In this course, you will learn the following topics. Wing: purpose, requirements, forms and parameters. Purpose of plumage. Sustainability. Mechanization of the wing and plumage. Fuselage: purpose, main parameters and requirements. Chassis: purpose, composition, basic requirements. Chassis diagrams. General information on the creation of aircraft engines. Power systems of rotors and housings. Design of engine compressors. engine combustion chambers. Gas turbines
In this course, you will learn the following topics. Basic concepts of automatic control systems (ACS). Static and astatic regulation. Link connections. Transformation of structural diagrams of ACS. Sustainability of ACS. Basic concepts and criteria. The quality of the ACS. Basic estimates and parameters. Synthesis of ACS. Types of GTE regulation programs. Programs for regulating the maximum regimes of turbojet engines according to external conditions. Turbojet engine as an object of regulation. Automatic gas temperature control systems. Various methods of acceleration of the engine in throttle response. The place and role of diagnostics in the system of technical operation and repair of aviation equipment. Diagnostic models: explicit, implicit; discrete, continuous. Bayes method. Methods for making statistical decisions. diagnostic signs. Entropy of the system. Forecasting the technical condition of aviation equipment. Forecasting goals. On-board registration devices.
In this course, you will learn the following topics. Formation of a system of maintenance and repair of aviation equipment. Use and maintenance of ground equipment during maintenance. Construction of a rational in time technological process of maintenance of aviation equipment.
This course involves traveling and working at the university's training airfield. Carrying out maintenance work on engines, airframe and aircraft systems with gas turbine engines.
