一、代表性论文
（一）CO2矿化类

1. [1] Yikun Wang, Xuan Zheng, Yan Wang, Shijian Lu, Zhengxin Fei, Jihui Li, Long Ji*, Shuiping Yan*. Fate of Ca²⁺ and metal impurities of a typical coal fly ash in amino acid mediated CO₂ mineralization and simultaneous CaCO₃ recovery. Separation and Purification Technology, 2025, 353: 128610.

2. [2] Xuan Zheng, Yikun Wang, Yan Wang, Kangkang Li, Hang Deng, Shuiping Yan*, Long Ji*. Amino acid assisted Ca²⁺ leaching-CO₂ mineralization: Thermodynamic equilibrium analysis and experimental investigation. Separation and Purification Technology, 2024, 340: 126809.

3. [3] Xuan Zheng, Long Ji*, Meigui Liu, Hang Zhai, Kangkang Li, Qingyao He, Shuiping Yan*. Bioinspired controllable CaCO₃ synthesis from solid waste by an “all in one” amino acid-in strategy: Implication for CO₂ mineralization. Chemical Engineering Journal, 2024, 480: 148037.

4. [4] Long Ji, Xuan Zheng, Yiwen Ren, Yikun Wang, Yan Wang, Shuiping Yan*. CO₂ sequestration and recovery of high-purity CaCO₃ from bottom ash of masson pine combustion using a multifunctional reagent-amino acid. Separation and Purification Technology, 2024, 329: 125171.

5. [5] Xuan Zheng, Jiayao Liu, Yikun Wang, Yan Wang, Long Ji*, Shuiping Yan*. Regenerable glycine induces selective preparation of vaterite CaCO₃ by calcium leaching and CO₂ mineralization from coal fly ash. Chemical Engineering Journal, 2023, 459: 141536.

6. [6] Yunxie Huang, Xuan Zheng, Yibin Wei, Qingyao He, Shuiping Yan*, Long Ji*. Protonated amines mediated CO₂ mineralization of coal fly ash and polymorph selection of CaCO₃. Chemical Engineering Journal, 2022, 450: 138121.

7. [7] Xuan Zheng, Jiayao Liu, Yibin Wei, Kangkang Li, Hai Yu, Xiaolong Wang, Long Ji*, Shuiping Yan*. Glycine-mediated leaching-mineralization cycle for CO₂ sequestration and CaCO₃ production from coal fly ash: Dual functions of glycine as a proton donor and receptor. Chemical Engineering Journal, 2022, 440: 135900.

8. [8] Long Ji*, Xuan Zheng, Long Zhang, Liang Feng, Kangkang Li, Hai Yu, Shuiping Yan*. Feasibility and mechanism of an amine-looping process for efficient CO₂ mineralization using alkaline ashes. Chemical Engineering Journal, 2022, 430: 133118.

9. [9] Long Ji, Jiabi Li, Nan Liu, Wenzhong Wang, Xuan Zheng, Qingyao He, Ming Hua*, Shuiping Yan*. Insights into the interaction between typical amines and alkaline minerals for improved CO₂ absorption and mineralization. Greenhouse Gases: Science and Technology, 2022, 12: 508-519.

10. [10] Long Ji, Long Zhang, Xuan Zheng, Liang Feng, Qingyao He, Yibin Wei, Shuiping Yan*. Simultaneous CO₂ absorption, mineralisation and carbonate crystallisation promoted by amines in a single process. Journal of CO₂ Utilization, 2021, 51: 101653.

11. [11] Xuan Zheng, Long Zhang, Liang Feng, Qingyao He, Long Ji*, Shuiping Yan*. Insights into dual functions of amino acid salts as CO₂ carriers and CaCO₃ regulators for integrated CO₂ absorption and mineralization. Journal of CO₂ Utilization, 2021, 48: 101531.

12. [8] Liang Feng, Feihong Liang, Lang Xu, Long Ji, Qingyao He*, Shuiping Yan*. Simultaneous biogas upgrading, CO₂ sequestration, and biogas slurry decrement using biomass ash. Waste Management, 2021, 133:1-9.

