MODELING OF Q-H CHARACTERISTICS OF THE ELECTRIC DRIVE WITH A VORTEX ELECTRICAL PUMP

In this paper we consider the possibility of modeling the performance characteristics of the electric drive with a vortex electric pump. The structure of the vortex electric pump studied for the experiment is considered, as well as its Q-H characteristic. To determine the optimal control limit of square-law characteristic of H = f (Q) we offer an ade-quate mathematical model of working Q-H characteristics of the electric vortex pump Pk 200. It is concluded that for studying and searching for optimal performances of the vortex pump Pk 200 the model of square-law characteristic H = f (Q) in accordance with the general expression for the working section can be applied within a certain range of values, i.e. the flow rate from Q1 (1,5) to Q2 (3,5) and the pressure from H1 (67) to H2 (30).

Q-H характеристики, электропривод, вихревой электронасос, оптимальный диапазон работы, modeling, Q-H characteristics, electric drive, pump with peripheral impeller, optimum operating range

1. Emekeev A. A., Sagdatullin A. M., Muravyeva E. A. Representation of process parameters pump stations by term set with a rectangular shape of the membership function // Proceedings of the 16th International Worcshop on Computer Science and Information Technologies (CSIT’2014, Sheffield, England, September 16-22, 2014). - 2014. - Vol. 1. - Pp. 138-141.

2. Сагдатуллин А. М. Анализ фонда добывающих скважин и степени разработанности нефтегазовых месторождений // Известия высших учебных заведений. Нефть и газ. - 2014. - № 5 (107). - С. 46-50.

3. Сагдатуллин А. М., Емекеев А. А., Муравьева Е. А. Интеллектуальное логическое управление электроприводом насосной станции // Современные технологии в нефтегазовом деле. Сборник трудов международной научно-технической конференции: в 2 т. Т. 2. - Уфа: Аркаим, 2014. - С. 218-221.

4. Artur Sagdatullin. Multidimensional Fuzzy Control System Development of Oil Transportation and Treatment Technological Processes Based on the Input/Output Parameters Model in the Precise Terms Set Form // Applied Mechanics and Materials. - Vol. 756 (2015). - Pp. 626-632. doi:10.4028/www.scientific.net/AMM.756.626.

5. Сагдатуллин А. М. Анализ и синтез структуры системы управления электроприводом насоса процесса подготовки нефти // Известия высших учебных заведений. Нефть и газ. - 2014. - № 6 (108). - С. 106-112.

6. Лезнов Б. С. Частотно-регулируемый электропривод насосных установок. - М.: Машиностроение, 2013. - 176 с.

7. Artur Sagdatullin, Alexander Emekeev, Еlena Muravyova. Intellectual Control of Oil and Gas trans-portation system by Multidimensional Fuzzy Controllers with Precise Terms // Applied Mechanics and Materials. Vol. 756 (2015). pp. 633-639. doi:10.4028/www.scientific.net/AMM.756.633.

8. Kayashev, Alexander; Muravyova, Elena; Sharipov, Marsel; Emekeev, Alexander; Sagdatullin, Artur, «Verbally defined processes controlled by fuzzy controllers with input/output parameters represented by set of precise terms» Mechanical Engineering, Automation and Control Systems (MEACS), 2014 International Conference on , Vol., no., pp.1,5, 16-18 Oct. 2014.doi: 10.1109/MEACS.2014.6986847.