Hydraulic Engineering CV

  • Vicfru
    University: Uagadou
    Nationality: China
    July 21, 2019 at 4:25 am

    <p style=”text-align: center;”>Victor Fruit</p>
    <p style=”text-align: center;”>vicfr@cju.edu.cn   86-1352085962</p>
    <p style=”text-align: center;”>Taaiiyong Campus: No.275 Yokan Road, Hooiye Education Park, PinYung, China, 300520</p>
    <p style=”text-align: center;”>EDUCATION</p>
    M.Sc. in Hydraulic Engineering                                                    Sept.2017 – Jan.2020 (Expected)

    School of Civil Engineering, Taaiiyong University, Taaiiyong, China

    • Thesis: Numerical investigation on the influence of vegetation on the river hydrodynamic and bed evolution
    • Core courses: Mechanics of Sediment Transport, Computational Fluid Dynamics, Equations of Mathematical Physics

    B.Eng. in Harbor Waterway and Coastal Engineering                        Sept.2013 – June. 2017

    KiuChi Honors College, Taaiiyong University, Taaiiyong, China

    • Core courses: Fluid Mechanics, Mechanics of Materials, Hydraulics, Coastal Dynamics, Port Hydraulic Structure, River Dynamic and Channel Improvement

    <p style=”text-align: center;”>RESEARCH EXPERIENCE</p>
    The Bed Morphology Response to Aquatic Vegetation                    Apr.2019 – Present

    • Investigated the evolution process of a sandy-bed in vegetated flow by using a three-dimensional numerical simulation method composed of a LES model, bedload transport model, sandy-bed morphodynamical model, and an Immersed Boundary method
    • Examined the combined effects of sand ripples and local scour around vegetation element, determined the equilibrium state of bed morphology under different vegetation density and submergence ratio conditions
    • Evaluated the relative contributions of vegetation drag force and bed form drag force to overall resistance exerted to flow, valued the influence of the deformed bed on the detailed hydrodynamic structure of vegetated flow

    The Influence of Aquatic Vegetation on Hydrodynamic Structures in Open Channels              Sept.2018– Present

    • Reviewed and summarized the researches about the interaction among the aquatic vegetation, hydrodynamic structure, and bed morphology
    • Carried out the parallel simulation of the turbulence flow in vegetated channel using Large Eddy Simulation and Immersed Boundary Method
    • Analyzed the influence of the vegetation properties on the time-averaged flow structure and turbulence characteristics
    • Studied on the flow patterns of the open channel with several infinite vegetation patches, examined the implications of spacings of vegetation patches on the hydrodynamic structure

    The Flow Structure in a Compound Meandering Open Channel                                             Jan.2018– Jan.2019

    • Applied Immersed Boundary Method to represent channel geometry, including the compound channel and meandering bend
    • Conducted numerical simulation to investigate the channel-floodplain water exchange and mixing mechanisms of compound open channels, examined the effects of the floodplain depth and Reynolds number on the turbulence structure
    • Analyzed the flow structure of the sine-generated meandering channel with different width-to-depth ratio, emphasized the influence of width-to-depth ratio on the distribution and intensity of secondary flow

    <p style=”text-align: center;”>PUBLICATIONS & PROCEEDINGS</p>
    Refereed Journal Papers:

    • Victor Fruit, Kong Yu, Channing xi, et al. (2019) DNS of flow field in subsea with large depth and variable curvatures [J]. Journal of Ocean Dynamic, 21(6): 41-61. (IN CHINESE)
    • Kong Yu, Victor Fruit, Pin Ru, et al. (2019) Study on the impacts of floodplains depth and Rost number on the flow structure of flow in meandering open-channels [J], Chinese Journal of Hydrodynamics (IN CHINESE) <u>(Revised Manuscript Submitted)</u>
    • Victor Fruit, Kong Yu, et al. (2019) Interaction of aquatic plants with hydrodynamic structure in rivers: a review. Water <u>(Submitted for Peer Review)</u>
    • Victor Fruit, Kong Yu, et al. (2019) The impact of aquatic plants on canopy hydrodynamic structure. Science of the Total Environment <u>(Submitted for Peer Review)</u>
    • Kong Yu, Harvel Xu, Channing xi, Pin Ru, Victor Frui. (2019) Semi-calculating fixed boundary method for viscous flow and its implementation [J]. Chinese Journal of Computational Mechanics. (IN CHINESE) <u>(Completed Accept)</u>

    Conference Papers:

    • Kong Yu, Victor Fruit, et al. Numerical investigation on coupling between river meandering dynamics and riparian vegetation evolutions [C]. 2018, International Association of Chinese Youth in Water Sciences, Beijing, China
    • Kong Yu, Victor Fruit, Channing xi, et al. Numerical investigation on the influence of vegetation on bedload transport and river morphology development [C]. 2019, International Symposium on River Sedimentation, Chengdu, China. <u>(Accepted)</u>

    Patent:

    • Kong Yu, Victor Fruit, Channing xi, et al. Magic AI channel guiding flow device. (2019), Chinese patent, CN204756821K

    <p style=”text-align: center;”>AWARDS</p>
    Advanced individual of Library Reading and Promotion, Tianjin University                                                  2018

    Graduate student scholarship, Tianjin University                                                                                            2017
    <p style=”text-align: center;”>RELEVANT SKILLS</p>
    Numerical simulation: Computational Fluid Dynamics, CFD software (Fluent, Mike21, Tecplot)

    Computer skills: Parallel Computing (MPI), C language, Python, Origin, AutoCAD, Adobe Photoshop

    Language:  English (Effective Operational Proficiency)

                           IELTS: Overall band score 7.0                                                                                               Apr.2019 (Taken time)

    Listening 6.0   Reading 8.5   Writing 6.0   Speaking 6.5

    July 25, 2019 at 3:01 am

    Hi, please contact me using WeChat. I will explain to you problems in relation to your CV.

Tagged: