[1]. 环境污染调查与风险评估

[2]. 固废堆填场渗漏污染防治

[3]. 工程渣土低碳改良与应用

[4]. 固废再生产品长效性评价

[1]. 中国科学院战略先导C类课题. 铀矿储层改造-地浸开采联合技术与工程示范. 课题负责人, 2024.7-2027.6

[2]. 国家自然科学基金青年项目：酸雨长期侵蚀下重金属污染土固化体蚀变机制与长效性评价模型，项目负责人，执行时间：2022.01-2023.12

[3]. 国家重点研发计划子课题：锰基固废堆场渗漏精准探测与靶向封堵技术，子课题负责人，执行时间：2022.11-2026.10

[4]. 国家重点研发计划子课题：盾构土多污染固定削减功能材料长效性评价，子课题负责人，执行时间：2023.11-2026.12

[5]. 2024“武汉英才”计划优秀青年人才项目，2024.11-2026.12

[6]. 中英国际合作科研项目课题，Sustainable Management of Small-Scale Mines: China’s Experience and International Implications for Ecological and Social Impacts，课题负责人，2025.10-2026.12

[7]. 湖北省科技创新基地计划，复杂地质条件下固废堆填场渗漏污染立体防治技术，项目负责人，2025.08-2027.08

[8]. 博士后面上基金：固化稳定处置废弃尾矿工程性能及环境风险研究，项目负责人，执行时间：2018.10-2019.09

[9]. 岩土力学与工程国家重点实验室开放基金：侵蚀过程重金属污染土固化体性能演化规律及损伤机制，项目负责人，执行时间：2018.1-2019.12

[10]. 技术服务项目：基于渗漏通道阵列探测与污染溯源分析技术的磷石膏堆场（松滋肥业）环境风险精准识别及立体防控效能提升项目，项目负责人，2025.08-2027.12

[11]. 技术服务项目:金丽温高速公路东延线3标工程渣土固化，执行负责人，执行时间：2021.6-2021.12

[12]. 技术服务项目:赤壁市垃圾填埋厂环境治理建设项目场地调查服务，项目负责人，执行时间：2021.03-2023.03

[13]. 技术服务项目:安陆市城区生活垃圾填埋场封场前期服务场地环境污染调查，项目负责人，执行时间：2021.11-2022.5

[14]. 技术服务项目:宜都市老虎洞废弃矿山生态修复项目环境本底调查技术服务,项目负责人，执行时间： 2023.12-2024.12

[15]. 技术服务项目：幕阜山区耕地土壤重金属污染成因排查与分析样品采集及流转项目，执行负责人，执行时间：2023.07-2024.12

[1]. Wang, P., Jiang, X., Duan, S., Han, L., Li, J., Xiong, J., Zhang, J. Anti-seepage reinforcement property and pollution control effect of bio-cemented fracture zone in electrolytic manganese residue dump. Science of the Total Environment 2025, 958, 177928.

[2]. Wang, P., Li, J., Hu, Y., Cheng, H. Environmental performance of unfired bricks produced from co-disposal of mine tailings and municipal solid waste incineration fly ash based on comprehensive leaching tests. Environmental Pollution 2024, 347, 123795.

[3]. Wang P, Li J, Hu Y, Cheng H. Solidification and stabilization of Pb-Zn mine tailing with municipal solid waste incineration fly ash and ground granulated blast-furnace slag for unfired brick fabrication. Environmental Pollution 2023; 321: 121135.

[4]. Wang P, Hu Y, Cheng H. Municipal solid waste (MSW) incineration fly ash as an important source of heavy metal pollution in China. Environmental Pollution 2019; 252: 461-475.

[5]. Wang P, Sun Z, Hu Y, Cheng H. Leaching of heavy metals from abandoned mine tailings brought by precipitation and the associated environmental impact. Science of The Total Environment 2019; 695: 133893.

[6]. Xu, C., Wang, P*., Xu, Y., Han, L., Fu, S., Qu, Y., ... & Li, J. Durability and damage mechanisms of electrolytic manganese residue-based grouting materials for seepage prevention in solid waste landfills under simulated service environments. Journal of Environmental Management 2025, 393, 127012.

[7]. Jiang, X., Lang, L., Liu, S., Mu, F., Wang, Y., Zhang, Z., Han, L., Duan, S., Wang, P*., Li, J. Stabilization of iron ore tailing with low-carbon lime/carbide slag-activated ground granulated blast-furnace slag and coal fly ash. Construction and Building Materials 2024, 413, 134946.

[8]. Zhang X, Wang P*, Li J, Gao Y, Liu S, Fu S, et al. Exploring the migration and transformation behaviors of heavy metals and ammonia nitrogen from electrolytic manganese residue to agricultural soils through column leaching test. Environmental Science and Pollution Research 2023; 30, 93199-93212.

[9]. Jiang W, Li J, Ge S, Feng C, Huang X, Wang P*. Investigation on One-Dimensional Nonlinear Thermal Consolidation of Saturated Clay under the Impeded Drainage Boundary. International Journal of Geomechanics 2024; 24. 04023255.

[10]. Tu C, Lang L, Nie X, Yang Y, Liu L, Wang P*, et al. Utilization of ground granulated blast-furnace slag and electrolytic manganese residue as a low-carbon cementitious material. Journal of Sustainable Cement-Based Materials 2023: 1-12.

[1]. 湖北省科技进步奖一等奖，陈旧型垃圾填埋场污染防控与修复的关键技术，排名第九，2020.12

[2]. 长江科学技术二等奖，长江流域在产化工园区 污染原位监测预警与防 控修复关键技术及装备，排名第五，2025.12。

[3]. 第48届日内瓦国际发明奖银奖，垃圾填埋场好氧通风系统优化调控，排名第三，2023.04

[4]. 中国科学院院长奖优秀奖，2017