Aerospace Technic and Technology

The main requirements for the differential pressure sensor developed by JSC "Element" by SE "DB" Yuzhnoye" order are given. It is shown that the most important criteria when choosing a primary transducer were the requirements, firstly, to control the pressure of chemically aggressive medium – rocket fuel, and secondly, to perform measurements of relatively low differential pressure under operating overpressure (linear) pressure. The upper limit of changes in linear pressure is an order of magnitude higher than the limit of the measured differential, and it is necessary to minimize the additional error due to the effect of operating overpressure. Information search data are given, because of which the primary transducers that best meet the specified requirements are selected, namely, Keller PD-10L series sensors. A sensor developed and manufactured on the basis of the selected primary transducer is briefly described. The main attention is paid to the description of metrological support of transducer development and testing and the results of experimental studies of its characteristics in terms of long-term stability and the effect of operating overpressure on the output signal when changing the controlled differential pressure in the measurement range. The given information concerns the creation of a specialized stand for the study of this effect, equipped with an imported meter that provides control of differential pressure from zero to 16 bar under the influence of operating overpressure 150…166 bar with an error of not more than ± 0,1 %. It is explained that the need to create a stand at the enterprise is due to the lack of such equipment and measuring equipment in the Ukrainian centers of metrology and standardization. Based on the results of the analysis of requirements for the application of the developed sensor performed together with the customer, a rational way of presenting the transformation function was selected, which minimizes the measurement error in the most responsible conditions.

differential pressure; zero offset from the action of operating overpressure; long-term stability

Buryachenko, A. G., Voloshina, N. P., Ranchenko, G. S., Deklama, Zh. Kriterii i rezul'taty otsenki nadezhnosti datchikov davleniya dlya aviatsi-onnykh dvigatelei [Criteria and results for assessing the reliability of pressure sensors for aircraft engines]. Aviatsionno-kosmicheskaya tekhnika i tekhnologiya – Aerospace technic and technology 2004, no. 7 (15), pp. 158–161.

Buryachenko, A. G., Ranchenko, G. S., Chivers, Dzh. Vibrokompensirovannyi vy-sokotemperaturnyi datchik peremennogo davleniya dlya maloemissionnykh GTD [Vibration-compensated high-temperature variable pressure sensor for low-emission gas turbine engines]. Datchiki i sistemy – Sensors and systems, 2007, no. 10, pp. 38–41.

Buryachenko, A. G., Ranchenko, G. S., Rjabokon', S. M. Rezul'taty issledovaniya parametricheskoi nadezhnosti aviatsionnykh datchi-kov davleniya. [The results of the study of the parametric reliability of aviation pressure sensors]. Aviatsionno-kosmicheskaya tekhnika i tekhnologiya – Aerospace technic and technology, 2013, nо. 8 (105), pp. 240–245.

Grudinkin, V. M., Buryachenko, A. G., Mirgorod, V. F., Drapak, M. V. Opyt i rezul'taty serti-fikatsionnykh ispytanii intellektual'noi siste-my izmereniya davleniya dvigatelya D-436-148 samo-leta An-148. [Experience and results of certification tests of the intelligent system for measuring the pressure of the D-436-148 engine of the An-148 aircraft]. Aviatsionno-kosmicheskaya tekhnika i tekhnologiya – Aerospace technic and technology, 2007, no. 7 (43), pp. 18–22.

Buryachenko, A. G., Ranchenko, G. S., Taranishin, A. O. Regulyator dlya dvigatelya MS-500 – razrabotka, ispytaniya, sertifikatsiya [Regulator for the MS-500 engine - development, tests, certification]. Aviacijno-kosmichna texnika i texnologiya – Aerospace technic and technology, 2021, nо. 4 (174), pp. 87–92. DOI: 10.32620/aktt.2021.4sup2.11.

Buryachenko, A. G., Grudinkin, V. M. Tekhnicheskie i algoritmicheskie sredstva povysheniya metrologicheskogo urovnya i nadezhnosti datchikov i sistem izmereniya davleniya. [Technical and algorithmic means of increasing the metrological level and reliability of sensors and pressure measuring systems]. Aviatsionno-kosmicheskaya tekhnika i tekhnologiya – Aerospace technic and technology, 2005, no. 8 (24), pp. 195–199.