chi, Yuefei Zhang, Zhigao Xu, Jia Guo,Adsorption of Pb2+, Cd²⁺, Cu²⁺, and Zn²⁺ fromaqueous solution by modified sugarcane bagasse.Research on ChemicalIntermediates, 2015,41(3):1525-1541.

[36] JunxiaYu, Liyuan Feng, Xiaoli Cai, Liyan Wang, Ruan Chi, Adsorption ofCu²⁺, Cd²⁺ and Zn²⁺ in a modified leaffixed-bed column: competition and kinetics, Environmental Earth Sciences,2015, 73(4):1789-1798.

[37] FangZhou, Louxiang Wang, Zhenghe Xu, Qingxia Liu, Ruan Chi. Reactiveoily bubble technology for flotation of apatite, dolomite and quartz. InternationalJournal of Mineral Processing. 2015, 134:74-81.

[38] YuefeiZhang, Zhe Liu, Yali Li, Ruan Chi, Optimization of ionicliquid-based microwave-assisted extraction of isoflavones from Radix puerariaeby response surface methodology, Separation and Purification Technology,129, 71-79, 2014

[39] FangZhou, Louxiang Wang, Zhenghe Xu, Qingxia Liu, Ruan Chi.Interaction of reactive oily bubble in flotation bastnaesite. Journal ofrare earth, 2014, 32(8):771-777.

[40] JunxiaYu, Liyan Wang, Ruan Chi, Yuefei Zhang, Zhigao Xu, Jia Guo. Asimple method to prepare magnetic modified beer yeast and its application for cationicdye adsorption. Environ Sci Pollut Res, 2013, 20:543-551.

[41] JunxiaYu, Liyan Wang, Ruan Chi, Jia Guo, Yuefei Zhang, Zhigao Xu,Chunqiao Xiao. Competitive adsorption of Pb²⁺ and Cd²⁺ onmagnetic modified sugarcane bagasse prepared by two simple steps. AppliedSurface Science, 2013, 268: 163-170.

[42] JunxiaYu, Liyan Wang, Ruan Chi, Yuefei Zhang, Zhigao Xu, Jia Guo.Removal of cationic dyes: basic magenta and methylene blue from aqueoussolution by adsorption on modified loofah. Res Chem Intermed, 2013, 39:3775–3790.

[43] SadiaIlyas, Jaechun Lee, Ruan Chi. Bioleaching of metals fromelectronic scrap and its potential for commercial exploitation. Hydrometallurgy,2013, 131-132:138-143.

[44] SadiaIlyas, Ruan Chi, Jaechun Lee. Fungal Bioleaching of Metals FromMine Tailing. Mineral Processing and Extractive Metallurgy Review, 2013,34(3):185-194.

[45] ChunqiaoXiao, Ruan Chi, Yujuan Fang. Effects of Acidiphilium cryptumon biosolubilization of rock phosphate in the presence of Acidithiobacillusferrooxidans. Trans. Nonferrous Met. Soc. China, 2013, 23:2153-2159.

[46] ChunqiaoXiao, Yujuan Fang, Ruan Chi. Evaluation for rock phosphatesolubilization in fermentation and soil-plant system using a stress-tolerantphosphate-solubilizing Aspergillus niger WHAK1. Applied Biochemistry andBiotechonology. 2013, 169(1):123-133.

[47] SadiaIlyas, Chi Ruan, H.N. Bhatti, M.A. Ghauri, M.A. Anwar. Columnbioleaching of metals from electronic scrap. Hydrometallurgy, 2010,101(3-4):135–140(科技部中國科學技術信息研究所評為2010年“中國百篇最具影響國際學術論文”)

[48] 張臻悅,何正豔,徐志高,餘軍霞,張越非,池汝安.中國稀土礦稀土配分特征[J].稀土,2016, 37(01): 121-127. (科技部中國科學技術信息研究所評為2018年“中國百篇最具影響國内學術論文”)

[49] 池汝安.風化殼淋積型稀土礦開發的現狀及展望[J].中國稀土學報,2019, 37(02): 129-140.

