Your search keyword '"Mekhtiyev, Ali"' showing total 5 results

1. IDENTIFYING THE INFLUENCE OF THE SYSTEM AND MODE CHARACTERISTICS ON THE POWER LOSS MODE BASED IN 110 kV POWER GRIDS.

Author

Akimzhanov, Temirbolat, Sarsikeyev, Yermek, Zhantlessova, Assemgul, Zhumazhanov, Serik, Baydulla, Zhanibek, Issabekova, Bibigul, Issabekov, Zhanat, Mekhtiyev, Ali, and Neshina, Yelena

Subjects

ELECTRIC lines, ELECTRIC power distribution grids, INFORMATION superhighway, PHOTOVOLTAIC power generation, INFORMATION measurement, PHASOR measurement, POPULATION density, ELECTRIC power

Abstract

In this paper, the object of the research is 110 kV power grids of three regions of the Republic of Kazakhstan: Astana city, Turkestan region and Shymkent city, as well as West Kazakhstan region. Operators of the studied power grids have no idea about the real levels of voltage and current sinusoidality distortion coefficients, as well as about their relationship with other regime and system parameters of power grids. Similar problems may be faced by other grid companies that do not have the appropriate information and measurement infrastructure to monitor the modes of power grids in terms of voltage and current sinusoidality distortion. In the course of the present study, using portable three-phase power quantity and quality analyzers, it was possible to make daily measurements of mode parameters in 41 110 kV transmission lines with a length of 5 to 120 km. The results of measurements showed that in Astana city, the voltage quality is at a satisfactory level, but the distortion coefficient of sinusoidality of current reaches 39 % (the average level for 15 studied lines is 13.3 %) due to the high concentration of non-linear load of consumers. In the South of Kazakhstan, the voltage and current sinusoidality distortion coefficients are relatively moderate, but voltage drops are frequent (sometimes up to 10 % or more) due to the large distance between load centers and relatively high population density. In the power grids of Western Kazakhstan, voltage and current sinusoidality distortion coefficients have high levels (reach 14 % and 70 %, respectively) due to low network load with a large length of transmission lines. The analysis makes it possible to trace the relationship of voltage and current sinusoidality distortion coefficients with such regional characteristics as population density, nature of loads, power losses, voltage and current levels. [ABSTRACT FROM AUTHOR]

Published

2023

2. POWER SUPPLY VIA FIBEROPTICAL CONDUCTOR FOR SENSORS OF MINE WORKING MONITORING SYSTEM.

Author

Mekhtiyev, Ali, Dunayev, Pavel, Neshina, Yelena, Alkina, Aliya, Aimagambetova, Raushan, Mukhambetov, Gabit, Kirichenko, Lalita, and Kazambayev, Ilyas

Subjects

POWER resources, ELECTRIC power, ELECTRICAL engineering, ELECTRONIC equipment, CURRENT-voltage characteristics, PHOTODETECTORS, FIBER optic cables

Abstract

The article describes a system of power transmission via fiber-optic cable, which allows the supply of power to sensors and other electronic devices of ultra-low power located in places of mining workings, for which the mandatory requirement is fire safety. The developed system will allow to replace the application of copper conductors. The result of this research is the developed laboratory bench that allows measuring the current and voltage parameters in the photodetector branch. The equivalent generator method has been used, as well as the known circuit laws with two dedicated nodes for an active two-terminal network. When analyzing the literature, the existing scientific achievements, and discoveries in the field of research, an own concept of research has been formed that is different from foreign analogs. During the experiment, the studies have been performed when the photodetector was in the short circuit, idle mode, and connected to a high-resistance load. Based on the results obtained, current-voltage characteristics (CVC) and histograms have been built using a radiation source (laser) with a power of 10 and 30 mW. The parameters and technical characteristics of the irradiated silicon crystal and the radiation source have been given. The obtained electrical power has been determined using the known laws of electrical engineering, including the Ohm law. To process the experimental data, there has been used quadratic interpolation of the function, the results of the root-meansquare approximation, and there has been carried out the regression analysis. Absolute and relative errors have been calculated. The Student coefficient has been determined with a confidence interval of 0.95. Based on the results of the study, the efficiency of the power transmission system has been determined [ABSTRACT FROM AUTHOR]

Published

2023

3. DEVELOPMENT OF COMPRESSION ALGORITHMS FOR HYPERSPECTRAL AEROSPACE IMAGES BASED ON DISCRETE ORTHOGONAL TRANSFORMATIONS.

