SCI检索 1.第一作者论文 lYu Yao, Erman Peng, Weijie Liu, Xiuqi Han, Yicheng Liu, Yue Ning. Modeling wave processes in a reef-lagoon-channel system based on a Boussinesq model. Ocean Engineering 2023, 268, 113404. lYu Yao, Zhuangzhi Li, Conghao Xu*, Changbo Jiang. A study of wave-driven flow characteristics across a reef under the effect of tidal current. Applied Ocean Research, 2023, 130:103430. lYu Yao, Xianjin Chen Conghao Xu,*, Meijun Jia, Changbo Jiang. Numerical modelling of wave transformation and runup over rough fringing reefs using VARANS equations. Applied Ocean Research 2022, 118:102952. lYu Yao*, Xiaoxiao Yang,· Sai Hin Lai, Ren Jie Chin. Predicting tsunami‑like solitary wave run‑up over fringing reefs using the multi‑layer perceptron neural network. Natural Hazards, 2021, 107: 601-616. lYu Yao*, Xiaoxiao Yang, Weijie Liu, Tiancheng He, The effect of reef roughness on monochromatic wave breaking and transmission over fringing reefs, Marine Georesources & Geotechnology, 2021. 39(3), 354-364. lYu Yao, Xianjin Chen, Conghao Xu*, Meijun Jia, Changbo Jiang. Modeling solitary wave transformation and run-up over fringing reefs with large bottom roughness. Ocean Engineering, 2020, 218: 108208. lYu Yao, Songgui Chen*, Jinhai Zheng*, Qiming Zhang, Shubin Chen. Laboratory study on wave transformation and run-up in a 2DH reef-lagoon-channel system. Ocean Engineering, 2020, 215:107907. lYu Yao*, Meijun Jia, Changbo Jiang, Qiming Zhang, Zhengjiang Tang. Laboratory study of wave processes over fringing reefs with a reef-flat excavation pit. Coastal Engineering, 2020, 158:103700. lYu Yao, Yicheng Liu, Long Chen*, Zhengzhi Deng, Changbo Jiang. Study on the wave-driven current around the surf zone over fringing reefs. Ocean Engineering, 2020, 198:106968. lYu Yao*, Qiming Zhang, Janet M. Becker, Mark A. Merrifield, Boussinesq modeling of wave processes in field fringing reef environments, Applied Ocean Research, 2020, 95:102025. lYu Yao, Meijun Jia, Dawei Mao, Zhengzhi Deng*, Xiaojian Liu. A numerical investigation of the reduction of solitary wave runup by a row of vertical slotted piles, China Ocean Engineering, 2020, 34(1):10-20. lYu Yao*, Wenrun He, Changbo Jiang, Ruichao Du, Wave-induced set-up over barrier reefs under the effect of tidal current, Journal of Hydraulic Research, 2020, 58(3):447-459. Doi: 10.1080/00221686.2019.1623928. lYu Yao, Tiancheng He, Zhengzhi Deng*, Long Chen, Huiqun Guo, Large eddy simulation modeling of tsunami-like solitary wave processes over fringing reefs, Natural Hazards Earth System Sciences, 2019, 19: 1281-1295. lYu Yao, Wenrun He, Zhengzhi Deng*, Qiming Zhang, Laboratory investigation of the breaking wave characteristics over a barrier reef under the effect of current, Coastal Engineering Journal, 2019, 61: 210-223. lYu Yao, Qiming Zhang, Songgui Chen*, Zhengjiang Tang, Effects of reef morphology variations on wave processes over fringing reefs, Applied Ocean Research, 2019, 82: 52-62. lYu Yao, Zhenhua Huang*, Wenrun He, Stephen G. Monismith, Wave-induced setup and wave-driven current over Quasi-2DH reef-lagoon-channel systems, Coastal Engineering, 2018, 138: 113-125. lYu Yao*, Zhengjiang Tang, Changbo Jiang, Wenrun He, Zengsheng Liu, Boussinesq modeling of solitary wave run-up reduction by emergent vegetation on a sloping beach, Journal of Hydro-environment Research, 2018, 19: 78-87. lYu Yao, Fang He*, Zhengjiang Tang, Zengsheng Liu, A study of tsunami-like solitary wave transformation