[50] 池汝安,田君.風化殼淋積型稀土礦評述[J].中國稀土學報,2007, 25(6): 641-650.

（2）出版的代表性專著

[1]池汝安, 王澱佐, 《稀土礦物加工》, 科學出版社, 2014年.

[2] Ruan Chi,JunTian,《WeatheredCrust Elution-Deposited Rare Earth Ores》, Nova Science Publishers, Inc. US，New York, 2008.

[3] 池汝安, 田君, 《風化殼淋積型稀土礦化工冶金》, 科學出版社, 2006年。

[4] 池汝安, 王澱佐, 《稀土礦選礦與提取技術》, 科學出版社, 1996年。

 

l主要國家發明專利：

[1] 池汝安, 張臻悅, 吳曉燕. 一種風化殼淋積型稀土礦二次原地浸出回收稀土的方法. ZL201810586373.X

[2] 池汝安,張臻悅,何正豔. 一種風化殼淋積型稀土礦中重稀土富集區的探礦方法. ZL201410708983.4．

[3] 池汝安,鐘誠斌,餘軍霞,張臻悅,何正豔. 一種風化殼淋積型稀土礦浸出液中稀土離子回收的方法.ZL201410299342.8.

[4] 池汝安,徐志高,何正豔. 一種風化殼淋積型稀土礦殘餘液回收稀土的方法. ZL201310513812.1.

[5] 池汝安,何正豔,張臻悅,陳哲.一種從風化殼淋積型稀土礦浸出液除雜渣中回收稀土及鋁的方法.ZL201510145764.4.

[6] 池汝安,何正豔,張臻悅. 一種風化殼淋積型稀土礦堆浸提取稀土的方法. ZL201410709093.5.

[7] 池汝安,何正豔,張臻悅,徐志高.一種風化殼淋積型稀土礦原地浸出收液方法. ZL201510145750.2.

[8] 池汝安,張婷婷,徐志高,張臻悅,何正豔. 一種風化殼淋積型稀土礦複合浸取劑. ZL201410064086.4.

[9] 池汝安,李慧,周芳. 一種風化殼淋積型稀土礦陽離子交換容量的測定方法. ZL201110202881.1.

[10] 池汝安. 一種混合稀土精礦的獨居石與氟碳铈礦浮選分離方法. ZL200910060631.1.

 

l獲獎情況

[1]國務院批準為享受“國務院政府特殊津貼專家”；

[2]中共湖北省委組織部、湖北省科學技術廳和湖北省人力資源和社會保障廳授予“湖北省海外留學回國人員十大有突出貢獻中青年專家”稱号；

 

[3] 湖北省教育廳授予首屆“湖北省楚天學者成就獎”一等獎；

[4]“湖北省有突出貢獻的中青年專家”稱号；

[5]中國石油和化學工業協會授予“全國化工優秀科技工作者”榮譽稱号；

[6]中華全國歸國華僑聯合會授予“中國僑界（創新人才）貢獻獎”；

[7]風化殼淋積型稀土礦基礎理論研究，江西省自然科學三等獎，（Z-14-3-08-R02）；

[8]以環氧氯丙烷為原料合成藥物阿代他汀中間體ATS-5，湖北省自然科學三等獎；

[9]磷灰石晶體調控生長及其對毒性離子的固化機理，湖北省自然科學三等獎；

[10]一種氧化鉻超細粉體的制備方法，湖北省科技進步三等獎；

[11]高活性低硫含量氧化鈣、氧化鎂的制備及應用，湖北省科技進步三等獎；

[12]風化殼淋積型稀土礦化工冶金，中國石油和化學工業聯合會科技進步二等獎，（2012JBR0178-2-1）；

[13]多糖與茶多酚提取分離技術，湖北省科技發明三等獎；

[14]風化型稀土礦化工冶金基礎理論研究，湖北省自然科學三等獎，（2004Z-034-3-017-003-R01）。