Faculty Publications

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    Offshore Wind Turbine Foundation Under Action of Wind Loads: Numerical Analyses
    (Springer Science and Business Media Deutschland GmbH, 2025) Ashitha, C.; Chaudhary, B.
    Renewable energy is energy derived from renewable sources that replenish themselves naturally, such as sunlight, waves, and tides. Offshore wind turbine converts wind energy to electric energy. According to the Global Wind Energy Council, by the second decade of the twenty-first century, it will account for roughly 10% of global wind capacity. The government of India has identified the coasts of Tamil Nadu, Gujarat, and Maharashtra as suitable destinations. These wind turbines are high-rise structures that are vulnerable to lateral earthquake failures. Monopile substructures are commonly used to support offshore wind turbines in shallow waters. Monopiles transfer lateral loads by bending action into the soil strata through the foundation. In this study, we use a monopile foundation. A monopile is a large-diameter steel tube driven into the seabed with a slenderness ratio of less than 10. As a result, the monopile behaves as a rigid structure with rotation taking precedence over bending. The monopile can be put into the seabed by drilling and grouting, driving with massive impact or vibratory hammers, or a combination of both, depending on the subsoil condition. The behavior of monopile subjected to wind waves is investigated in this paper. For Finite Element Modelling, PLAXIS is used in this study. Studies are also carried out under various loading circumstances (e.g. amplitude, frequency) and other parameters. The effects of different pile diameters, pile length, pile depth inside the soil on monopile behavior are investigated. © The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2025.
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    Numerical simulation of laminar flow past a circular cylinder
    (2009) Rajani, B.N.; Kandasamy, A.; Majumdar, S.
    The present paper focuses on the analysis of two- and three-dimensional flow past a circular cylinder in different laminar flow regimes. In this simulation, an implicit pressure-based finite volume method is used for time-accurate computation of incompressible flow using second order accurate convective flux discretisation schemes. The computation results are validated against measurement data for mean surface pressure, skin friction coefficients, the size and strength of the recirculating wake for the steady flow regime and also for the Strouhal frequency of vortex shedding and the mean and RMS amplitude of the fluctuating aerodynamic coefficients for the unsteady periodic flow regime. The complex three dimensional flow structure of the cylinder wake is also reasonably captured by the present prediction procedure. © 2008 Elsevier Inc. All rights reserved.