海滩养护修复研究团队

[1]Chi Shanhang, Zhang Chi, Zheng Jinhai. Sandy shoreline recovery ability after breakwater removal. Frontiers in Marine Science, 2023, 10, 1191386.

[2]Titi Sui, B. Mutlu Sumer, Ozgur V.S. Kirca, Stefan Carstensen, Jinhai Zheng, David R. Fuhrman. Effect of history of wave exposure on seabed liquefaction. Coastal Engineering, 2023, 183, 104307.

[3]Chen Shubin, Li Yuan, Zhang Chi, Zhu Huimin, Li Qinyi, Shi Jian. Effects of currents on nonlinear wave transformation in a reef-lagoon-channel system. Ocean Engineering, 2023, 114640.

[4]Li Yuan, Zhang Chi, Qi Hongshuai, Song Jiacheng, Dai Weiqi, Chi Shanhang, Shi Jian, Chen Dake. Analysis of wave shoaling and shore-breakers on a low tide terrace beach based on in-situ measurements at Xisha Bay on south China coast. Acta Oceanologica Sinica, 2023, in press.

[5]李元, 张弛*. 近岸人工沙坝的剖面演变规律和泥沙输运机制研究综述. 海洋学报, 2023. (in press)

[6]Chi Shanhang, Zhang Chi*, Wang Ping, Shi Jian, Li Fangming, Li Yuan, Wang Peng, Zheng Jinhai, Sun Jiawen, Nguyen Viet Thanh. Morphological evolution of paired sand spits at the Fudu river mouth: Wave effects and anthropogenic factors. Marine Geology, 2023, 456, 106991.

[7]Cao Xiangming, Shi Jian*, Zhang Chi, Zheng Jinhai. Inter-comparison of wave skewness and asymmetry estimation using wavelet, Fourier and statistical methods. Ocean Engineering, 2023, 268, 113382.

[1]Liu Ye, Yao Yu, Liao Zhiling, Li Shaowu, Zhang Chi, Zou Qingping. Fully nonlinear investigation on energy transfer between long waves and short-wave groups over a reef. Coastal Engineering, 2022, 179, 104240.

[2]Li Yuan, Zhang Chi, Song Jiacheng, Chi Shanhang, Zhao Shaohua, Qi Hongshuai, Shi Jian. Tide-modulated wave characteristics and breaking regimes in the intertidal zone of a dissipative beach. Ocean Engineering, 2022, 266, 113055.

[3]Chen Dake, Zheng Jinhai, Zhang Chi, Guan Dawei, Li Yuan, Huang Huiming. Threshold of surface erosion of cohesive sediments. Frontiers in Marine Science, 2022, 9: 847985.

[4]Yang Haoye, Zhang Chi, Shi Jian, Cao Xiangming, Li Yuan. Laboratory observations of swash signatures using video imagery. Journal of Marine Science and Engineering, 2022, 10(12), 1833.

[5] Titi Sui, Ozgur V.S. Kirca, B. Mutlu Sumer, Stefan Carstensen, David R. Fuhrman. (2022). Wave induced liquefaction in a silt and sea shell mixture. Coastal Engineering, 104215.

[6]Li Yuan, Zhang Chi, Chi Shanhang, Yang Yunhan, Shi Jian, Sui Titi. Numerical test of scale relations for modelling coastal sandbar migration and inspiration to physical model design. Journal of Hydrodynamics, 2022, 34, 700-711.

[7]Jian Shi, Wei Liu, Jinhai Zheng*, Chi Zhang, Xiangming Cao. Non-hydrostatic modelling of regular wave transformation and current circulation in an idealized reef-lagoon-channel system. Acta Oceanologica Sinica. 2022, 41(10): 1-13.

[8]郑金海, 张弛. 海滩养护动力地貌基础理论与关键技术研究述评. 海洋与湖沼, 2022, 53(4): 791-796.

[9]Yuan Li, Chi Zhang*, Shubin Chen, Titi Sui, Dake Chen, Hongshuai Qi. Influence of artificial sandbar on nonlinear wave transformation: Experimental investigation and parameterizations. Ocean Engineering, 2022, 257, 111540.

[10]张弛, 卜鑫涛, 刘建辉, 李元, 隋倜倜, 陈大可. 考虑水沙和风沙过程的海滩—沙丘耦合演变数学模型研究综述, 河海大学学报（自然科学版）, 2022, 50(3): 81-90.

[11]Zhang Xuan*, Simons Richard, Zheng Jinhai, Zhang Chi. A review of the state of research on wave-current interaction in nearshore areas. Ocean Engineering, 2022, 243, 110202.

[12]Zhang Xuan*, Simons Richard, Buldakov Eugeny, Maclver Ruairi, Zheng Jinhai, Zhang Chi. Experimental investigation of time-invariant eddy viscosity in wave-current interaction. Experimental Thermal and Fluid Science, 2022, 135, 110627.

[13]尹航, 戚洪帅*, 蔡锋, 张弛, 刘根, 赵绍华, 宋嘉诚, 赵国润. 高分影像砂质海岸线精细提取及校正方法, 海洋学报, 2022, 44(4): 143-152.

[14]宋嘉诚, 戚洪帅*, 张弛, 蔡锋, 尹航. 潮汐影响下海滩前滨波浪传播耗能过程分析. 热带海洋学报, 2022, 41(4): 146-153.

[15]Yuan Li, Chi Zhang, Weiqi Dai, Dake Chen, Titi Sui, Mingxiao Xie, Songgui Chen. Laboratory investigation on morphology response of submerged artificial sandbar and its impact on beach evolution under storm wave condition. Marine Geology, 2022, 443, 106668.

[1]Zhang Lianjie, Yan Jishun, Zhao Bo, Lin Xia, Wang Peng, Zhang Chi, Yu Yonghai, Zhang Pan. The rapidly evolving Fudu Estuary sandbar lagoon landform on the east coast of the Bohai Sea: Recent changes and mechanism. Journal of Marine Science and Engineering, 2021, 9(12), 1350.

[2]王建平, 马明英, 陈松贵, 张弛, 郑金海. 规则波作用下珊瑚礁直立式护岸波浪力大比尺模型实验研究[J]. 水道港口, 2021, 42(4): 427-434.

[3]Dake Chen, Jinhai Zheng, Chi Zhang, Dawei Guan, Yuan Li, Yigang Wang (2021). Critical shear stress for erosion of sand-mud mixtures and pure mud. Frontiers in Marine Science, 8: 713039.

[4]Zhang Chi*, Li Yuan, Zheng Jinhai*, Xie Mingxiao, Shi Jian, Wang Gang. Parametric modelling of nearshore wave reflection. Coastal Engineering. 2021, 169, 103978.

[5]Shanhang Chi, Chi Zhang, Titi Sui, Zhubin Cao, Jinhai Zheng and Jiangshan Fan (2021). “Field observation of wave overtopping at sea dike using shore-based video images”. Journal of Hydrodynamics, 33(4), 657-672.

[6]Zhang Yao*, Huang Wanru, Liu Xunan, Zhang Chi, Xu Guodong*, Wang Bin. Rip current hazard at coastal recreational beaches in China. Ocean and Coastal Management, 2021, 210, 105734.

[7]杨子希, 袁春光, 张弛*, 张华庆, 欧阳群安. 基于系列模型试验的波流共同作用下单桩冲刷及防护措施研究. 水道港口, 2021, 42(1): 30-38.

[8]Zhang Chi*, Li Yuan, Cai Yu, Shi Jian, Zheng Jinhai*, Cai Feng, Qi Hongshuai. Parameterization of nearshore wave breaker index. Coastal Engineering. 2021, 168, 103914.

[9]Yuan Li, Chi Zhang*, Yu Cai, Mingxiao Xie*, Hongshuai Qi and Yigang Wang. 2021. Wave dissipation and sediment transport patterns during shoreface nourishment towards equilibrium. Journal of Marine Science and Engineering, 9, 535.