and run-up over fringing reefs, Ocean Engineering, 2018, 149: 142-155. lYu Yao, Zhengjiang Tang, Fang He*, Wancheng Yuan, Numerical investigation of solitary wave interaction with a double-row of vertical slotted piles,Journal of Engineering Mechanics, 2018, 144(1): 04017147. lYu Yao*, Wenrun He, Ruichao Du, Changbo Jiang, Study on wave-induced setup over fringing reefs in the presence of a reef crest, Applied Ocean Research, 2017, 66, 164-177. lYu Yao*, Janet M. Becker, Murray R. Ford, Mark A. Merrifield, Modeling Wave processes over fringing reefs with an excavation pit, Coastal Engineering, 2016, 109: 9-19. lYu Yao*, Ruichao Du, Changbo Jiang, Zhengjiang Tang, Wancheng Yuan, Experimental study of reduction of solitary wave run-up by emergent rigid vegetation on a beach, Journal of Earthquake and Tsunami, 2015, 9(5): 1540003. lYu Yao, Zhenhua Huang*, Stephen G. Monismith, Edmond Y.M. Lo, Characteristics of monochromatic waves breaking over fringing reefs, Journal of Coastal Research, 2013, 29: 94-104. lYu Yao, Zhenhua Huang*, Stephen G. Monismith, Edmond Y.M. Lo, 1DH Boussinesq modeling of wave transformation over fringing reefs, Ocean Engineering, 2012, 47: 30-42.
2. 通讯作者论文 lJiangxia Li, Shunqi Pan, Yongping Chen, Yu Yao*, Conghao Xu. Assessment of combined wind and wave energy in the tropical cyclone affected region: An application in China seas, Energy, 2022,125020. lBin Deng, Wen Zhang, Yu Yao*, Changbo Jiang. A laboratory study of the effect of varying beach slopes on bore-driven swash hydrodynamics, Frontiers in Marine Science, 2022, 9:956379. doi: 10.3389/fmars. 2022.956379. lKe Qu, Liangbin Zhang, Yu Yao*, Changbo Jiang, Numerical evaluation of influences of onshore wind on overtopping characteristics of coastal seawall under solitary wave, Ocean Engineering, 2022.266: 112860. lKe Qu, Baohao Wen, Yu Yao*, Weiyi Sun, Changbo Jiang. Numerical study on hydrodynamic characteristics of movable coastal bridge deck under joint action of solitary wave and current, Ocean Engineering, 2022, 262: 112143. lSonggui Chen, Yu Yao*, Huiqun Guo, Meijun Jia, Numerical investigation of monochromatic wave interaction with a vertical seawall located on a reef flat, Ocean Engineering, 2020, 214: 107847. lLong Chen, Yu Yao*, Zhiliang Wang, Development and validation of a prediction model for the multi-wake of tidal stream turbines, Renewable Energy, 2020, 155, 800-809. lZhengzhi Deng*, Chen Wang, Yu Yao*, Pablo Higuera, Numerical simulation of an oscillating water column device installed over a submerged breakwater, Journal of Marine Science and Technology, 2020, 25:258-271. lZhengzhi Deng, Chen Wang, Chi Wang, Yu Yao*, Zeting Ou, Lixi Wang, Wave Scattering by Twin Surface-Piercing Plates Over A Stepped Bottom: Trapped Wave Energy and Energy Loss, China Ocean Engineering, 2019, 33(4): 398–411. lChangbo Jiang, Xiaojian Liu, Yu Yao*, Bin Deng, Numerical investigation of solitary wave interaction with a row of vertical slotted piles on a sloping beach, International Journal of Naval Architecture and Ocean Engineering, 2019, 11: 530-541. lChangbo Jiang, Xiaojian Liu, Yu Yao*, Bin Deng, Jie Chen, Numerical Investigation of Tsunami-Like Solitary Wave Interaction with a Seawall, Journal of Earthquake and Tsunami, 2017, 11(1): 1740006. lChangbo Jiang, Yu Yao*, Ya Deng, Bin Deng, Numerical Investigation of Solitary Wave Interaction with a Row of Vertical Slotted Piles, Journal of Coastal Research, 2015, 31(6): 1502-1511.
