1. Introduction; Basic concepts of running the process. The tasks of the dynamics of controlling thermal power plants in detail and in the whole. Mathematical modeling of processes and objects. Types of model.3. Processes in the flow of working fluids in elements of the TE plants. Streaming of incompressible fluid - pressure, flow and concentration control (mixing). Streaming of compressible fluid - regulation of pressure, flow and concentration.4. Dynamics of fluid level. Homogenous fluid. Non-homogeneous (two-phase) fluid. Dynamics of current-thermal processes. Models with focused parameters. Models with distributed parameters. Free heat exchangers - radiative, convective recuperative and regenerative. Modeling the portable behavior of the boiling surfaces of the steam boiler. Evaporative system. Hot steam generator. Water heater. The dynamics of complex heating packages in the changes in the load of the object as a whole. Dynamics of transport processes with storage. 8. Dynamics of working machines. Generic model. Condensing steam turbine without and with subtraction. Anti-pressure steam turbine. Pumps and fans.9. Dynamics of measurement and executive bodies and regulators.10. Modeling the dynamics of the content of working media in thermotechnical devices. Systems with homogeneous and non-homogeneous liquids. 11. Dynamics of the temperature control system. Systems for influencing the temperature of overheated steam - mixing, recuperation refrigerators. Assembly and dynamics of control systems.12. Pressure dynamics. Regulating system with the influence of the flow of working media. Regulating system with heating effect.13. Dynamics of the steam boiler combustion control system. Quality criteria (efficiency). Basic circuits and models.14. The dynamics of the plant in the changes of the load of the block. Regulatory tasks. Basic circuits.