(1)国家自然科学基金面上项目，藻源有机物抑制微囊藻混凝去除过程中基团绑定机理及调控策略研究，2023/01-2026/12, 53万元，在研，主持

(2)国家重点研发计划政府间国际科技创新合作重点专项，典型水产养殖过程碳传递特征及微藻碳减排关键技术研发与集成示范，2023/01-2025/12，60万元（总200万元），在研，子课题负责人

(3)国家自然科学青年基金项目，原位气浮藻水分离过程中改性剂-气泡-藻细胞间界面作用机制研究，2020/01-2022/12, 25万元，已结题，主持

(4)国家重点研发计划政府间国际科技创新合作重点专项，典型饮用水源地关键藻类产毒素/异味物质潜力评估及其用于早期预警的藻细胞阈值浓度的模型预测，2019/11-2022/10，100万元（总232万），已结题，子课题负责人

(5)中科院所青年人才项目，微囊藻混凝气浮分离过程中界面作用机制及调控策略研究，2020/01-2021/12，8万元，已结题，主持

(6)地方委托，威信县桂香沟水库藻类水华成因分析及应急防控，2022/10-2023/09，168万元，已结题，主持

(7)地方委托，威信县昌水岩水库蓝藻水华应急防控，2022/11-2022/12，37万元，已结题，主持

(8)企业委托，平流式气浮装备藻水分离过程分析及处理能力提升研究，2021/5-2023/12，50万元，在研，主持

(9)中国科学院科研仪器设备研制项目，净水渔业鱼类多模态识别与监测设备，2020/01-2021/12，300万元，已结题，项目骨干

(10)固体废物处理与资源化教育部重点实验室开放课题，煤矸石对于典型藻类水华控制应用研究，2020/01-2021/12，3万元，已结题，主持

(11)水体污染控制与治理科技重大专项子课题，基于品质控制到产品开发一体化蓝藻生物质资源化技术，2018/01-2020/12，230万元，已结题，项目骨干

(12)水体污染控制与治理科技重大专项专题，南水北调中线总干渠藻贝类异常增殖成因及其多途径防控技术体系项目，2018/01-2020/12，50万元，已结题，项目骨干

围绕藻类水华防控、饮用水中藻类高效去除、藻类生物质收获与资源化利用等过程中“藻细胞生物学特性和水动力影响藻水分离界面作用及其强化调控机制”等关键科学问题展开系统研究，揭示了藻水分离的界面作用机理，并构建了系统性的界面作用与流场特征的强化调控机制，攻克了多项藻水分离瓶颈技术，研发了多项藻水分离新技术与装备，以及藻类高质化资源利用新技术与装备，成功在太湖、南水北调及国内外一些饮用水源地等进行示范与应用。主持国家基金面上项目、青年基金、国家重点研发计划子课题等项目10余项，发表SCI论文30余篇，申请发明专利5项。

代表性论文：

(1)Lili Li, Shaozhe Cheng, Zimin Wang, Wen Zhang, Xuezhi Zhang,Haiyang Zhang*, A Critical Review of the Contradictory Roles of Algogenic Organic Matter in Microalgae Coagulation-Flocculation: Effects of Composition, Properties, and Mechanisms,Water Research, 2025, 124214.

(2)Ziqian Cheng, Zhe Lin, Xin Chen, Xuezhi Zhang,Haiyang Zhang*, Unraveling the mechanisms underlying AOM-induced deterioration of the settling performance of algal floc,Water Research, 2025, 274: 123115.

(3)Wenting Ding, Zhe Lin, Xingqiang Wu, Xuezhi Zhang,Haiyang Zhang*, Study on the breakage mechanism of algal floc in coagulation flow field,Separation and Purification Technology, 2025, 365:132655.

(4)Chuanzhen Wang, Yiming Zhang, Xuezhi Zhang,Haiyang Zhang*, Study on the formation mechanism of algal floc driven by flow field in a helical tube flocculator.Physicochemical Problems of Mineral Processing. 2025, 61(2):202813.

(5)Yiming Zhang, Chuanzhen Wang, Md. Shakhaoath Khan, Xuezhi Zhang, Zihao Wang, Buqing Yang, andHaiyang Zhang*, Study on the Effect of Bubbles on the Removal Efficiency of a Helical Tube Flocculator,Processes, 2025,13(3): 758.

(6)Xiwei Dai, Xin Chen, Ziqian Cheng, Peizhong Wang, Lianjun Sun, Junbo Huang, Xuezhi Zhang,Haiyang Zhang*, A multi-dimensional comparative study on the performance of algae removal using various flotation,Algal Research, 2024, 84：103793.

(7)Haiyang Zhang*, Yiming Zhang, Chuanzhen Wang, Lin Li, Yunlu Jia, Xuezhi Zhang*, Study on the kinetic mechanism of hydrodynamically enhanced modified clay removal ofAphanizomenon flos-aquae: From laboratory to field engineering applications,Separation and Purification Technology, 2024, 340: 126651.

(8)Haiyang Zhang*, Yongpeng Wang, Jing Li, Xin Chen, Muhammad Mubashar, Shouchun Li, Xuezhi Zhang*, Whether water exchange is an effective solution for emergency mitigation of algae bloom,Journal of Water Process Engineering, 2024, 60: 105085.

(9)Xin Chen¹, Chengxuan Li¹, Yiming Zhang, Pan Cao, Chuanzhen Wang, Xuezhi Zhang, Zhe Lin*,Haiyang Zhang*, Mechanism of rapid settling algal flocs formation in a novel fluidized bed flocculator,Algal Research, 2024, 82: 103605.

(10)Lili Li, Xin Chen, Senlin Shao, Xuezhi Zhang,Haiyang Zhang*, Study on the mechanism of hydrodynamic manipulation of floc structure to achieve high-flux of coagulation macro-filtration for the rapid removal ofAphanizomenon flos-aquae,Journal of Cleaner Production, 2024, 434: 140397.

(11)Haiyang Zhang, Lili Li, Wenting Ding, Ziqian Cheng, Zhe Lin, Liandong Zhu, Xuezhi Zhang*, Effect mechanism of metal cations on the interface interaction of cell-collector-bubble for microalgal foam flotation,Chemosphere, 2024, 349: 140899.

(12)Haiyang Zhang, Shouyong Yang, Xuezhi Zhang*, Automatic recognition and classification of microalgae using an inception-v3 convolution neural network model,International Journal of Environmental Science and Technology, 2024, 21: 4625-4634.

(13)Haiyang Zhang, Cheng Li, Lili Li, Shaozhe Cheng, Peizhong Wang, Lianjun Sun, Junbo Huang, Xuezhi Zhang*, Uncovering the optimal structural characteristics of flocs for microalgae flotation using Python-OpenCV,Journal of Cleaner Production, 2023, 385: 135748.

(14)Haiyang Zhang, Lili Li, Shaozhe Cheng, Cheng Li, Fangzhou Liu, Peizhong Wang, Lianjun Sun, Junbo Huang, Wen Zhang*, Xuezhi Zhang*, Enhanced Microcystis Aeruginosa removal and novel flocculation mechanisms using a novel continuous co-coagulation flotation (CCF)，Science of The Total Environment，2023，857: 159532

(15)Shaozhe Cheng^#,Haiyang Zhang^#, Lili Li, Tongbo Yu, Yongpeng Wang, Daoyong Tan, Xuezhi Zhang*, Harvesting ofMicrocystis flos-aquaeusing dissolved air flotation: The inhibitory effect of carboxyl groups in uronic acid-containing carbohydrates，Chemosphere，2022，300: 134466.

(16)Xiaomiao Zang, Shi Zhang, Lili Li, Gaohong Wang,Haiyang Zhang*, Xuezhi Zhang*, Effects of extracellular organic matter on chitosan coagulation-microfiltration harvesting of Microcystis flos-aquae，Separation and Purification Technology，2022，287: 120548

(17)Zhe Lin, Chengxuan Li, Xuezhi Zhang,Haiyang Zhang*, Study on the Characteristics and Mechanism of the Flocculation Behaviour in a Novel Fluidized Bed Flocculator，Separation and Purification Technology，2023, 307: 122724.

(18)Xifan Nie^#,Haiyang Zhang^#, Shaozhe Cheng, Muhammad Mubashar, Cong Xu, YanhuaLi, Daoyong Tan, Xuezhi Zhang^*, Study on the cell-collector-bubble interfacial interactions during microalgae harvesting using foam flotation，Science of The Total Environment, 2022, 806: 150901.

(19)Lili Li^#, Tongbo Yu^#, Shaozhe Cheng, Ling Li, Chengxuan Li, Gaohong Wang, Daoyong Tan. Lin Li,Haiyang Zhang^*, Xuezhi Zhang^*，Removal of cyanobacteria using novel pre-pressurized coagulation: The effect of cellular properties and algogenic organic matter characteristics,Separation and Purification Technology, 2022, 282: 119927.

(20)Haiyang Zhang, Ting Gong, Jing Li, Bo Pan, Qiang Hu, Ming Duan^*, Xuezhi Zhang^*, Study on the Effect of Spray Drying Process on the Quality of Microalgal Biomass: a Comprehensive Biocomposition Analysis of Spray-Dried S. acuminatus Biomass,BioEnergy Research, 2021

(21)Zhe Lin, Chengxuan Li, Jiaheng Liu, Zhili Yang,Haiyang Zhang*, An effective process of harvestingChlorella sp.biomass for bioresource by rapid flocculation in a helical tube,Desalination and Water Treatment, 2021, 221: 440-445.