13. [12] 晏水平*，冯椋，段海超，纪龙，贺清尧. 以负碳排放为目标的生物质灰矿化CO₂路径研究. 农业机械学报，2022，53(7): 363-369+386.

（二）CO2化学吸收/吸附技术类

1. [1] Te Tu, Tiezhou Wu, Xi Zhang, Feihong Liang, Long Ji, Shuiping Yan*. Coupling gas-assisted stripping and waste heat recovery for energy efficient carbon capture process. Green Carbon, 2025,  Accepted.

2. Enyu Wang, Tao Sun, Fushuai Li, Yusen Shao, Shuiping Yan*. Performance improvement of water and heat recovery from stripped gas in a carbon capture process: Assembling different pore-sized ceramic membranes in a transport membrane condenser. Journal of Membrane Science, 2025, 727: 124092.

3. [3] Tao Sun, Qingyao He, Enyu Wang, Xuemei Ke, Long Ji, Shuiping Yan*. Engineering in-situ fabrication of omniphobic PVDF membrane for high-performance CO₂ capture. Chemical Engineering Journal, 2025, 505: 159415.

4. [4] Fushuai Li#, Enyu Wang#, Tao Sun, Qiufang Cui, Te Tu, Shuiping Yan*. Waste heat recovery in carbon capture process using a novel amphipathic inorganic membrane. Separation and Purification Technology, 2025, 355: 129617.

5. [5] Enyu Wang, Fushuai Li, Tao Sun, Chengwei Zhang, Te Tu, Shuiping Yan*. Mixed matrix membrane-based transport membrane condenser for improving the waste heat recovery performance in carbon capture process. Journal of Membrane Science, 2025, 713: 123325.

6. [6] Enyu Wang, Yu Shang, Fushuai Li, Man Xiao, Shuiping Yan*. Organic-inorganic composite membrane-based transport membrane condenser: Performance of waste recovery from hot gas mixture of CO₂ and water vapor. Separation and Purification Technology, 2024, 330: 125306.

7. [7] Enyu Wang, Shuo Liu, Qiufang Cui, Te Tu, Kang Kang, Shuiping Yan*. Numerical simulation of waste heat recovery process from the hot stripped gas in carbon capture process by using ceramic membrane. Applied Thermal Engineering, 2023, 232: 121054.

8. [8] Qiufang Cui, Leonardo Gutierrez, Fushuai Li, Te Tu, Yu Shang, Shuiping Yan*. Waste heat recovery enhancement in the CO₂ chemical absorption process by hydrophobic-hydrophilic composite ceramic membranes. Journal of Membrane Science, 2023, 676: 121606.

9. [9] Te Tu, Yu Shang, Qiufang Cui, Lei Xia, Yan Zhao, Xing Yang*, Shuiping Yan*. Configuration screening of ceramic membrane heat exchanger for an energy-efficient carbon capture process. Separation and Purification Technology, 2023, 311: 123207.

10. [10] Ruicheng Fu, Ge Yu, Junna Cheng, Yingchao Hu*, Shuiping Yan*. One-step synthesi of porous Li₄SiO₄ pellets by polyvinyl alcohol (PVA) method for CO₂ capture. Fuel, 2023, 331: 125873.

11. [11] Te Tu, Xing Yang, Qiufang Cui, Yu Shang, Shuiping Yan*. CO₂ regeneration energy requirement of carbon capture process with an enhanced waste heat recovery from stripped gas by advanced transport membrane condenser. Applied Energy, 2022, 323: 119593.

12. [12] Qiufang Cui, Yu Shang, Zhengxin Fei, Te Tu, Shuiping Yan*. Hydrophobic-hydrophilic Janus ceramic membrane for enhancing the waste heat recovery from the stripped gas in the carbon capture process. ACS Sustainable Chemistry & Engineering, 2022, 10(12): 3817–3828.

13. [13] Yingchao Hu, Ruicheng Fu, Wenqiang Liu, Dingding Yao*, Shuiping Yan*. Lithium-based ceramics in nonsilicates for CO₂ capture: Current status and new trends. Journal of Materials Chemistry A, 2022, 10(4): 1706-1725. 

