工作单位:海洋工程与技术学院

专业资格:助理研究员/博士后

电子邮箱:linjliang7@mail.sysu.edu.cn

研究方向:海洋动力过程与海岸工程

 

个人详细信息:

林建良,男,广东佛山人,中共党员,2022年获荷兰代尔夫特理工大学(Delft University of Technology)和华东师范大学博士学位。主要从事河口-陆架-大洋系统动力地貌演变与预警保障技术研究,主持国家自然科学基金(青C)、广东省自然科学基金(面上)等项目,参与国家自然科学基金重点项目、科技部政府间(中荷)国家重点研发专项、中荷战略科学联盟计划项目等多项国家或国际合作重点项目,研究成果在Communications Earth & EnvironmentJournal of HydrologyEngineering Applications of Computational Fluid Mechanics等期刊发表论文30余篇,申请发明专利11项(授权4项)。

 

教育经历

2010.09-2014.07,中山大学,海洋学院,海洋科学,学士

2014.09-2022.07,华东师范大学,河口海岸全国重点实验室,河口海岸学,博士

2017.11-2022.07,代尔夫特理工大学,土木工程学院,水利工程,博士

 

工作经历

2022.07-2023.02,代尔夫特理工大学,土木工程学院,访问学者

2023.04-至今,中山大学,海洋工程与技术学院,助理研究员/博士后

 

荣誉与奖励情况:

[1] 2022年华东师范大学优秀博士学位论文

[2] 2022年华东师范大学地球科学学部优秀博士学位论文

[3] 2017年国家留学基金委国家建设高水平公派研究生项目奖学金

 

科研项目:

[1]   2026.01-2028.12,广东省自然科学基金面上项目,珠江磨刀门河口潮汐不对称长期演变及其对用水安全的影响研究,在研,主持。

[2]   2025.06-2025.10,湛江市蓝色海洋产业发展有限公司技术服务项目,湛江市流沙湾1号海域现代化海洋牧场建设项目水文波浪分析服务,在研,主持。

[3]   2025.01-2027.12,国家自然科学基金(青C),长江口北支悬沙净输运对滩槽格局异变的响应及其机制,在研,主持。

[4]   2024.04-2024.05,广东省水利水电科学研究院技术服务项目,北江泥沙颗粒与浮游藻类的耦合絮凝沉降机制研究,结题,主持。

 

代表性论文及专利:

发表论文:

[1] Wang, Y.§, Lin, J.§, Yan, Y., Zeng, Z., Liu, X., Wang, S., She, Z., Huang, Z., Sun, P., Zhao, T., Lin, K., Coco, G.*, Cai, H.*, 2025. Spatial transmission of resilience loss in deltaic dynamic systems. Communications Earth & Environment, 6, 530. (地球科学综合一区Top,共一)

[2] Lin, J., Hu, S., Zhang, P., Fu, L., He, X., Cai, H., Niu, L., Zhang, X., Yang, Q., 2025. Spring-neap variations in tidal duration asymmetry in the Pearl River Estuary: Dominant tidal combinations and long-term evolution. Journal of Hydrology, 661, 133684. (水资源一区Top)

[3] Lin, J.*, Zhu, C., Sun, J., Xie, W., van Prooijen, B., Guo, L., He, Q.*, Yang, Q., Wang, Z.B., 2025. A novel approach for wave-turbulence decomposition. Coastal Engineering, 201, 104807. (海洋工程一区Top)

[4] Wang, Y., Lin, J.*, Yan, Y., Wang, S., She, Z., Jin, C., Lin, K., Zhao, T., Coco, G., Cai, H., 2025. Unraveling river-tide process connectivity in complex deltaic networks. Journal of Hydrology, 663, 134301. (水资源一区Top)

[5] Li, B., Yang, H., Cai, H., Ou, S., Liu, F., Zhao, T., Lin, K., Lin, J.*, 2025. Regime shift in river-tide dynamics of longitudinal and transverse channels over the Pearl River Delta, China. Journal of Hydrology, 662, 133883. (水资源一区Top)

[6] Zhang, P., Liu, H., Cai, H., Ou, S., Dai, Z.*, Lin, J.*, Yang, Q., 2025. Frequent estuarine engineering exacerbates flood risk in the Greater Bay Area. Engineering Applications of Computational Fluid Mechanics, 19:1, 2528535. (工程技术一区Top,共同通讯)

[7] Zhang, P., Yang, Q., Liu, H., Dai, Z.*, Lin, J.*, Zhang, X., Cai, H., 2025. Tracking hydrodynamic variation in a tide-dominant estuary over the past half-century. Journal of Hydrology, 663, 134191. (水资源一区Top,共同通讯)

[8] Lin, J., Chen, H., He, X., Hu, S., Fu, L., Cai, H., Niu, L., Zhang, X., Li, X., Zhang, P.*, Yang, Q.*, 2026. Cascade reservoirs attenuate the seasonality of estuarine tidal duration asymmetry. Journal of Hydrology: Regional Studies, 64, 103153. (水资源二区Top)

[9] Lin, J., van Prooijen, B.C., Zhu, C., Guo, L., He, Q.*, Wang, Z.B., Yang, Q., 2025. Deepening and narrowing impacts on circulation, stratification, and sediment transport in the Changjiang Estuary. Frontiers in Marine Science, 12, 1598417. (海洋与淡水生物学二区)

[10] Zhao, S., Tian, Y., Zhong, Y., Lin, J.*, Niu, L., Yang, Q., 2026. Hydro-sedimentary conditions shape the microplastic occurrence in sediments of the Pearl River Estuary (China). Marine Pollution Bulletin, 222, 118894. (海洋环境二区)

[11] Luo, Y., Zhao, S., Tan, Q., Guo, H., Lin, J.*, Chen, H., Jiao, J., Nie, H., Huang, S., Niu, L., 2025. Determinants and dynamic mechanisms of microbial communities in mangrove sediments of the Qingjiang estuary.  Plant and Soil. https://doi.org/10.1007/s11104-025-07961-y (农林科学二区)

[12] Li, B., Yang, H., Liu, J., Liu, F., Ou, S., Lin, J.*, Cai, H., 2025. Unraveling contributors to stepwise water level variations in the Zhujiang River Estuary. Acta Oceanologica Sinica, 44(11), 50-68. (海洋学二区)

[13] Lin, J., He, Q.*, Guo, L., van Prooijen, B.C., Wang, Z.B., 2020. An integrated optic and acoustic (IOA) approach for measuring suspended sediment concentration in highly turbid environments. Marine Geology, 421, 106062. (海洋学二区)

[14] Lin, J., van Prooijen, B.C., Guo, L., Zhu, C., He, Q.*, Wang, Z.B., 2021. Regime shifts in the Changjiang (Yangtze River) Estuary: The role of concentrated benthic suspensions. Marine Geology, 433, 106403. (海洋学二区)

[15] 林建良何青*, 杨清书邓智瑞, 2017. 珠江磨刀门河口洪季泥沙絮凝机理研究.泥沙研究, 42(01), 60-67.

[16] Zhou, S., Zhu, C.*, Lin, J., Xie, W., Zhang, N., Guo, L., He, Q., 2025. Multi-asymmetry on residual sediment transport in the branching channels of the Yangtze Estuary. Journal of Hydrology, 655, 132947. (水资源一区Top)

[17] Fu, L., Zhong, Y., Zhang, P., Niu, L., Zhang, X., Lin, J., Cai, H., Yang, Q.*, 2025. The evolution and morphodynamic characteristics of shoals and troughs in Lingdingyang Bay of the Pearl River Estuary. Frontiers in Marine Science, 12, 1525805. (海洋与淡水生物学一区Top) 

[18] Jiang, J., Xie, W., Zhang, N., Xu, Y., Zhu, C., Lin, J., Guo, L., Shen, J., He, Q.*, 2024. Mechanism of rapid accretion-erosion transition in a complex hydrodynamic environment based on refined in-situ data. Frontiers in Marine Science, 11, 1375085. (海洋与淡水生物学一区Top)

[19] Hu, S., Zhang, P., Cai, H., Ou, S., Liu, F., Lin, J., Yang, Q.*, 2024. Long-term evolution and controlling factors of tidal duration asymmetry in the mainstream of the Zhujiang River Estuary, China. Ocean & Coastal Management, 256, 107289.  (海洋学一区

[20] Zhu, C., van Maren, D.S., Guo, L., Lin, J., He, Q.*, Wang, Z.B., 2022. Feedback effects of sediment suspensions on transport mechanisms in an estuarine turbidity maximum. Journal of Geophysical Research: Oceans, 127, e2021JC018029. (海洋学二区Top)

[21] Zhu, C., van Maren, D.S., Guo, L., Lin, J., He, Q.*, Wang, Z.B., 2021. Effects of sediment-induced density gradients on the estuarine turbidity maximum in the Yangtze Estuary. Journal of Geophysical Research: Oceans, 126, e2020JC016927. (海洋学二区Top)

[22] Zhang, P., Fu, L., Li, X., Lin, J., Cai, H., Dai, Z.*, 2026. Anthropogenic disturbances drive stepwise geomorphic changes of shoal-channel systems in a tide-dominated estuary. Marine Geology, 492, 107694. (海洋学二区)

[23] Sun, J., van Prooijen, B., Wang, X., Hanssen, J., Xie, W., Lin, J., Xu, Y., He, Q.*, Wang, Z., 2024. Sources of suspended sediments in salt marsh creeks: Field measurements in China and the Netherlands. Geomorphology, 456, 109206. (自然地理二区)

[24] Wu, X., He, Q.*, Shen, J., Peng, Z., Guo, L., Xie, W., Lin, J., 2024. Different effects between cold front and tropical cyclone on short-term morphodynamics in the Changjiang Delta. Journal of Marine Systems, 243, 103961. (海洋与淡水生物学三区)

[25] 牛丽霞郭泓瀛王国娟林建良傅林曦张一帆*, 2025. 考洲洋红树林区沉积物重金属污染特征及风险分析环境化学, 44(12), 1-10.

[26] 董坚何青*, 林建良陈嘉民周思敏徐凡谢卫明郭磊城, 2023. 长江口特大洪水浑浊带悬沙粒度分布特征海洋通报, 42(01), 48-58.

[27] 张迨何青*, 谢卫明郭磊城林建良, 2022. 长江口浑浊带至口外海滨输沙变化研究长江流域资源与环境, 31(12), 2682-2692.

[28] 蒋杰何青*, 朱磊林建良, 2019. 长江口浑浊带核心区北槽水动力特征研究海洋学报, 41(01), 11-20.

[29] 陈语何青*, 张雨宁林建良, 2019.长江口浑浊带洪季悬沙粒度分布特征.泥沙研究, 44(05), 48-55.

[30] 邓智瑞何青*, 杨清书林建良, 2015. 珠江口磨刀门泥沙絮凝特征海洋学报, 37(09), 152-161.

 

发明专利:

[1] 林建良何青王正兵朱春燕孙健伟谢卫明郭磊城一种基于高频水位和三维流速数据的湍流和波浪分离方法上海市, CN115453143B[P]. 2024-07-09

[2] 林建良胥宇童杨清书傅林曦牛丽霞张晓鹤贾良文刘锋蔡华阳任磊魏稳欧素英邓智瑞一种水体密度梯度诱导斜压流的观测装置广东省, CN118794649A[P]. 2024-10-18

[3] 林建良王书献陈浩蔚张萍徐灵基蔡华阳牛丽霞杨清书基于温度链浮标数据的海洋内波参数反演方法及系统广东省, CN121279182A[P]. 2026-01-06

[4] 张一帆林建良汪钰明牛丽霞杨清书罗勇张晓鹤傅林曦蔡华阳一种基于低空遥感及动力地貌过程的红树林生态修复方法广东省, CN118968336A[P]. 2024-11-15

[5] 牛丽霞郭泓瀛林建良王国娟赵司玥蔡华阳贾良文杨清书一种海岸带陆海统筹健康状况分级评价方法及装置广东省, CN118395268A[P]. 2024-07-26

[6] 张晓鹤钟子骏傅林曦林建良一种基于单片机的滨海湿地地表高程智能测量装置及方法广东省, CN120141397A[P]. 2025-06-13

[7] 任磊庞礼铧王和旭林建良韦骏一种热带气旋移动路径的估算方法及系统广东省, CN117609942B[P]. 2024-09-10

[8] 任磊周贝诺王和旭林建良韦骏一种风速预测方法、系统及电子设备广东省, CN117494573B[P]. 2024-06-11

[9] 任磊苏杨王和旭贾良文蔡华阳林建良一种海面风场重构方法及系统广东省, CN117665824B[P]. 2024-08-20

[10] 张晓鹤何贤钊黄颖怡张思佳焦少泽林建良杨清书一种基于智能图像识别的多维水体浊度反演方法及系统广东省, CN118968275A[P]. 2024-11-15

[11] 贾良文刘德政刘锋蔡华阳魏稳牛丽霞林建良一种海岸带空间资源立体化高效利用状况评价方法及装置广东省, CN119151329A[P]. 2024-12-17