@ARTICLE{Pawlak_Wojciech_I._Nonlinear_2003, author={Pawlak, Wojciech I.}, volume={vol. 50}, number={No 3}, journal={Archive of Mechanical Engineering}, pages={227-245}, howpublished={online}, year={2003}, publisher={Polish Academy of Sciences, Committee on Machine Building}, abstract={The time period of a jet engines full acceleration (from idle run rotating speed to full thrust) is a very important operational parameter. Minimization of this period is an important problem to be solved during the design of the fuel supply and control system. There are many methods of acceleration process control, especially in the case of engines with complicated design configurations. This work presents the problem of acceleration of a simple, single spool turbine jet engine with a so-called stable geometry, in which only one input (control) signal exists - fuel flow rate. Two methods of acceleration control consisting of limitation of the maximum allowable temperature of working medium in front of and behind the turbine in transient states were analyzed. In order to avoid difficulties associated with the direct measurement of actual temperatures, the so-called nonlinear engine observer was applied. With the use of the computer simulation method it was proven that the control algorithm with the limited maximum temperature in front of the turbine makes it possible the shortening of the acceleration time period significantly in comparison with a similar algorithm, that realizes the limitation of temperature behind the turbine.}, type={Article}, title={Nonlinear observwer in control system of a turbine jet engine}, URL={http://journals.pan.pl/Content/125080/PDF-MASTER/3_MECHANICAL_50_2003_3_Pawlak_Nonlinear.pdf}, keywords={turbine engine, control system, nonlinear observer}, }