14. [14] Qiufang Cui#, Te Tu#, Long Ji, Shuiping Yan*. CO₂ capture cost saving through waste heat recovery using transport membrane condenser in different solvent-based carbon capture processes. Energy, 2021, 216: 119225.

15. [15] Te Tu, Shuo Liu, Qiufang Cui, Liqiang Xu, Long Ji, Shuiping Yan*. Techno-economic assessment of waste heat recovery enhancement using multi-channel ceramic membrane in carbon capture process. Chemical Engineering Journal, 2020, 400: 125677.

16. [16] Liqiang Xu, Qiufang Cui, Te Tu, Shuo Liu, Long Ji, Shuiping Yan*. Waste heat recovery from the stripped gas in carbon capture process by membrane technology: Hydrophobic and hydrophilic organic membrane cases. Greenhouse Gases: Science and Technology, 2020, 10: 421-435.

17. [17] Qiufang Cui, Shuo Liu, Liqiang Xu, Te Tu, Qingyao He, Shuiping Yan*. Modification of rich-split carbon capture process using ceramic membrane for reducing the reboiler duty: Effect of membrane arrangements. Separation and Purification Technology, 2020, 235: 116148.

18. [18] Shuiping Yan*, Qiufang Cui, Te Tu, Liqiang Xu, Qingyao He, Paul H.M. Feron, Shuaifei Zhao*. Membrane heat exchanger for novel heat recovery in carbon capture. Journal of Membrane Science, 2019, 577: 60-68.

19. [19] Te Tu, Qiufang Cui, Feihong Liang, Liqiang Xu, Qingyao He, Shuiping Yan*. Water recovery from stripping gas overhead CO₂ desorber through air cooling enhanced by transport membrane condensation. Separation and Purification Technology, 2019, 215: 625-633.

20. [20] Shuiping Yan*, Qiufang Cui, Liqiang Xu, Te Tu, Qingyao He. Reducing CO₂ regeneration heat requirement through waste heat recovery from hot stripping gas using nanoporous ceramic membrane. International Journal of Greenhouse Gas Control, 2019, 82: 269-280.

21. [21] Shuiping Yan, Shuaifei Zhao*, Leigh Wardhaugh, Paul H. M. Feron. Innovative use of membrane contactor as condenser for heat recovery in carbon capture. Environmental Science & Technology, 2015, 49(4): 2532-2540.

22. [22] 韦诗慧，郑璇，王燕，汪洋，纪龙，晏水平*. 富CO₂氨水溶液的生物质灰矿化解吸特性. 化工进展，2024，43（10）：5950-5957.

23. [23] 尚玉，肖满，崔秋芳，涂特，晏水平*. CO₂捕集工艺中热再生气余热的PVDF/BN-OH平板复合膜回收特性. 化工进展，2023，42（3）：1618-1628.

24. [24] 崔秋芳，徐立强，涂特，贺清尧，晏水平*. CO₂化学吸收法中再生气的陶瓷膜余热回收特性. 化工进展，2019，38（8）：3540-3547.

25. [25] Shuiping Yan*, Qingyao He, Ping Ai, Yuanyuan Wang, Yanlin Zhang. Regeneration performance of concentrated CO₂-rich alkanolamine solvents: The first step study of a novel concept for reducing regeneration heat consumption by using concentration swing absorption technology. Chemical Engineering and Processing: Process Intensification, 2013, 70(8): 86-94.

26. [26] Shuiping Yan*, Mengxiang Fang*, Zhen Wang, Zhongyang Luo. Regeneration performance of CO₂-rich solvents by using membrane vacuum regeneration technology: relationships between absorbent structure and regeneration efficiency. Applied Energy, 2012, 98: 357-367.

（三）CO2吸收剂开发与CO2农业利用类

1. [1] Feihong Liang, Shihui Wei, Long Ji, Shuiping Yan*. A potential CO₂ carrier to improve the utilization of HCO₃^- by plant-soil ecosystem for carbon sink enhancement. Journal of Advanced Research, 2024, accepted.

2. [2] Yizhong Duan, Yang Liu, Haonan Liu, Zhan Shi, Xinran Shen, Xiantong Sun, Shixin Zhao, Shuiping Yan*, Feihong Liang*. CO₂ absorption performance of biogas slurry enhanced by biochar as a potential solvent in once-through CO₂ chemical absorption process. Carbon Capture Science & Technology, 2024, 13: 100317.

3. [3] Tao Sun, Liang Feng, Yong Gao, Long Ji, Peiwen Liu, Qingyao He*, Shuiping Yan*. Upgrading biogas to biomethane with low energy input and negative carbon emissions using agriculture-friendly renewable absorbents. ACS Sustainable Chemistry & Engineering, 2024, 12: 11777-11788. （封面论文）

4. [4] Feihong Liang, Shihui Wei, Lu Xue, Shuiping Yan*. Adopting green absorbent for CO₂ capture and agricultural utilization: Biogas slurry and biomass ash case. Green Carbon, 2024, 2: 252-261.

5. [5] Feihong Liang, Zhan Shi, Shihui Wei, Lanlan Wu, Shuiping Yan*. What is the appropriate content of HCO₃^- irrigated into tomato cultivation soil for enhancing its carbon fixation? Environmental Technology & Innovation, 2023, 32: 103332.

6. [6] Feihong Liang, Zhan Shi, Shihui Wei, Shuiping Yan*. Biogas slurry purification-lettuce growth nexus: Nutrients absorption and pollutants removal. Science of the Total Environment, 2023, 890: 164383.

7. [7] Feihong Liang, Shihui Wei, Lanlan Wu, Shuiping Yan*. Improving the value of CO₂ and biogas slurry in agricultural applications: A rice cultivation case. Environmental and Experimental Botany, 2023, 208: 105233.

8. [8] Feihong Liang, Liang Feng, Nan Liu, Qingyao He, Long Ji, Jo De Vrieze, Shuiping Yan*. An improved carbon fixation management strategy into the crop-soil ecosystem by using biomass ash as the medium. Environmental Technology & Innovation, 2022, 28:102839.

9. [9] Feihong Liang#, Lang Xu#, Long Ji, Qingyao He, Lanlan Wu, Shuiping Yan*. A new approach for biogas slurry disposal by adopting CO₂-rich biogas slurry as the flower fertilizer of Spathiphyllum: Feasibility, cost and environmental pollution potential. Science of the Total Environment, 2021, 770: 145333.

10. [10] Feihong Liang, Wenjie Yang, Lang Xu, Long Ji, Qingyao He, Lanlan Wu, Yi Ran*, Shuiping Yan*. Closing extra CO₂ into plants for simultaneous CO₂ fixation, drought stress alleviation and nutrient absorption enhancement. Journal of CO₂ Utilization, 2020, 42: 101319.

11. [11] Qingyao He, Mingfei Shi, Feihong Liang, Lang Xu, Long Ji*, Shuiping Yan*. Renewable absorbents for CO₂ capture: from biomass to nature. Greenhouse Gases: Science and Technology, 2019, 9: 637-651.

12. [12] Qingyao He, Long Ji, Bing Yu, Shuiping Yan*, Yanlin Zhang*, Shuaifei Zhao. Renewable aqueous ammonia from biogas slurry for carbon capture: chemical composition and CO₂ absorption rate. International Journal of Greenhouse Gas Control, 2018, 77: 46-54.

13. [13] Qingyao He, Ge Yu, Shuiping Yan*, Ludovic F. Dumée, Yanlin Zhang, Vladimir Strezov, Shuaifei Zhao*. Renewable CO₂ absorbent for carbon capture and biogas upgrading by membrane contactor. Separation and Purification Technology, 2018, 194: 207-215. 

14. [14] Feihong Liang, Te Tu, Ge Yu, Wenchao Wang, Qingyao He, Shuiping Yan*, Yi Ran*. Ecological treatment of MEA aqueous solution using a hydroponic method. International Journal of Energy for a Clean Environment, 2018, 19(3-4): 143-155.

15. [15] Qingyao He, Ge Yu, Te Tu, Shuiping Yan*, Yanlin Zhang, Shuaifei Zhao*. Closing CO₂ loop in biogas production: recycling ammonia as fertilizer. Environmental Science & Technology, 2017, 51: 8841-8850.