[10]Xiangming Cao, Jinhai Zheng*, Jian Shi, Chi Zhang and Jisheng Zhang. 2021. Evaluating the influence of slope limiters on nearshore wave simulation in a non-hydrostatic model. Applied Ocean Research, 112, 102683.

[11]Dake Chen, Bruce Melville, Jinhai Zheng, Yigang Wang, Chi Zhang*, Dawei Guan & Cheng Chen. (2021). Pickup rate of non-cohesive sediments in low-velocity flows. Journal of Hydraulic Research, DOI: 10.1080/00221686.2020.1871430.

[12]Yuan Li, Chi Zhang*, Dake Chen, Jinhai Zheng, Jiawen Sun, Peng Wang. (2021). Barred beach profile equilibrium investigated with a process-based numerical model. Continental Shelf Research, 222, 104432.

[13]Titi Sui, Leon Heine Staunstrup, Stefan Carstensen, David R. Fuhrman*. (2021). Span shoulder migration in three-dimensional current-induced scour beneath submerged pipelines. Coastal Engineering, 164, 103776.

[14]Xie Mingxiao*, Zhang Chi*, Li Jinzhao, Li Shan, Yang Zhiwen, Zhang Huaqing*. Flow Structure and Bottom Friction on the Non-linear Turbulent Boundary Layer under Stormy Waves. Coastal Engineering, 2021, 164, 103811.

[15]Xie Mingxiao, Li Shan, Zhang Chi, Yang Zhiwen, Hou Zhiqiang, Zhang Huaqing*. Investigation and discussion on the beach morphodynamic response under storm events based on a three-dimensional numerical model. China Ocean Engineering, 2021, 35(1): 12-25.

[16]陆旭, 张弛*, 时健, 李方明, 张尧. 我国海滩游客安全事故数据库和事故特征分析. 海洋开发与管理, 2021, 6: 3-11.

[1]沈晖华, 时健, 徐佳丽, 朱士鹏, 郑金海. 基于Stacking集成机器学习的波浪预报研究. 河海大学学报(自然科学版), 2020, 4: 354-358.

[2]Zhubin Cao, Chi Zhang, Shanhang Chi, Lei Zhuang, and Jinhai Zheng (2020). “Video-based Monitoring of an Artificial Beach Nourishment Project”. Journal of Coastal Research, 95(sp1), 1037-1041.

[1]Titi Sui, Yu Jin, Zhaojun Wang, Chi Zhang*, Jian Shi. 2019. Effects of the Soil Property Distribution Gradient on the Wave-Induced Response of a Non-Homogeneous Seabed. Journal of Marine Science and Engineering, 7(8), 281.

[2]徐佳丽, 时健, 张弛, 郑金海, 张继生, 陈天. 近40年中国近海波浪数据库的建立及极值分析. 海洋工程, 2019, 37(6): 94~103.

[3]陈松贵, 王泽明, 张弛, 陈汉宝, 郑金海*. 珊瑚礁地形上直立式防波堤越浪大水槽实验研究. 科学通报, 2019, 64(Z2): 3049-3058.

[4]陈可锋*, 郑金海, 陆培东, 王艳红, 张弛, 王乃瑞. 南黄海辐射沙脊群形成演变的动力地貌过程数值模拟. 水科学进展, 2019, 30(2): 230-242.

[5]陈松贵, 陈汉宝, 赵洪波, 郑金海, 张弛. 珊瑚礁地形上胸墙波浪力大水槽试验. 河海大学学报(自然科学版), 2019, 47(1): 65-70.

[6]Chi Zhang, MingXiao Xie, JiaWen Sun, Peng Wang, WenZhang Fan and PengFei Xu. Numerical Analysis of the Erosion Mechanism for Beach Nourishment : A Case Study. Coastal Sediments 2019, pp. 399-411.

[7]DaKe Chen, Bruce Melville, Chi Zhang, HuiMing Huang, YiGang Wang, JinHai Zheng and KeFeng Chen. Laboratory Investigations of Erosion of Pure Kaolinite Clay. Coastal Sediments 2019, pp. 1778-1786.

[8]Yuan Li, Chi Zhang, Yu Cai, ZeMing Wang, HaoYe Yang, SongGui Chen, HongShuai Qi and JiaWen Sun. Experimental Observations of Artificial Sandbar Response to Large Waves. Coastal Sediments 2019, pp. 347-355.

[9]ZhuBin Cao, Chi Zhang, HongShuai Qi, Yao Zhang, JinHai Zheng and ShanHang Chi. Numerical Investigation of the Irregular Wave-induced Sediment Transport Processes. Coastal Sediments 2019, pp. 447-456.

[10]Shi Jian, Shi Fengyan, Zheng Jinhai*, Zhang Chi, Malej Matt, Wu Guoxiang. Interplay between Grid Resolution and Pressure Decimation in Non-hydrostatic Modeling of Internal Waves. Ocean Engineering, 2019b, 186, 106110.

[11]Shi Jian, Zheng Jinhai*, Zhang Chi*, Antoine Joly, Zhang Wei, Xu Pengfei, Sui Titi. A 39-year high resolution wave hindcast for the Chinese coast: Model validation and wave climate analysis. Ocean Engineering, 2019a, 183, 224-235.

[12]Shi Jian, Tong Chaofeng, Zheng Jinhai*, Zhang Chi*, Gao Xiangyu. Kelvin-Helmholtz Billows Induced by Shear Instability along the North Passage of the Yangtze River Estuary, China. Journal of Marine Science and Engineering, 2019, 7(92): doi:10.3390/jmse7040092.

[13]Kim Bastian, Stefan Carstensen, Titi Sui, David R Fuhrman. Generalized time scale for wave-induced backfilling beneath submarine pipelines. Coastal Engineering, 2019, 143, 113-122.

[14]Sui Titi, Zhang Chi*, Jeng Dongsheng, Guo Yakun, Zheng Jinhai, Zhang Wei, Shi Jian. Wave-induced seabed residual liquefaction around a mono-pile foundation with various embedded depth. Ocean Engineering, 2019, 173, 157-173.

[1]Zhang Chi*, Zhang Qingyang, Lei Gang, et al. Wave nonlinearity correction for parametric nearshore wave modelling. Journal of Coastal Research, 2018, SI85, 996-1000.

[2]Shi Jian, Zhang Chi*, Zheng Jinhai, et al. Modelling wave breaking across coral reefs using a non-hydrostatic model. Journal of Coastal Research, 2018, SI85, 501-505.

[3]Sui Titi, Zhang Chi*, Zheng Jinhai, et al. Numerical study of standing wave-induced seabed residual response with the non-homogeneous soil property. Journal of Coastal Research, 2018, SI85, 921-925.

[4]Chen, Dake, Wang, Y., Bruce Melville, Huang, H., Unified formula for critical shear stress for erosion of sand, mud and sand-mud mixtures. Journal of Hydraulic Engineering, ASCE, 2018, 144(8): 04018046.

[5]隋倜倜, 张弛*, 高玉峰, 郑金海. 波浪作用下单桩基础周围海床液化机制研究. 海洋工程, 2018, 36(4): 88-96.

[1]Zhang Chi, Zhang Qingyang, Zheng Jinhai, Demirbilek Zeki. Parameterization of nearshore wave front slope. Coastal Engineering, 2017, 127: 80-87.

[2]Li-Hua Chen, Rui Han, Huan Zhang, Xiang-Hong Xu, Hong-Bo Shao, Ming-Yue Wang, Yao Cheng, Xiao-Hou Shao. Irrigating-continuous cropping with D9 fortified waste water could control the Fusarium wilt of Artemisia selengens. Applied Soil Ecology, 113, 2017, 127-134. 3.

[3]Sui Titi, Zheng Jinhai, Zhang Chi*, Jeng Dong-Sheng, Zhang Jisheng, Guo Yakun*, He Rui. Consolidation of unsaturated seabed around an inserted pile foundation and its effects on wave-induced liquefaction. Ocean Engineering, 2017, 131: 308-321.

[4]Zheng Jinhai, Hoang Quoc Xuyen, Zhang Chi*, Chen Kefeng, Dong Xiaowei, Lei Gang, Wang Yigang. Behavior-oriented calculation of the annual coastal bathymetry evolution caused by a reclamation work. Acta Oceanologica Sinica, 2017, 36(11): 86-93.

[5]Xie Mingxiao, Zhang Chi, Yang Zhiwen, Li Shan, Li Xin, Guo Weijun, Zuo Shuhua. Numerical modeling of the undertow structure and sandbar migration in the surf zone. China Ocean Engineering, 2017, 31(5): 549-558.

[6]Chen Kefeng, Zheng Jinhai, Zhang Chi, Wang Nairui, Zhou Chunyan. The evolution characteristics of main waterway and its control mechanism in the radial sand ridges of the Southern Yellow Sea. Acta Oceanologica Sinica, 2017, 36(3): 91-98.

[7] Shi Jian*, Joly Antoine, Zheng Jinhai, Zhang Jisheng, Chen Tian and Chen Guofei. Development of a Sea-State Database in the Northwest Pacific Ocean by Long-Term Numerical Hindcast Modelling. International Conference on Nuclear Engineering, 2017.

[8]Chen, Dake, Wang, Y., Huang, H., Chen, C., & Yuan, C., A behavior-oriented formula to predict coastal bathymetry evolution caused by coastal engineering. Continental Shelf Research, 2017, 135: 47-57.

[9]时健, 郑金海*, 严以新,王岗. 河口海岸水动力非静压数学模型研究述评. 河海大学学报(自然科学版), 2017, 45(2):167-174.

[1]Zhang Chi, Sui Titi, Zheng Jinhai, Xie Mingxiao, Nguyen Viet Thanh. Modeling wave-induced 3D non-homogeneous seabed response. Applied Ocean Research, 2016, 61: 101-114.

[2]Gu Zhenhua, Zhang Chi^*, Zheng Jinhai. Influences of wave forcing and morphological variability on the evolution of a double sandbar system. Journal of Engineering for the Maritime Environment, 2016, 230(3): 467-480.

[3]Sui Titi, Zhang Chi*, Guo Yakun, Zheng Jinhai, Jeng Dongsheng, Zhang Jisheng, Zhang Wei. Three-dimensional numerical model for wave-induced seabed response around mono-pile. Ships and Offshore Structures, 2016, 11(6): 667-678.

[4]Zhang Jisheng, Sun Ke, Zhai Yanyan, Zhang Huashan, Zhang Chi. Physical study on interactions between waves and a well-mixed seabed. Journal of Coastal Research, 2016, SI75, 198-202.

[5]Wu Guoxiang*, Shi Fengyan, Kirby J. T., Mieras R., Liang Bingchen, Li Huajun and Shi Jian. A prestorage, subgrid model for simulating flooding and draining processes in salt marshes. Coastal Engineering, 2016, 108, 65-78.

[6]Zhang Chi, Sun Yuchen, Zhu Huimin, Chen Jundong, Zhang Qingyang, Li Yuan. Porous seabed response under skewed and asymmetric waves[J]. Proceedings of the 12th Pacific-Asia Offshore Mechanics Symposium (PACOMS2016), 2016, 403-407.

[7]CHEN Li-Hua, ZHENG Jin-Hai, SHAO Xiao-Hou, SHEN Shan-Shan, YU Zhi-Heng, MAO Xin-Yu, CHANG Ting-Ting. Effects of Trichoderma harzianum T83 on Suaeda salsa L. in coastal saline soil. Ecological Engineering, 91, 58–64, 2016.

