![]() ![]() ![]() “We are addressing this challenge by developing a quantum software framework for industrially relevant computational fluid dynamics problems,” explains Prof. The opportunities currently available for calculating these flows are not sufficient to address the future requirements of research and industrial uses. However, researchers are facing significant challenges from the wide range of simultaneously occurring spatial structures, combined with different typical times when these processes occur. For example, the optimization of cooling systems for automobile batteries is a major issue for fluid dynamics in electro-mobility. This is true in the natural and life sciences, in climate science as well as for the chemical, energy, automobile, aviation, and ship-building industries. Dieter Jaksch from Universität Hamburg awarded EUR 4.9 million EU funding for the calculation of fluid dynamics using quantum technology.Īdvances in research and technology in numerous areas are determined by the ability to exactly predict and optimize complex fluid dynamics. Quantum technologies promise faster solutions for many scientific and technology questions. Prospective continuing education students.Hamburg Center for University Teaching and Learning (HUL).Center for Interdisciplinary Studies and Academic Skills.Center for Earth System Research and Sustainability.The Cluster of Excellence Understanding Written Artefacts.The Cluster of Excellence Quantum Universe.Office of Affairs for Students with Disabilities or Chronic Diseases.Katalogplus – Catalogue of Hamburg Libraries.Faculty of Psychology and Human Movement Science.Faculty of Mathematics, Informatics and Natural Sciences.Faculty of Business, Economics and Social Sciences. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |