胡启立 校聘副教授

 个人描述

主要从事水污染控制与资源回收相关研究工作，主持四川省自然科学基金（青年项目）、生态环境部重点实验室开放基金、四川轻化工大学人才引进项目等6项，以第一/通讯作者发表SCI论文32篇、EI论文2篇、中文核心4篇（含2篇高被引论文），发表教改论文4篇，H因子25。两度入选“全球前2%顶尖科学家”榜单（2024和2025年），四川省海外高层次留学人才，四川省科技协同创新促进会理事，中华环保联合会青年新锐专家，中国化工学会无机酸碱盐领域智库专家，中国环境科学学会会员，Chinese Chemical Letters青年编委，Environmental Research客座编辑，荣获四川省循环经济协会青年科技奖、四川省循环经济协会科学技术奖一等奖，中华环保联合会自然科学奖二等奖。

 学习及工作经历

2009.09 - 2013.06，成都理工大学，环境工程，学士

2013.09 - 2016.07，中国地质大学（北京），环境工程，硕士

2016.10 - 2019.09，日本筑波大学，持续环境学，博士

2019.10 - 2024.06，成都理工大学生态环境学院，讲师

2024.07至今，四川轻化工大学化学与环境工程学院，副教授、硕士研究生导师；成都理工大学生态环境学院（兼职），硕士研究生导师

 教学工作

主讲环境化学、化工废水处理技术、专业导论，参与《化工废水处理技术》应用型品牌课程建设，主持教改项目1项，发表教改论文4篇。

[1] 2025.06-2027.05，四川轻化工大学教学改革研究项目（JG-25015），多模态软件融合驱动的环境化学教学模式创新研究与实践，主持

[2] 胡启立, 张云辉^*, 王杨双, OriginPro软件在环境化学教学中的应用, 广东化工, 2025, 52(13): 69-172.

[3] 胡启立, 李姝乐^*, 裴秋明, 张博爱奇, MATLAB软件在环境化学教学中的应用, 当代化工研究, 2025, (15): 136-138.

[4] 许丽, 王文君, 郑兴文, 司玉军, 胡启立^*, Visual MINTEQ软件在分析化学教学中的应用, 当代化工研究, 2025, (17): 149-152.

[5] 胡启立, 唐良港^*, 符宇航, 李玉龙, 软件融合驱动的环境化学教学模式探索, 当代化工研究, 2026 (网络首发).

 主要研究领域

主要从事环境功能材料研发、城市/工业废水处理与资源化、吸附和电化学技术等

 主持或参与的科研项目

[1] 2024.01-2025.12，四川省自然科学基金青年基金项目（2024NSFSC0888），铁电絮凝耦合蛇纹石回收磷石膏渗滤液中的磷酸盐效能与机理研究，主持

[2] 2025.01-2026.12，四川轻化工大学人才引进项目（2024RC060），铈基吸附剂价态调控及镉和磷协同吸附研究，主持

[3] 2025.07-2026.12，四川中地环工程科技有限公司，磷石膏渗滤液深度脱氟除磷关键技术研究（HXZ2025090），主持

[4] 2023.05-2025.05，四川省交通运输科技项目（2023-B-15），通航水域污染防治与应急处置技术研究，主研

[5] 2022.01-2023.12，国家环境保护水土污染协同控制与联合修复重点实验室开放基金（GHBK-2021-008），MgLa_xFe_2−xO₄纳米颗粒去除地下水中的磷酸盐：性能和机理研究，主持

[6] 2026.01-2027.12，生态环境部水土污染协同控制与联合修复重点实验室开放基金资助项目（GHBK-2025-05），静电场协同氧空位深度去除再生水中磷酸盐性能与机理研究，主持

 代表性论著

[1] Liting Hao, Ziheng Zhao, Hongliang Zhou, Zile Wang, Litian Wen, Jun Wang, Qili Hu*, Miao Li*. Influence of typical anions in brackish water on synergistic remediation of Vanadium(V) by coffee grounds and Ryegrass: Machine learning modeling and co-occurrence network analysis. Environmental Research, 2026, 290: 123343.

[2] Qili Hu^*, Liting Hao, Qiuming Pei, Yunhui Zhang^*, A state-of-the-art review of explicit multicomponent isotherm models for the modeling of equilibrium data: From fundamentals to applications, Separation and Purification Technology, 2025, 363: 132202.

[3] Yangshuang Wang, Xiao Zhang, Qili Hu^*, Yunhui Zhang, Xun Huang^*, Shuangning He, Luying He, Ying Wang, Iron-cerium doped chitosan beads for synchronous removal of phosphate and fluoride from aqueous solutions, International Journal of Biological Macromolecules, 2025, 330: 148328.

[4] Qili Hu^*, Yunhui Zhang^*, Qiuming Pei, Shule Li, Determination of equilibrium loading by empirical models for the modeling of breakthrough curves in a fixed-bed column: From experience to practice, Water, 2025, 17(3): 329.

[5] Qili Hu^*, Liting Hao, Adsorption technologies in wastewater treatment processes, Water, 2025, 17(15): 2335.

[6] Qili Hu^*, Zhihao He*, Yunhui Zhang, Siting Ma, Leyi Huang, One-pot solvothermal synthesis of Ca-Fe-La composite for advanced removal of phosphate from aqueous solutions in a fixed-bed column: Modeling and resource utilization, Environmental Technology & Innovation, 2024, 36: 103888.

[7] Xiaojun Xu, Qili Hu^*, Weiyi Qu, Hengyuan Liu, Zhihao He^*, The performance and mechanism of solvothermal synthesis of a Ca-Fe-La composite for enhanced removal of phosphate from aqueous solutions, Water, 2024, 16(20): 2932.

[8] Qili Hu^*, Qiuming Pei, Yunhui Zhang, Shuyue Pang, Chuanping Feng^*, Facile preparation of oxygen vacancy-rich magnesium oxide for advanced removal of phosphate from aqueous solutions, Journal of Water Process Engineering, 2024, 66: 106080.

[9] Qili Hu^*, Xingyue Yang, Leyi Huang, Yixi Li, Liting Hao, Qiuming Pei, Xiangjun Pei^*, A critical review of breakthrough models with analytical solutions in a fixed-bed column, Journal of Water Process Engineering, 2024, 59: 105065.

[10] Zhihao He, Qili Hu^*, Hengyuan Liu, Xiangjun Pei^*, Development of fractal-like Furusawa–Smith and fractal-like Boyd models for modeling of phosphate adsorption: Statistical evaluation and comparison, Journal of Water Process Engineering, 2024, 59: 105075.

[11] Qili Hu^*, Siting Ma, Zhihao He, Hengyuan Liu, Xiangjun Pei^*, A revisit on intraparticle diffusion models with analytical solutions: Underlying assumption, application scope and solving method, Journal of Water Process Engineering, 2024, 60: 105241.

[12] Qili Hu^*, Shuyue Pang, Yixi Li, Leyi Huang, Yunhui Zhang, Xiaojun Xu, Xiangjun Pei^*, Enhanced removal of phosphate from aqueous solutions by oxygen vacancy-rich MgO microspheres: Performance and mechanism, Chemosphere, 2024, 355: 141776.

[13] Qili Hu^*, Leyi Huang, Yixi Li, Xingyue Yang, Siting Ma, Xiangjun Pei^*, Statistical analysis and application of binary breakthrough models developed by Gudermannian, error and hyperbolic tangent functions in a fixed-bed column, Journal of Water Process Engineering, 2024, 60: 105273.

[14] Qili Hu^*, Rui Lan, Liru He, Hengyuan Liu, Xiangjun Pei^*, A critical review of adsorption isotherm models for aqueous contaminants: Curve characteristics, site energy distribution and common controversies, Journal of Environmental Management, 2023, 329: 117104 (高被引论文).

[15] Qili Hu^*, Liru He, Rui Lan, Chuanping Feng, Xiangjun Pei*, Recent advances in phosphate removal from municipal wastewater by electrocoagulation process: A review, Separation and Purification Technology, 2023, 308: 122944.

[16] Qili Hu^*, Shuyue Pang, Dan Wang, In-depth insights into mathematical characteristics, selection criteria and common mistakes of adsorption kinetic models: A critical review, Separation and Purification Reviews, 2022, 51: 281-299.