[8]李诚, 张弛*, 隋倜倜. 浅化波浪层流边界层流速分布特性的数值分析. 海洋学报, 2016, 38(5): 141-149.

[9]吴丹, 张弛*. 随机波浪边界层的数值模拟与分析. 水动力学研究与进展(A辑), 2016, 31(3): 303-310.

[10]陈俊东, 张弛*, 隋倜倜, 郑金海. 波浪加速度不对称性对海床液化的影响. 水利水电科技进展, 2016, 36(4): 20-24.

[1]Zhang Chi, Zhang Qingyang, Wu Zaitian, Zhang Jisheng, Sui Titi, Wen Yuncheng. Numerical study on effects of the embedded monopile foundation on local wave-induced porous seabed response. Mathematical Problems in Engineering, 2015, 184621, doi: 10.1155/2015/184621.

[2]Zhang Wei, Yang Xu, Hoitink Ton, Sassi M.G., Zheng Jinhai, Chen Xiaowen, Zhang Chi. Morphological change in the Pearl River Delta, China. Marine Geology, 2015, 363: 202-219.

[3]张弛, 吴善翔, 王岗, 郑金海. 正六边形及其扩展形状港湾内的水波共振. 计算力学学报, 2015, 32(3): 372-377.

[4]Shi Jian*, Shi Fengyan, Kirby J. T., Ma Gangfeng, Wu Guoxiang, Tong Chaofeng and Zheng Jinhai. Pressure Decimation and Interpolation (PDI) method for a baroclinic non-hydrostatic model. Ocean Modelling, 2015, 96, 265-279.

[5]Chen, Li-Hua, Jie Zhang, Xiao-Hou Shao, Sha-Sha Wang, Qi-Song Miao, Xin-Yu Mao, Ya-Ming Zhai and Dong-Li She. Development and Evaluation of Trichoderma Asperellum Preparation for Control of Sheath Blight of Rice (Oryza Sativa L.).Biocontrol Science and Technology, 25: 316-328, 2015.

[6]隋倜倜，郑金海，张弛.(2015).非均匀土体对波浪作用下单桩周围海床隙水压力分布的影响.第十七届中国海洋（海岸）工程学术讨论文论文集, 广西南宁，中国.

[7]隋倜倜，郑金海，张弛. 2015. 单桩周围海床固结过程三维数值模拟中国力学大会-2015，上海.

[1]Zhang Chi, Zheng Jinhai and Zhang Jisheng. Predictability of wave-induced net sediment transport using the conventional 1DV RANS diffusion model. Geo-Marine Letters, 2014, 34(4): 353-364.

[2]Zheng Jinhai, Zhang Chi, Demirbilek Zeki, and Lin Lihwa. Numerical study of sandbar migration under wave-undertow interaction. ASCE Journal of Waterway, Port, Coastal and Ocean Engineering, 2014, 140 (2): 146-159.

[3]Zhang Jisheng, Zhang Yu, Jeng Dong-Sheng, Philips Liu, and Zhang Chi. Numerical simulation of wave-current interaction using a RANS solver. Ocean Engineering, 2014, 75: 157-164.

[4]Shi Jian, Tong Chaofeng*, Yan Yixin and Luo Xingqi. Influence of varying shape and depth on the generation of tidal bores. Environmental Earth Sciences, 2014, 72(7), 2489-2496.

[5]Jinhai Zheng, Titi Sui* and Chi Zhang. (2014). Effects of Horizontal Nonhomogeneous Soil Property on Local Wave-induced Soil Response. 34th International Conference on Coastal Engineering (ICCE), Seoul, Korea. (EI).

[6]顾振华, 张弛*, 郑金海. 波浪入射条件对双沙坝海岸演变趋势的影响. 泥沙研究, 2014, 6: 68-72.

[1]Zhao Hongyi, Jeng Dong-Sheng, Zhang Yu, Zhang Jisheng, Zhang Huijie and Zhang Chi. 3D numerical model for wave-induced seabed response around breakwater heads. Geomechanics and Engineering, 2013, 5(6): 595-611.

