Dieses Bild zeigt Shreyas Giridharan

Shreyas Giridharan

Herr Dr.-Ing.

Akademischer Mitarbeiter
Institut für Geotechnik

Kontakt

Pfaffenwaldring 35
70569 Stuttgart
Deutschland

Fachgebiet

Modellierung großer Verformungen - insbesondere bei der Installation von Offshore-Monopiles - mit der Convected Particle Domain Interpolation Method (CPDI)

Giridharan, S.; Moormann, Ch.: 
On the application of Convected Particle Domain Interpolation method to the numerical modelling of offshore monopile installations. Fachsektionstage 2023, DGGT, Würzburg, Germany (eingereicht und angenommen)

Giridharan, S.; Stolle, D.; Moormann, C.: 
Numerical prediction of the installation of vibratory monopile foundations for offshore wind energy projects. Proceedings of the 10th European Conference on Numerical Methods in Geotechnical Engineering (NUMGE), London, United Kingdom 26-28 June 2023.

Giridharan, S.:
Convected Particle Domain Interpolation Method for Large Deformation Geotechnical Problems, Doktorarbeit, Heft.77, Universität Stuttgart

Giridharan, S.; Stolle, D.; Moormann, Ch.: 
Numerical approach for predicting the stability of saturated soil structures under dynamic loads. 20. International Conference of Soil Mechanics and Geotechnical Engineering. May 01-05, 2022 Sydney.

Giridharan, S., Gowda, S., Stolle, D.F.E., Moormann, Ch.:
Comparison of UBCSAND and Hypoplastic soil model predictions using the Material Point Method. Soils and Foundations, 60.2020, Issue 4, pp. 989-1000. ISSN 0038-0806.

Giridharan, S., Moormann, Ch.:
Modelling liquefaction problems in saturated sand with application to sea-dike failure under seismic loading. Proc. XVII European Conference on Soil Mechanics and Geotechnical Engineering, ECSMGE-2019, Reykjavik, 1 – 6 of September 2019, Geotechnical Engineering foundation of the future, ISBN 978-9935-9436-1-3.

Giridharan, S., Stolle, D., Moormann, Ch.:
Modelling liquefaction using the Material Point Method – an evaluation using two constitutive models. 2nd International Conference on the Material Point Method for Modelling Soil-Water-Structure Interaction, 8-10 January 2019 Churchill College, Cambridge, United Kingdom, pp. 82-89.

Giridharan, Sh. :
Simulation of liquefaction effects in saturated sand using UBC SAND 3D model. 35. Baugrundtagung, Beiträge der Spezialsitzung “Forum für junge Geotechnik-Ingenieure”, 26.09.2018, Stuttgart, DGGT, ISBN 978-3-946039-05-1, S. 77-84.

Moormann, Ch., Gowda, S., Giridharan, S. :
Numerical simulation of pile installation in saturated soil using CPDI. In: (Ed.) Cardoso, A.S. (u.a.) : Numerical Methods in Geotechnical Engineering IX, Proceedings of the 9th European Conference on Numerical Methods in Geotechnical Engineering (NUMGE), Porto, Portugal 25-27 June 2018, London : Taylor & Francis Group, 2018, pp. 665-672.

Aschrafi, J., Giridharan, S., Moormann, Ch.:
Group Effects for pile rows under passive lateral loading. DFI-EFFC International Conference on Deep Foundations and Ground Improvement: Urbanization and Infrastructure Development-Future Challenges; Rome, Italy, Deep Foundation Institute, 189-198.

Moormann, Ch., Gowda, S., Giridharan, S., Hamad, F.:
Simulation of offshore piling using advanced dynamic material point method (MPM).
Proceedings of DFI-India 2017: 7th Conference on Deep Foundation Technologies for Infrastructure Development in India, IIT Madras, Chennai, Article #2751, Publication #1035 (India2017).

Hamad, F., Giridharan, S., Moormann, Ch.:
A penalty function method for modelling frictional contact in MPM. 1st International Conference on the Material Point Method, MPM 2017. Procedia Engineering, Vol. 175(2017), pp. 116-123.

  • Modul "Engineering Materials", Vorlesung und Übung, WS 2019/20 - heute
  • Modul "Engineering Materials", Übung, WS 2017/18 und WS 2018/19
  • Modul "Geoengineering and Geohydrology", Teil „Geoengineering“, Vorlesung und Übung , WS 2019/20 - heute
  • Modul "Numerical Modelling of Soils and Concrete Structures", Vorlesung und Übung, SS 2018 - heute
  • Modul „Geostatik“, Thema: Große Verformungen, Vorlesung, WS 2018/19 – heute

11.11.2022:
Verteidigung der Dissertation (Thema "Convected Particle Domain Interpolation Method for Large Deformation Geotechnical Problems"); magna cum laude

ab 02/2017:
Akademischer Mitarbeiter, Universität Stuttgart, Institut für Geotechnik

10/2014 -1/2016:
Universität Stuttgart, Internationaler Masterstudiengang COMMAS, Degree: M.Sc.

10/2012 - 09/2014:
Assistant Manager, Sundram Fasteners Limited, Chennai, India

2008 - 2012:
SRM University, Kattangulathur, India, Mechanical Engineering Studies, Degree: B.Tech.

VISSKA: Messung, Modellierung und Bewertung der Vibrationsrammung in Bezug auf Installation, Schallemissionen und Auswirkungen auf Schweinswale im Offshore-Windpark KASKASI II; finanziert durch: Bundesministerium für Wirtschaft und Klimaschutz (FKZ: 03EE3034D)

Cyclic and Near Field Effects of Vibratory Driving in Sand: Entwicklung eines numerischen Modells für die Nachrechnung der vibrierenden und gerammten Installation von Monopiles im Modellmaßstab, finanziert durch: innogy SE (abgeschlossen)

DGGT (Deutsche Gesellschaft für Geotechnik e.V.)

  • Tag der Wissenschaft 2023: Organisation und Betreuung des IGS-Standes
  • Prüfungsverwaltung am IGS, WS2022/23 – heute
  • Institutssitzungen: Organisation, WS2018/19 – heute
Zum Seitenanfang