RT Journal Article ID 08a9eaf73147b4dc A1 Pityuk, Yulia A. A1 Abramova, Olga A. A1 Gumerov, Nail A. A1 Akhatov, Iskander S. T1 BUBBLE SELF-PROPULSION SIMULATION USING ACCELERATED BOUNDARY ELEMENT METHOD JF Visualization of Mechanical Processes: An International Online Journal JO VMP YR 2013 FD 2016-07-19 VO 3 IS 2 OP 0 K1 bubble dynamics K1 surface mode K1 bubble self-propulsion K1 potential flow K1 boundary element method K1 fast multipole method K1 graphics processors AB In the present study, bubble dynamics in potential flow is considered. The computational approach is based on the boundary element method (BEM) accelerated both via the fast multipole method (FMM) and the heterogeneous computing architecture (multicore CPUs and graphics processors). The dynamics of exited high-order surface modes of bubble and the transfer of energy between surface modes, which can lead to bubble self-propulsion, are studied. PB Begell House LK https://www.dl.begellhouse.com/journals/08456987543b9011,4c5f0b7f0553d291,08a9eaf73147b4dc.html