[2]Zhang Jisheng, Zheng Jinhai, Zhang Chi, Jeng Dong-Sheng and Guo Yakun. Numerical study on the interaction between waves and twin pipelines in sandy seabed. Journal of Coastal Research, 2013, SI 65: 428-433.

[3]Zhang Chi, Zheng Jinhai, Dong Xiaowei, Cao Kai and Zhang Jisheng. Morphodynamic response of Xiaomiaohong tidal channel to a coastal reclamation project in Jiangsu Coast, China. Journal of Coastal Research, 2013, SI 65: 630-635.

[4]Zheng Jinhai, Peng Yuxuan, Zhang Chi and Ju Yao. Recent evolution of Jiuduansha Shoal in Yangtze Estuary and its corresponding to engineering projects. Journal of Coastal Research, 2013, SI 65: 1259-1264.

[5]Zhang Jisheng, Zhang Yu, Zhang Chi and Jeng Dong-Sheng. Numerical modeling of seabed response to combined wave-current loading. Journal of Offshore Mechanics and Arctic Engineering. 2013, 135(3). DOI: 10.1115/1.4023203

[6]Shi Jian, Tong Chaofeng* and Yan Yixin. Numerical Assimilation of Wave Data along the Coast of Jiangsu, China. In The Twenty-third International Offshore and Polar Engineering Conference. International Society of Offshore and Polar Engineers, 2013.

[7]CHEN Li-Hua, HUANG Xin-Qi, YANG Xing-Ming, SHEN Qi-Rong. Modeling the Effect of Environmental Factors on the Population of Fusarium oxysporum in Cucumber Continuously Cropped Soil. Communications in Soil Science and Plant Analysis, 44:2219-2232, 2013.

[8]Titi Sui, Jinhai Zheng, Chi Zhang, Jisheng Zhang and Gang Wang. (2013). Wave-Induced Porous Seabed Response around Pile-Group Foundations. 23th International Offshore and Polar Engineering Conference (ISOPE), Alaska, America. (EI).

[9]Titi Sui, Jisheng Zhang, Jinhai Zheng and Chi Zhang. (2013). Modeling of Wave-induced Seabed Response and Liquefaction Potential Around Pile Foundation. 32th International Conference on Ocean, Offshore and Arctic Engineering (OMAE), Nantes, France. (EI).

[1]Nguyen Viet Thanh, Zheng Jinhai and Zhang Chi. Beach profiles characteristics along Giao Thuy and Hai Hau coasts, Vietnam: A field study. China Ocean Engineering, 2012, 26(4): 699-712.

[2]Zheng Jinhai, Wang Tianwen, Wang Gang, Zhang Chenming, and Zhang Chi. Iteration coupling simulation of random waves and wave-induced currents. Journal of Applied Mathematics, 2012. doi:10.1155/2012/205376

[3]Zhang Jisheng, Jeng Dong-Sheng, P L -F Liu, Zhang Chi and Zhang Yu. Response of a porous seabed to water waves over permeable submerged breakwaters with Bragg reflection. Ocean Engineering, 2012, 43: 1-12.

[4]Li-Hua CHEN, Xin-Qi HUANG, Feng-Ge ZHANG, Di-KUN ZHAO, Xing-Ming YANG, SHEN Qirong. Applications of Trichoderma harzianum SQR-T037 bioorganic fertilizer significantly affect microbial communities of continuously cropped soil of cucumber. Journal of the Science of Food and Agriculture, 92: 2465–2470, 2012.

[5]Li-Hua CHEN, Ya-Qing CUI, Xing-Ming YANG, Di-Kun ZHAO, Qi-Rong SHEN. An antifungal compound from Trichoderma harzianum SQR-T037 effectively controls Fusarium wilt of cucumber in continuously cropped soil. Australasian Plant Pathology, 41:239–245, 2012.