EI 检索1. 第一作者: l姚宇*,袁万成,刘晓建, 蒋昌波,孤立波作用下四立柱结构附近水动力特性研究, 船舶力学, 2020, 24(3): 301-310。 l姚宇*,珊瑚礁海岸水动力学问题研究综述,水科学进展,2019,30(1):139-152。 l姚宇*,刘增晟,袁万成,蒋昌波,双排立柱结构附近孤立波传播变形数值模拟,应用基础与工程科学学报,2019,27(05):1008-1018。 l姚宇*,张起铭,蒋昌波,礁面糙率变化下珊瑚礁海岸附近波浪传播变形试验,科学通报,2019,64(9):977-985。 l姚宇*,何文润,李宇,刘晓建,唐政江,基于Navier-Stokes方程珊瑚岛礁附近孤立波传播变形数值模拟,哈尔滨工程大学学报,2018,39(2):392-398。 l姚宇*,唐政江,杜睿超,蒋昌波,潮汐流影响下珊瑚岛礁附近波浪传播变形和增水试验,水科学进展,2017,28(4):614-621。 lYu Yao*, Zhengjiang Tang, Ruichao Du, Changbo Jiang, A semi-analytical model on wave-induced setup over fringing reefs with a shallow reef crest, Journal of Disaster Research, 2016, 11(5): 948-956. 2. 通讯作者论文 l许从昊,姚宇*,郭婷,邓争志,排桩式波浪能发电装置附近流场特性研究,浙江大学学报(工学版),2021,55(7):1308-1316。 l蒋昌波,邓涯,姚宇*,邓斌,孤立波作用下排柱附近流动特性数值分析研究,浙江大学学报(工学版),2015,49(8):1441-1447。
CSCD核心(扩)和其他论文1.第一作者: l姚宇*,何天城,唐政江,蒋昌波,珊瑚礁礁坪宽度对波浪传播变形及增水影响的实验研究,热带海洋学报,2019,38(2):13-19。 l姚宇*,唐梦君,唐政江,蒋昌波,非淹没刚性植被影响下孤立波在岸滩上的爬高,水利水电科技进展,2019,39(2):31-36。 l姚宇*,杜睿超,蒋昌波,袁万成,唐政江,礁冠宽度对珊瑚礁坪波浪增水影响的实验研究,海洋通报,2017,36(3):340-347。 l姚宇*,唐政江,杜睿超,蒋昌波,珊瑚礁破碎带附近波浪演化和波生流实验研究,海洋科学,2017,41(2):12-19。 l姚宇*,袁万成,杜睿超,蒋昌波,岸礁礁冠对波浪传播变形及增水影响的实验研究,热带海洋学报,2015,34(6):19-25。 l姚宇*,杜睿超,袁万成,蒋昌波,珊瑚岸礁破碎带附近波浪演化实验研究,海洋学报,2015,37(12):66-73。 l姚宇*,杜睿超,袁万成,蒋昌波,斜坡非淹没刚性植被影响下孤立波爬高的研究,水动力学研究与进展A辑,2015,30(5):506-515。 2.通讯作者论文 l陈仙金,姚宇*,张起铭,唐政江,人工采掘坑影响下珊瑚礁海岸波浪传播变形试验,海洋通报,2021,40(2):224-231。 l旷敏,姚宇*,陈仙金,张起铭,蒋昌波,采掘坑位置对珊瑚礁海岸波浪传播变形影响试验,热带海洋学报,2021,40(4):14-21。 l杨笑笑,姚宇*,郭辉群,贾美军,礁面大糙率存在下孤立波传播变形及爬高实验研究,海洋学报,2021,43(3):24-30。 l贾美军, 姚宇*, 陈松贵, 郭辉群. 