View Profile

Sidhartha Sankar Roy

Department of Civil Engineering · National Institute of Technology Rourkela

https://researchid.co/sidmuna55
@nitrkl.ac.in
16Scopus Publications
89Google Scholar Citations
7Google Scholar h-index
6Google Scholar i10-index

Research Interests

Earthquake Engineering, Non-linear Dynamics, Finite Element Method

Biography

My objective is to contribute to the advancement of innovative, sustainable, and efficient structural designs through rigorous research and practical application. Currently I am working on the liquid slosh dynamics inside irregular liquid tanks and employing them as Tuned Liquid Dampers (TLDs) to control structural vibration. The area covers the vibration control of tall flexible structures under wind and earthquake excitations. I aim to enhance my expertise in Finite Element Methods, Non-linear Dynamics (Structural Dynamics and Fluid Dynamics), Earthquake Engineering, and Vibration Control using Passive Dampers while collaborating with interdisciplinary teams to address current challenges in infrastructure development. By conducting impactful research and engaging in cutting-edge technologies, I seek to contribute to solving real-world engineering problems, improving safety standards, and developing resilient and sustainable infrastructure systems.

Education

Ph.D. in Civil Engineering, B-tech in Civil Engineering, Diploma in Civil Engineering

Recent Scopus Publications

  1. Influence of earthquake duration on the non-linear slosh dynamics of chamfered bottom liquid tanks using Mixed-Eulerian Lagrangian approach
    Ocean Engineering, 2026
  2. Cause and effect assessment of increased frequency and severity in tropical cyclone-driven wind load on urban building infrastructure in India
    Urban Climate, 2026
  3. Non-linear failure and collapse assessment of fixed base offshore structures under extreme multi hazard loading
    Structures, 2026
  4. Non-linear fluid-structure interaction of sloped wall tuned liquid dampers for mitigating the hysteretic response of multi-degree-of-freedom structures subjected to various categories of near-fault ground motions
    International Journal of Non Linear Mechanics, 2026
  5. Modified meshless simulation of violent sloshing in tuned liquid dampers with limited freeboard for structural vibration control
    Mechanics Research Communications, 2026

Links