Analysis of strength and reliability of various components and systems of nuclear power plants (NPP) and non-nuclear energy power stations:

• equipment of reactor, turbine, hydrotechnical units (regenerators, after-coolers, steam generators, technological condensers, boilers, volume compensators, deaerators, low- and high-pressure heaters, moisture separator reheaters, pressure vessels, various pumps, etc.);
• reinforced concrete and steel support structures;
• structures of nuclear power plants and non-nuclear energy power stations buildings;
• nuclear fuel dry storage structures and equipment.

Various types of analysis:

• statics, buckling, vibration, fatigue;
• extreme dynamic loads (seismic, air-shock wave);
• earthquake resistance and floor spectra response calculations.

Piping assessments:

• mechanical and temperature loading;
• choice of support system.

Design calculations of principal equipment dimensions

Drop-test modeling of Spent Nuclear Fuel Casks.

Design of:

• beam structures
• frames, supports
• pressure vessels

Finite element and analytical analysis of:

• static and linear dynamics
• nonlinear mechanics, numerical plasticity
• weight and strength optimization
• kinematic schemes and mechanisms
• impact mechanics, virtual drop-tests, crash-tests
• fluid dynamics and fluid structure interaction
• acoustics
• electrodynamics and magnetostatics