(22)Xiaomiao Zang^#,Haiyang Zhang^#, Qingling Liu, Lili Li, Lin Li, Xuezhi Zhang^*, Harvesting ofMicrocystis flos-aquaeusing chitosan coagulation: Influence of proton-active functional groups originating from extracellular and intracellular organic matter,Water Research, 2020, 185: 116272.

(23)Lin Yang^#,Haiyang Zhang^#, Shaozhe Cheng, Wen Zhang^*, Xuezhi Zhang^*, Enhanced microalgal harvesting using microalgae-derived EPS as flocculation aid,ACS Sustainable Chemistry & Engineering, 2020, 8: 4069-4075.

(24)Haiyang Zhang,  Lin Yang, Xiaomiao Zang, Shaozhe Cheng, Xuezhi Zhang^*, Effect of shear rate on floc characteristics and concentration factors for the harvesting ofChlorella vulgarisusing coagulation-flocculation-sedimentation,Science of The Total Environment, 2019, 688: 811-817.

(25)HaiyangZhang, Xuezhi Zhang^*, Microalgal harvesting using foam flotation: A critical review,Biomass and Bioenergy, 2019, 120(1): 176~188.

(26)Daoyong Tan,Haiyang Zhang*, Shiyong Sun, Faqin Dong, Hongjuan Sun, BowenLi, Rapid flocculation-sedimentation of microalgae with organosilane-functionalized halloysite,Applied Clay Science, 2019, 177(1): 37-42.

(27)Haiyang Zhang^*, Chunhua Liu, Yang Ou, Ting Chen, Lan Yang, Zicheng Hu, Development of a helical coagulation reactor for harvesting microalgae,Journal of Bioscience and Bioengineering, 2019, 127(4): 447~450.

(28)Haiyang Zhang^*, Yang Ou, Ting Chen, Lan Yang, Zicheng Hu, HarvestingChlorella vulgarisvia rapid sedimentation induced by combined coagulants and tapered shear.Biotechnology Letters, 2018, 40(4): 697-702.

(29)HaiyangZhang, Zhe Lin^*, Daoyong Tan, Chunhua Liu, Yali Kuang, Li Zhu, A novel method to harvestChlorella sp.by co-flocculation/air flotation,Biotechnology Letters, 2017, 39(1): 79~84.

(30)HaiyangZhang, Yali Kuang^*, Guanghui Wang, Li Ji, Soft sensor model for coal slurry ash content based on image gray characteristics,International Journal of Coal Preparation and Utilization, 2014, 34(1): 24-37.

(31)张海阳^*，刘春华，匡亚莉，林喆，基于泡沫浮选的能源微藻采收实验研究，可再生能源，2016，34(2): 268-273。

(32)张海阳，匡亚莉^*，林喆，微藻絮凝条件优化及絮体结构特征研究，可再生能源，2013，31(12)：97-102。

(33)张海阳，匡亚莉^*，林喆，能源微藻采收技术研究进展，化工进展，2013，32(09):2092-2098。

(34)张海阳，匡亚莉^*，林喆，刘春华，王英，小球藻细胞表面特性研究，中国矿业大学学报，2013，42(01):112-116。

(35)Hai Yang Zhang, Ya Li Kuang^*, Zhe Lin, Influence on surface characteristics of microalgae cell by solution chemistry, International Conference on Advanced Engineering Materials and Technology (AEMT2011),International Conference on Civil Engineering and Building Materials(CEBM2011), 2011.7.29-2011.7.31.

专利：

(1)张海阳，张学治，李静，程绍哲，李莉莉，于桐柏，一种水体应用的蓝藻快速预浓缩装置及方法，ZL202110637684.6,发明专利

(2)张海阳，张学治，程绍哲，李静，一种应用于压力溶气系统快速测试释气量的装置，ZL202220753671.5，实用新型

(3)张海阳，张学治，李莉莉，程绍哲，李成，一种水体中藻类原位气浮清除系统，ZL202220753660.7，实用新型

(4)张海阳,谭道永,孙仕勇,有机硅烷改性埃洛石用于收获能源微藻细胞的方法，ZL201810450267.9,发明专利.

(5)林喆,匡亚莉,张海阳,一种环流溶气共聚气浮系统及工艺, 2013.09.11中国，ZL201210227135.2,发明专利.

(6)张海阳，张学治，程绍哲，李静，一种消除藻源有机物抑制的水体中藻类强化混凝去除方法，CN202210345284.2,发明专利.

(7)张学治，张海阳，杨琳，程绍哲，一种水体中微藻的原位收集装置及方法, CN201811487478,发明专利.

Water Research、Bioresource Technology等国内外学术期刊审稿人、国家自然基金等项目评审专家等。

协助指导博士研究生4名，指导硕士研究生13名（含联合培养）。