防浪建筑物影响下珊瑚礁海岸波浪传播变形试验.海洋工程,2020, 38(6):53-59+123。 l贾美军, 姚宇*, 何天城, 郭辉群. 大糙率礁面影响下珊瑚礁海岸附近规则波演化及爬高试验研究,海洋与湖沼, 2020, 51(6): 1344-1349。 l杨笑笑,姚宇*,何天城,贾美军,大糙率珊瑚礁附近规则波非线性特征实验研究,海洋学研究,2020,38(2):9-15。 l何天城,姚宇*,刘增晟,蒋昌波,孤立波作用下珊瑚礁海岸附近流动特性研究,水动力学研究与进展(A辑),2019,34(4):494-502。 l何文润,姚宇*,唐政江,刘增晟,粗糙珊瑚礁面附近波浪增水实验研究,海洋科学进展,2019,37(3):409-416。 l蒋昌波,刘晓建,姚宇*,杜睿超,孤立波作用下破碎区单圆柱附近流动特性数值研究,水动力学研究与进展A辑,2016,472-479。 获授权的发明专利l姚宇,李长慎,许从昊,蒋昌波,一种珊瑚受精卵收集装置,2022.10.04,中国,专利号ZL202110268493.7。 l姚宇,吴际,许从昊,蒋昌波,一种吸收太阳辐射的珊瑚防护结构,2022.09.27,中国,专利号ZL202110240049.4。 l姚宇,贾美军,蒋昌波,一种修复被台风浪破坏的珊瑚礁的结构,2022.08.19,中国,专利号ZL201910035812.2。 l姚宇,杨笑笑,蒋昌波,一种用于清理珊瑚礁上泥沙的装置,2022.07.19,中国,专利号ZL201910036108.9。 l姚宇,陈仙金,许从昊,陈龙,蒋昌波,一种捕捉珊瑚礁上海星的装置,2022.01.14,中国,专利号ZL202010041622.4。 l姚宇,旷敏,许从昊,陈龙,蒋昌波,一种适用珊瑚礁地形的波流发电装置,2020.12.11,中国,专利号ZL202010041624.3。 l姚宇,郭辉群,何天城,唐梦君,张起铭,一种通过降低海水酸度促进珊瑚生长的珊瑚培养装置,2020.2.14,中国,专利号ZL201711078335.5。 l姚宇,张起铭,何文润,何天城,唐梦君,郭辉群,一种用于应对海水温度异常升高的珊瑚营养供给装置,2020.2.14,中国,专利号ZL201711067467.8。 l姚宇,唐梦君,何天城,郭辉群,张起铭,一种适用于岛礁地形的防浪护岸装置,2020.2.14,中国,专利号ZL201711406715.7。 l姚宇,何文润,刘增晟,蒋昌波,一种用于治理珊瑚礁白化的海水降温装置,2019.4.30,中国,申请号:ZL201611007170.8。 l姚宇,刘增晟,何文润,蒋昌波,一种利用红树林和珊瑚分层消浪的海岸防护结构,2019.2.12,中国,专利号ZL201611007103.6。 l姚宇,唐政江,杜睿超,袁万成,蒋昌波,一种集消浪、离岸养殖为一体的漂浮式装置,2018.06.19,中国,ZL201610121433.1。 l姚宇,杜睿超,袁万成,蒋昌波,一种依靠风力供电的分层式人工礁体,2016.07.20,中国,ZL201510017768.4。 l姚宇,袁万成,杜睿超,段自豪,蒋昌波,一种结合柔性植物消浪的潜堤堤顶结构,2016.06.01,中国,ZL201510212992.9。
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2017年10月19日 21:51
