Academic Partnerships

Today’s students are tomorrow’s engineers, researchers and entrepreneurs. ANSYS continues to evolve our academic portfolio to meet the needs of academia, and we partner with professors, student teams and institutions across the globe to support hands-on learning opportunities where simulation makes an impact. Our academic partnerships are in place to provide benefits to all stakeholders, including educational institutions, students, industry and ANSYS.

  • BREIN European Consortium — development of automated wind farm modeling
  • Carnegie Mellon University — teaching and research activity in electronics, energy, biomedical and nanotechnology sciences
  • Colorado School of Mines — development of modeling tools to represent electrochemical systems and supporting components
  • Cornell University, Cornell Theory Center — research on developing tools and methods for turbulent combustion simulations
  • Dalhousie University — research on multiphase flow and power generation applications
  • Georgia Institute of Technology — cardiovascular fluid mechanics research
  • IMPACT Center (consortium) — advancement of microscale mechanical, electrical integrated systems and nanotechnology
  • Illinois Institute of Technology — research in dynamics of fluid/polydispersed particle systems
  • Instituti Ortopedici (IOR), collaboration with European Project (VPHOP) — osteoporotic virtual human physiological
  • Iowa State University — research on CFD simulation of nanoparticle formation in microreactors
  • Korea Advanced Institute of Science and Technology (KAIST) — research in megascale modeling of surface damage for structural health monitoring in civil engineering; microscale modeling of internal damage in composite materials; modeling of surface contact phenomena
  • McGill University Metals Processing Center (MMPC) — iron and steel making research
  • Mississippi State University — fluid dynamics research
  • MIT — research on computational modeling of vascular drug delivery
  • North Carolina State University — research on fluid particle dynamics analysis of biomedical systems; simulation modeling in emerging technologies in nonwoven industry
  • Pennsylvania State University — research in fuel cell modeling
  • Princeton University — research in flow simulations
  • Purdue — electronics cooling research
  • Purdue — West Lafayette, Center for Excellence for Airliner Cabin Environment Research
  • Rutgers University — flow, mixing and scale up problems in mixers
  • St. Petersburg State Polytechnic Institute — aerodynamics student projects and aircraft engine applications
  • TU Darmstad — joint research initiative in CFD software development for multidimensional flow simulations in nuclear reactor containments
  • TU Dresden — research on CFD software development for multidimensional flow simulation; part of European Research Network - EUREKA
  • TU München — joint research on CFD software development for multidimensional flow simulations in nuclear reactor cooling circuits
  • Tufts University — research studying flow in cerebral aneurysms
  • University of Alberta — multiphysics and MEMS research
  • University of Bern — research associated with VPHOP European Project
  • University of British Columbia — research on biomechanical modeling of mechanical behavior of tongue and modeling of airflow
  • University of Connecticut — research on flame simulations with detailed chemical kinetics
  • University of Eindhoven — research on orthopedic applications
  • University of Florida — development of CFD-specific chemical engineering curricula material
  • University of Liverpool — research on impact and blast
  • University of Maryland — high-shear mixing research
  • Universities of Glasgow, Strathcyde and Lancaster — marine energy research
  • University of Texas Arlington — electronics and electronic packaging research
  • University of Utah — research on simulation of nanoparticle synthesis in gas-phase reactors
  • University of Victoria — research in fuel cell technology
  • University of Wisconsin — supporting Kiva users using ANSYS ICEM CFD as a post-processor
  • University of Wisconsin — research in thermal forming
  • Ghent University — biomedical research in cardiovascular modeling

ANSYS provides engineering simulation software for university based student teams participating in competitions such as Formula SAE (FSAE), Solar Challenge, Electronic Design Competition, Solar Splash, SpaceX Hyperloop Pod Design, Racing Aeolus, Human Powered Vehicle Challenge (HPVC) and many more.

Student Team SponsorshipsAs they design prototype/components as suspension, steering system, brakes, roll cages, external aero systems, diffusers, intake manifolds, engine casings and composite structures, these engineering teams are gaining the real-world experience that will help them succeed as professionals. Because they are using professional tools, many of these student teams rely on engineering simulation via ANSYS.

Teams will be provided a package of ANSYS Academic Products to explore the power and performance of ANSYS structural, fluid, composites and electronics based simulations.

Student teams can apply for this sponsorship by submitting the form available here.


Student Teams: