Birla Institute of Technology, Mesra
Faculty Image

Dr. Anupam Das

Joined Institute on : 15-Sep-2025

  • Assistant Professor
  • Civil and Evn Engineering
  • Post Doc (IIT Delhi, Trinity College Dublin), Ph.D (IIT Kgp), M.E. (IIEST Shibpur), B.Tech (HIT Haldia)
Contact Address

BIT Mesra, Ranchi

West Bengal

  • Phone Office - 0
  • Phone Residence - 0
  • Email - das_anupam@bitmesra.ac.in
Professional Background

B.Tech: Haldia Institute of Technology

M.E: Indian Institute of Engineering Science and Technology Shibpur

Ph.D: Indian Institute of Technology Kharagpur

Post Doc: Indian Institute of Technology Delhi, Trinity College Dublin (Ireland)
Research Areas

Structural Vibration Control

Inerter-assisted Mass and Liquid Dampers

Offshore Wind Turbines
Publications
1. Das, A. and Konar, T., 2025. “Asymmetric nonlinear compliant deep tank dampers-inerter for mitigating response of tall buildings under near-fault ground motions.” Structures, 76, p.108970.
 
2. Konar, T. and Das, A., 2025. A review of numerical modelling of liquid sloshing in partially filled containers.” Ships and Offshore Structures.
 
3. Das, A., 2025. “Response control of multi-storied adjacent buildings using double-compliant liquid dampers-inerter subjected to seismic excitations.” Soil Dynamics and Earthquake Engineering, 191, p.109276.
 
4. Das, A., 2025. “Response mitigation of offshore wind turbine towers using negative stiffness amplifying compliant liquid dampers-inerter exposed to wind waves and earthquakes.” Ocean Engineering, 318, p.120099.
 
5. Das, A., Konar, T., Pandit, A., and Maity, D., 2025. Influence of liquid sloshing in the vertical limbs of tuned liquid column dampers on structural response reduction.” Acta Mechanica, 236, 1117–113.
 
6. Das, A., Patro, S. R., & Banerjee, A. 2025. “Inerter Connected Compliant Liquid Damper for Wind-Induced Vibration Response Control: H2 Optimization using Kaimal Spectrum.” Journal of Vibration Engineering & Technologies, 13(1), 119.
 
7. Das, A., Banerjee, A., Sahoo, D. R., & Matsagar, V., 2024. “Performance comparison of linear and nonlinear compliant liquid dampers-inerter in controlling across-wind response of benchmark tall building.” Journal of Building Engineering, 90, 109400.
 
8. Konar, T., Das, A., and Ghosh, A.D., 2024. Near-fault earthquake-induced vibration control of a supertall benchmark building using an inerter-assisted compliant liquid damper.ASCE-ASME Journal of Risk and Uncertainty in Engineering Systems, Part A: Civil Engineering. 10(4), p.04024070.
 
9. Das, A. and Ding, H., 2024. “Compliant liquid dampers-inerter for mitigating wind-, wave-, and earthquake-induced vibrations of monopile offshore wind turbines.” Ocean Engineering, 301, p.117486.
 
10. Das, A., Banerjee, A., Sahoo, D.R. and Matsagar, V., 2024. “Inerter-based tuned mass damper for response control of multi-degree-of-freedom structures subjected to wind and earthquake excitations.” Structure & Infrastructure Engineering.
 
11. Das, A., Konar, T., and Maity, D., 2024. “Numerical Investigation on the Sloshing Phenomena in U-shaped Containers Subjected to Near-Fault Strong Ground Motions.Journal of Earthquake and Tsunami, 18 (01), 2350033.
 
12. Das, A., Konar, T., Ghosh, A.D., and Maity, D., 2024. “Dynamics of a submerged compound pendulum.” International Journal of Structural Stability and Dynamics, 24 (05), 2471003.
 
13. Das, A., Konar T. and Banerjee, A., 2023. Wind-induced vibration control of multi-storeyed buildings by designing the overhead fire water tanks as compliant deep tank dampers-inerter.Structures, 58, p.105522.
 
14. Das, A. and Konar T., 2023. Design and optimization of roof-top fire water tanks as compliant deep tank dampers-inerter for seismic protection of multi-storeyed buildings.” Journal of Building Engineering, 80, p.107957.
 
15. Das, A., Konar, T., Maity, D., and Bhattacharyya, S.K., 2023. “Revisiting equivalent Tuned Mass Damper analogy for Tuned Liquid Damper utilizing CFD-FEA framework.” Soil Dynamics and Earthquake Engineering, 172, p.108051.
 
16. Ding, H., Wang, JT., Altay, O., Das, A., and Zhou, TH., 2023. On the bidirectional decoupling characteristics of toroidal tuned liquid column dampers.” Journal of Earthquake Engineering, 27, 14, 4051–4072.
 
17. Konar, T., Das, A., and Ghosh, A.D., 2022. Enhancing tunability of liquid storage tanks to function as deep Tuned Liquid Dampers by use of a submerged stretched membrane. Structural Control and Health Monitoring, 29, 12, e3109.
 
18. Das, A., Maity, D., and Bhattacharyya, S.K., 2022. “Deep liquid tanks in seismic response control of asymmetric high-rise buildings.Structures, 45, 1279-1286.
 
19. Ding, H., Das, A., Zhou, TH., Wang, JT. and Altay, O., 2022. Characterization of Liquid Oscillation and Sloshing Properties of Toroidal TLCDs for Multidirectional Vibration Control.” International Journal of Structural Stability and Dynamics, 22, 15, 2250168.
 
20. Das, A., Maity, D., and Bhattacharyya, S.K., 2022. “Investigation on the efficiency of deep liquid tanks in controlling dynamic response of high-rise buildings: A computational framework.” Structures, 37, 1129-1141.
 
21. Das, A., 2022. “Characterization of Liquid Sloshing in U-Shaped Container with Submerged Cylinder to be used as Dampers for Structural Vibration Control.” Practice Periodical on Structural Design and Construction, ASCE, 27 (01), p.04021059.
 
22. Das, A., Maity, D., and Bhattacharyya, S.K., 2020. Characterization of liquid sloshing in U-shaped containers as dampers in high-rise buildings.” Ocean Engineering, 210, p.107462.
 
Member of Professional Bodies

Indian National Academy of Engineering