BEGIN:VCALENDAR VERSION:2.0 PRODID:Linklings LLC BEGIN:VTIMEZONE TZID:Europe/Stockholm X-LIC-LOCATION:Europe/Stockholm BEGIN:DAYLIGHT TZOFFSETFROM:+0100 TZOFFSETTO:+0200 TZNAME:CEST DTSTART:19700308T020000 RRULE:FREQ=YEARLY;BYMONTH=3;BYDAY=-1SU END:DAYLIGHT BEGIN:STANDARD TZOFFSETFROM:+0200 TZOFFSETTO:+0100 TZNAME:CET DTSTART:19701101T020000 RRULE:FREQ=YEARLY;BYMONTH=10;BYDAY=-1SU END:STANDARD END:VTIMEZONE BEGIN:VEVENT DTSTAMP:20241120T082410Z LOCATION:HG E Haupthalle DTSTART;TZID=Europe/Stockholm:20240604T193000 DTEND;TZID=Europe/Stockholm:20240604T213000 UID:submissions.pasc-conference.org_PASC24_sess151_pos151@linklings.com SUMMARY:P17 - Enhancing Hydrodynamic Simulations with SERGHEI: Integrating New Modules for Comprehensive Environmental Modeling DESCRIPTION:Poster\n\nDaniel Caviedes-Voullième (Forschungszentrum Jülich) and Mario Morales-Hernández, Sergio Martínez-Aranda, Pablo Vallés, and Pi lar García-Navarro (University of Zaragoza)\n\nThe field of computational hydrodynamics has witnessed a remarkable evolution, enabling the simulatio n of complex environmental phenomena with unprecedented precision and effi ciency. At the forefront of this advancement stands SERGHEI, a state-of-th e-art framework for hydrological, environmental, and geomorphological flow simulation. This work introduces three novel modules integrated into SERG HEI: Lagrangian Particle Tracking (LPT), Advection-Diffusion-Equation (ADE ), and Sediment Transport (ST). SERGHEI is an open-source, multidimensiona l simulation tool designed in C++ and Kokkos for performance portability a cross various HPC systems. The code is accessible at https://gitlab.com/se rghei-model/serghei. The LPT module adds a granular perspective to environ mental simulations, allowing for detailed analysis of debris transport in flood scenarios. The ADE module facilitates robust modeling of substance t ransport in fluid flows, crucial for pollution dispersion and ecosystem im pact assessments. The ST module addresses sediment transport in hydrodynam ic studies, enabling the simulation of entrainment, deposition, and sedime nt movement in hydraulic erosive flows. Incorporating these modules into S ERGHEI represents a substantial leap in simulating multi-dimensional, mult i-domain, and multi-physics problems. While enhancing SERGHEI's applicatio n spectrum, these additions also introduce challenges in computational eff iciency and scalability. This work focuses on optimizing these aspects to keep SERGHEI at the forefront of high-performance environmental simulation s. END:VEVENT END:VCALENDAR