[6]Jun-Yi Tan, Xiao-Hou Shao, Li-Hua Chen, Li-Na Chen and Hui-Lian Xu. Effect of formulations of Trichoderma harzianum SQR-T037 on the induction of resistance against Fusarium wilt in cucumber. Journal of Food, Agriculture & Environment 10: 1205-1209, 2012.

[7]张弛, 郑金海, 郑桂平, 黄惠明. 江苏近岸海域水动力特征及其对围垦工程的响应. 水利经济, 2012, 30(3): 2-5.

[8]张弛, 郑金海, 王义刚. 波浪作用下沙坝剖面形成过程的数值模拟. 水科学进展, 2012, 23(1): 107-112.

[1]Zhang Chi, Zheng Jinhai, Wang Yigang, Jeng Dong-Sheng and Zhang Jisheng. A process-based model for sediment transport under various wave and current conditions. International Journal of Sediment Research, 2011, 26(4): 500-514.

[2]Zhang Chi, Zheng Jinhai, Wang Yigang and Demirbilek Zeki. Modeling wave-current bottom boundary layers beneath shoaling and breaking waves. Geo-Marine letters, 2011, 31(3): 189-201.

[3]Zhang Chi, Zheng Jinhai, Wang Yigang, Zhang Mengtao, Jeng Dong-Sheng and Zhang Jisheng. Comparison of turbulence schemes for prediction of wave-induced near-bed sediment suspension above a plane bed. China Ocean Engineering, 2011, 25(3): 395-412.

[4]Zheng Jinhai, Nguyen Viet Thanh and Zhang Chi. Spectral wave transformation model for simulating refraction – diffraction with strongly reflecting coastal structures. Acta Oceanologica Sinica, 2011, 30(2): 25-32.

[5]CHEN Lihua, YANG Xingming, RAZA Waseem, LUO Jia, ZHANG Fengge, SHEN Qirong. Solid-State Fermentation of Agro-industrial Wastes to Produce Bioorganic Fertilizer for the Biocontrol of Fusarium Wilt of Cucumber in Continuously Cropped Soil. Bioresource Technology, 102: 3900-3910, 2011.

[6]CHEN Lihua, YANG Xingming, RAZA Waseem, LI Junhua, ZHANG Fengge, SHEN Qirong. Trichoderma harzianum SQR-T037 rapidly degrades allelochemicals in rhizospheres of continuously cropped cucumbers. Applied Microbiology and Biotechnology, 89: 1653-1663, 2011.

[7]Yang Xingming, Chen Lihua, Yong Xiaoyu, SHEN Qirong. Different formulations can affect rhizosphere colonization and biocontrol efficiency of Trichoderma harzianum SQR-T037 against Fusarium wilt of cucumbers. Biology and Fertility of Soils, 47: 239-248, 2011.

[8]Xinqi Huang, Lihua Chen, Wei Ran, Qirong Shen and Xingming Yang. Trichoderma harzianum strain SQR-T37 and its bio-organic fertilizer could control Rhizoctonia solani damping-off disease in cucumber seedlings mainly by the mycoparasitism. Applied Microbiology and Biotechnology, 91: 741-755, 2011.

[9]Xiaoyu Yong, Yaqing Cui, Lihua Chen, Wei Ran, Qirong Shen and Xingming Yang. Dynamics of bacterial communities during solid-state fermentation using agro-industrial wastes to produce poly-γ-glutamic acid, revealed by real-time PCR and denaturing gradient gel electrophoresis (DGGE). Applied Microbiology and Biotechnology, 92:717-25, 2011.

[1]Zheng Jinhai, Mee Meesoe, Zhang Chi and Hsu Taiwen. Numerical wave flume with improved smoothed particle hydrodynamics. Journal of Hydrodynamics, 2010, 22(6): 773-781.

[2]Chen Xiaowen, Zheng Jinhai, Zhang Chi and Yang Qiong. Evaluation of diffraction predictability in two phase averaged wave models. China Ocean Engineering, 2010, 24(2): 235-244.