16. [16] Qingyao He, Ge Yu, Wenchao Wang, Shuiping Yan*, Yanlin Zhang, Shuaifei Zhao*. Once-through CO₂ absorption for simultaneous biogas upgrading and fertilizer production. Fuel Processing Technology, 2017, 166: 50-58.

17. [17] Qingyao He, Jiang Xi, Wenchao Wang, Liang Meng, Shuiping Yan*, Yanlin Zhang. CO₂ absorption using biogas slurry: Recovery of absorption performance through CO₂ vacuum regeneration. International Journal of Greenhouse Gas Control, 2017, 58: 103-113.

18.  [18] Shuiping Yan*, Qingyao He, Shuaifei Zhao*, Hong Zhai, Minhui Cao, Ping Ai. CO₂ removal from biogas by using green amino acid salts: Performance evaluation. Fuel Processing Technology, 2015, 129 (1): 203-212.

19. [19] Shuiping Yan*, Qingyao He, Shuaifei Zhao*, Yuanyuan Wang, Ping Ai. Biogas upgrading by CO₂ removal with a highly selective natural amino acid salt in gas–liquid membrane contactor. Chemical Engineering and Processing: Process Intensification, 2014, 85(11): 125-135.

20. [20] 梁飞虹，孙豆，涂特，纪龙，贺清尧，晏水平*. 基于膜空气吹扫技术的农业温室CO₂增施可行性分析. 农业机械学报，2021，52（11）：351-357.

21. [21] 王文超，贺清尧，余歌，刘璐，晏水平*. 外源吸收剂对沼液CO₂吸收及农业应用的影响. 化工进展，2017，36（4）：1512-1520. 

22.  [22] 贺清尧，王文超，蔡凯，晏水平*，张衍林. 减压浓缩对沼液CO₂吸收性能和植物生理毒性的影响. 农业机械学报，2016，47（2）：200-207.

（四）废弃物资源回收与负碳排放技术

1. [1] Mingfei Shi#, Qingyao He#, Ruobing Xu, Zengxin Sheng, Hongzhen Luo, Erik Meers, Shuiping Yan*. Ammonia recovery from anaerobic digestion effluent using membrane distillation: Membrane fouling at different water vapor transfer scenarios. Chemical Engineering Journal, 2025, 505: 159098.

2. [2] Mingfei Shi#, Ruobing Xu#, Haihua Luo, Hongzhen Luo, Erik Meers, Qingyao He*, Shuiping Yan. Membrane fouling characterization and cleaning performance in anaerobic digestion effluent treatment by AGMD: Effect of feed pH. Desalination, 2025, 599: 118438.

3. [3] Mingfei Shi, Qingyao He*, Junlong Luo, Hongzhen Luo, Xinyi Gao, Erik Meers, Shuiping Yan*. Investigation of membrane fouling behaviors triggered by different characteristics of anaerobic digestion effluent in membrane distillation. Journal of Membrane Science, 2024, 705: 122897.

4. [4] Mingfei Shi#, Haichao Duan#, Liang Feng, Man Xiao, Qingyao He*, Shuiping Yan*. Sustainable ammonia recovery from anaerobic digestion effluent through pretreating the feed by biomass ash. Separation and Purification Technology, 2023, 307: 122655.

5. [5] Tao Sun#, Wenlong Li#, Long Ji, Qingyao He*, Shuiping Yan*. Valorization of biogas through simultaneous CO₂ and H₂S removal by renewable aqueous ammonia solution in membrane contactor. Frontiers of Agricultural Science and Engineering, Accepted, 2022.

6. [6] Mingfei Shi, Xiaorong Zeng, Man Xiao, Qingyao He*, Shuiping Yan*. Ammonia recovery from anaerobic digestion effluent by aeration-assisted membrane contactor. Chemical Engineering Research and Design, 2022, 188: 954-963.

7. [7] Mingfei Shi, Man Xiao, Liang Feng, Te Tu, Qingyao He*, Shuiping Yan*. Water and green ammonia recovery from anaerobic digestion effluent by two-stage membrane distillation. Journal of Water Process Engineering, 2022, 49: 102949.

8. [8] Benchi Chen, Yusen Shao, Mingfei Shi, Long Ji, Qingyao He*, Shuiping Yan*. Anaerobic digestion of chicken manure coupled with ammonia recovery by vacuum-assisted gas-permeable membrane process. Biochemical Engineering Journal, 2021, 175: 108135.
   

9. [9] Mingfei Shi#, Qingyao He#, Liang Feng, Lanlan Wu, Shuiping Yan*. Techno-economic evaluation of ammonia recovery from biogas slurry by vacuum membrane distillation without pH adjustment. Journal of Cleaner Production, 2020, 265: 121806.

10. [10] Qingyao He#, Jiang Xi#, Mingfei Shi, Liang Feng, Shuiping Yan*, Liangwei Deng. Developing a vacuum-assisted gas-permeable membrane process for rapid ammonia recovery and CO₂ capture from biogas slurry. ACS Sustainable Chemistry & Engineering, 2020, 8: 154-162. (Front cover)

11. [11] Qingyao He, Mingfei Shi, Feihong Liang, Long Ji, Xin Cheng, Shuiping Yan*. B.E.E.F.: a sustainable process concerning negative CO₂ emission and profit increase of anaerobic digestion. ACS Sustainable Chemistry & Engineering, 2019, 7: 2276-2284.

12. [12] Qingyao He, Te Tu, Shuiping Yan*, Xing Yang, Mikel Duke, Yanlin Zhang, Shuaifei Zhao*. Relating water vapor transfer to ammonia recovery from biogas slurry by vacuum membrane distillation. Separation and Purification Technology, 2018, 191: 182-191.

13. [13] 汪洋，石明菲，贺清尧，晏水平*. 以富CO₂吸收液为汲取液的沼液中水正渗透回收特性研究. 农业机械学报，2024，55（6）：317-324.

14. [14] 贺清尧，廖婷，陈号迁，刘梦飞，纪龙，晏水平*. 畜禽粪污处理中氨气膜接触器回收的传质及选择性研究. 农业机械学报，2024，55（2）：338-345.

15. [15] 晏水平，冯椋，段海超，纪龙，贺清尧. 以负碳排放为目标的生物质灰矿化CO₂路径研究. 农业机械学报，2022，53（7）：363-369+386.

16. [16] 贺清尧，石明菲，冯椋，艾平，袁巧霞，晏水平*. 基于膜蒸馏的沼液资源化处理研究进展. 农业工程学报，2021，37（8）：259-268.

17. [17] 梁飞虹，崔秋芳，涂特，余歌，王文超，晏水平*. 基于水培技术的沼液净化及生菜品质提升. 农业环境科学学报，2018，37（4）：788-795.

18. [18] 贺清尧，冉毅，刘璐，王文超，晏水平*，张衍林. 生物质灰致沼液氮磷脱除研究. 农业机械学报，2017，48（1）：237-244+251.

19. [19] 贺清尧，王文超，刘璐，余歌，晏水平. 沼液氨氮减压蒸馏分离性能与反应动力学. 农业工程学报，2016，32（17）：191-197.
    

二、专利、软件类
1. 晏水平，贺清尧，艾平，等. 基于吸收剂浓度变换的气体中CO₂化学吸收系统与方法. 发明专利：ZL201310449986.6.

2. 晏水平，蔡凯，贺清尧，等.一种以厌氧发酵沼液为载体的CO₂吸收和储存利用系统和方法. 发明专利：ZL 201410722425.3.

3. 晏水平，王文超，贺清尧，等. 以沼液和秸秆水解液制备氨基酸及分离CO₂的系统与方法. 发明专利：ZL201510466349.9.

4. 晏水平，贺清尧，王文超，等. 沼液减量化处理和沼气协同净化系统及净化方法. 发明专利：ZL 201510407545.9.

5. 晏水平，王文超，贺清尧，等. 以沼液为CO₂吸收剂的沼气提纯与沼液处理系统与方法. 发明专利：ZL201610815657.2.

6. 贺清尧，石明菲，晏水平，等. 减压辅助的沼液氨氮膜回收系统与方法. 发明专利：ZL201811230621.3.