机译:基于图像的流动可视化(IBFV)可以增强浅潮汐河口内复杂流动模式的解释
High Performance Computing & Research Support, Information Technology Services Department, Technology Information and Learning Support Division, Queensland University of Technology, Brisbane 4001, Australia,School of Electrical Engineering and Computer Science, Science and Engineering Faculty, Queensland University of Technology, Brisbane 4001, Australia;
School of Earth, Environment and Biological Sciences, Science and Engineering Faculty, Queensland University of Technology, Brisbane 4001, Australia,Coastal and Ocean Environmental Services Team (COEST), URS, Level 17, 240 Queen Street, Brisbane 4000, Australia;
High Performance Computing & Research Support, Information Technology Services Department, Technology Information and Learning Support Division, Queensland University of Technology, Brisbane 4001, Australia;
School of Earth, Environment and Biological Sciences, Science and Engineering Faculty, Queensland University of Technology, Brisbane 4001, Australia;
Vector field visualisation; Hydrodynamics; Numerical model; Image-based flow visualisation; Texture-based techniques;
机译:中浅河口自由表面和速度对河流流量和潮汐变化的表面分析:在Suances河口中的应用(西班牙北部)
机译:包括湍流在内的复杂河口潮汐流的数值模拟:非结构化有限体积求解器和实验验证
机译:浅潮河口湍流结构
机译:长江口潮汐流的三维数值模拟
机译:地下地下水流动的数值模拟,用于研究化学物质从农田向南卡罗来纳州瓦德马劳岛上的河口和潮汐沼泽的化学迁移。
机译:气流阻塞中的潮气呼气流型。
机译:基于图像的流动可视化(IBFV)可以增强浅潮汐河口内复杂流动模式的解释
机译:佛罗里达州东南部Loxahatchee河口潮汐流和环流模式模拟。