Author

Sarinova, Assiya, Dunayev, Pavel, Bekbayeva, Aigul, Mekhtiyev, Ali, and Sarsikeyev, Yermek

Subjects

REMOTE sensing, DATA compression, LOSSLESS data compression, ALGORITHMS

Abstract

The work is devoted to the description of the development of compression algorithms for hyperspectral aerospace images based on discrete orthogonal transformations for the purpose of subsequent compression in Earth remote sensing systems. As compression algorithms necessary to reduce the amount of transmitted information, it is proposed to use the developed compression methods based on Walsh-Hadamard transformations and discrete-cosine transformation. The paper considers a methodology for developing lossy and high-quality compression algorithms during recovery of 85 % or more, taking into account which an adaptive algorithm for compressing hyperspectral AI and the generated quantization table have been developed. The existing solutions to the lossless compression problem for hyperspectral aerospace images are analyzed. Based on them, a compression algorithm is proposed taking into account inter-channel correlation and the Walsh-Hadamard transformation, characterized by data transformation with a decrease in the range of the initial values by forming a set of channel groups [10–15] with high intra-group correlation [0.9–1] of the corresponding pairs with the selection of optimal parameters. The results obtained in the course of the research allow us to determine the optimal parameters for compression: the results of the compression ratio indicators were improved by more than 30 % with an increase in the size of the parameter channels. This is due to the fact that the more values to be converted, the fewer bits are required to store them. The best values of the compression ratio [8–12] are achieved by choosing the number of channels in an ordered group with high correlation. [ABSTRACT FROM AUTHOR]

Published

2022

4. DESIGN OF AN INFORMATIONMEASURING SYSTEM FOR MONITORING DEFORMATION AND DISPLACEMENT OF ROCK MASSIF LAYERS BASED ON FIBER-OPTIC SENSORS.

Author

Yugay, Vyacheslav, Mekhtiyev, Ali, Neshina, Yelena, Aubakirova, Bakhytkul, Aimagambetova, Raushan, Kozhas, Aigul, Alkina, Aliya, Musagazhinov, Madiyar, and Kovtun, Alexandr

Subjects

ROCK deformation, COAL dust, DUST explosions, DETECTORS, INDUSTRIAL safety, COAL mining, SINGLE-mode optical fibers

Abstract

This paper reports a study into designing an information-measuring system that could be used in coal mines that are dangerous in terms of the explosion of coal dust and methane gas. The results of reviewing technical advancements in the field of fiber-optic system development are given. To solve the set task, prototypes of a fiber-optic sensor of a new type and a hardware-software complex were constructed. The research aims to improve the safety of workers at coal enterprises. The result of the theoretical research has established that additional losses related to a micro bending should be taken into consideration while accounting for the effect of photoelasticity. The fundamental difference between the idea reported here and existing analogs is the development of a hardware-software complex capable of working with a single-mode optical fiber of great length with a significant noise level. The data processing unit is equipped with a television matrix and can analyze changes in the pixels of a light spot. The proposed system is quasi-distributed; it controls individual points within a rock massif. The designed hardware-software system provides high noise immunity of measuring channels when the external temperature changes. The research results helped develop an information-measuring system for monitoring the deformation and displacement of rock massif layers based on fiber-optic sensors, capable of operating in an explosive environment. The system makes it possible to control several layers located in the roof of the workings, while the fiber-optic sensor may contain two or three sensitive elements that are connected to different channels. With a sharp fluctuation in pressure and an increase in the displacement parameter, the system triggers a warning signal about the danger. [ABSTRACT FROM AUTHOR]

Published

2021

5. DEVELOPMENT OF LOWPRESSURE ELECTRIC STEAM HEATER.

Author

Mekhtiyev, Ali, Breido, Iossif, Buzyakov, Rustam, Neshina, Yelena, and Alkina, Aliya

Subjects

HEATING, HEAT transfer, ENERGY dissipation, HEAT pipes, ENERGY conservation

Abstract

The study was devoted to solving the issue of creating new electric heating devices that can be used in autonomous heat supply systems. The issues were resolved by developing an original low-pressure electric steam heater. The study was aimed at improving the efficiency of heat supply systems for buildings and structures. Given the current trends in the global striving for energy conservation, it cannot be fully realized without the introduction of high-tech and low-energy- consuming electrical equipment. As a result of theoretical studies of a heat pipe with an electric heater, a design of an electrovacuum heating element has been developed. The low-pressure electric steam heater can be used in heat supply systems of autonomous users. Thermal energy transfer is currently accompanied by substantial energy losses since the heat carrier has to pass considerable distances. Switching of the facility to the heating plant is impossible in some cases because of technical problems or significant material costs for laying pipelines. As a result of the study, the dependence of heating the heat pipe at various volumes of the heat carrier and mass of the pipe itself was established. When a certain mass is reached, the temperature of the heating surfaces can reach 70 °C which is considered acceptable. The experimental data obtained have made it possible to develop an electric heater of new generation with a fundamentally new design of the heating element. It combines the efficiency of an electric spiral and comfortable warmth from a traditional radiator. This heater is an explosion and fire-safe and can be integrated into the Smart Home system. [ABSTRACT FROM AUTHOR]

Published

2021