[17] Qili Hu, Dan Wang, Shuyue Pang, Li Xu^*, Prediction of breakthrough curves for multicomponent adsorption in a fixed-bed column using logistic and Gompertz functions, Arabian Journal of Chemistry, 2022, 15: 104034.

[18] Qili Hu^*, Shuyue Wang, Dan Wang, Yang Yuhang, Hengyuan Liu^*, Deeper insights into the Bohart−Adams model in a fixed-bed column, Journal of Physical Chemistry B, 2021, 125: 8494-8501.

[19] Qili Hu, Qi Huang, Danni Yang^*, Hengyuan Liu, Prediction of breakthrough curves in a fixed-bed column based on normalized Gudermannian and error functions, Journal of Molecular Liquids, 2021, 323: 115061.

[20] Qili Hu^*, Zhenya Zhang, Prediction of half-life for adsorption kinetics in a batch reactor, Environmental Science and Pollution Research, 2020, 27: 43865-43869.

[21] Qili Hu^*, Hengyuan Liu, Zhenya Zhang, Xiangjun Pei, Development of fractal-like Clark model in a fixed-bed column, Separation and Purification Technology, 2020, 251: 117396.

[22] Qili Hu^*, Hengyuan Liu, Zhenya Zhang, Yanhua Xie^*, Nitrate removal from aqueous solution using polyaniline modified activated carbon: Optimization and characterization, Journal of Molecular Liquids, 2020, 309: 113057.

[23] Qili Hu, Yanhua Xie^*, Zhenya Zhang^*, Modification of breakthrough models in a continuous-flow fixed-bed column: Mathematical characteristics of breakthrough curves and rate profiles, Separation and Purification Technology, 2020, 238: 116399.

[24] 胡启立, 李玉龙, 符宇航, 桂明生, 何鲁英, 王杨双, 张云辉^*, Yoon-Nelson和剂量-响应模型在穿透曲线建模中的应用, 环境科学与技术, 2026, 49(01) : 61-66.

[25] 胡启立, 张云辉, 王杨双, 李奕西, 杨星悦, 马思婷, 裴秋明, 赵希锦^*, 过氧化钙除氟性能与机理及位点能量分布, 环境化学, 2026 (网络首发).

[26] 胡启立, 龚婕^*, 李玉龙, 刘恒源, 李瑞桢, 梅昌艮, 铁铈改性壳聚糖颗粒的制备及其除磷特性与机理, 水处理技术, 2026 (已录用).

[27] 胡启立^*, 庞舒月, 富含氧空位氧化镁微米棒选择性除磷性能与机理, 中国环境科学, 2025, 45(02): 776-786.

[28] 胡启立, 何智浩^*, 张帅, 杨杰, 王权峰, 吸附动力学模型拟合优度的统计评估及模型比较研究, 水处理技术, 2025, 51(03): 23-30 (高被引论文).

 社会兼职

[1] 2026.01至今，中华环保联合会青年新锐专家

[2] 2025.11-2029.10，中国化工学会无机酸碱盐领域智库专家

[3]2025.12至今，四川省科技协同创新促进会第二届理事

[4]2025.12-2028.11，四川省科技协同创新促进会碳中和专家顾问团委员

[5] 2023.01至今，全国研究生教育评估监测专家库专家

[6] 2023.01至今，全国本科毕业论文（设计）抽检评审专家库专家

[7] 2025.06~2026.06，Chinese Chemical Letters，青年编委

[8] 2025.01~2027.12，西华师范大学学报（自然科学版），首届青年编委

[9] 2025.01~2027.12，青岛大学学报（工程技术版），首届青年编委

[10] 2025.01~2026.12，当代化工研究，编委会委员

[11] 2025.07~2026.04，Environmental Research，客座编辑

[12] 2024.11~2025.06，Water，客座编辑

 获奖及荣誉

[1] 2026.01，四川省循环经济协会青年科技奖

[2] 2026.01，四川省循环经济协会科学技术奖一等奖

[3] 2025.09，全球前2%顶尖科学家

[4] 2025.12，中华环保联合会自然科学奖二等奖

[5] 2024.09，全球前2%顶尖科学家

[6] 2019.12，四川省海外高层次留学人才