##plugins.themes.academic_pro.article.sidebar##

Download
pdf
Statistic
Read Counter : 25 Download : 17

##plugins.themes.academic_pro.article.main##

Abstract

Currently, air-separating compressors are widely used in many industries in the Republic of Uzbekistan. Air separation plays a very important role in the industry its role in the development of the metallurgical industry is considered to be large and not only the required air compressor cooling equipment and compressed air for cooling plant, but also the raw material needed for separation the plant is the main device in the air separation plant. Usage most of the air compressor is very wide used in important departments such as metallurgy, oil and chemical industry. An air compressor system is a complex time-varying, delayed, and nonlinear system. Defects in content the traditional control method and the controller leads to instability of the pressure of the released compressed air air compressor in conditions of volatile gas consumption, wide range fluctuations that sometimes occur, for gas consumption in the industrial sector creates a chaotic environment. That is why, the working condition of the air compressor will be unstable. In general, the electricity consumption of air the compressor system operates at steady state and it is twenty percent of the total energy consumption affects the economic condition of the enterprise. In addition, energy consumption unstable condition will be more. This also leads to wastage of resources and causes more energy consumption. Therefore, the guarantee the output pressure of the air compressor system is stable it is extremely important to increase efficiency and energy saving will be necessary for the general air separation system. This turbine compressor system was taken as the research object and analyze its characteristics and control requirements. Technological control technology applied to the system, ECS-500 the SUPCON system was used for air conditioning compressor system and monitoring real time values important parameters of various components were calculated. According to the working characteristics of the air compressor system, technical system control theory, as one modern control theories were applied to the constant and pressure control system for technical pressure design set by the manager. The simulation results showed that the controller and not only more convenient and efficient, but that provided a specific guideline value and reference for and studies were conducted on the control of other parameters of the air compressor system.

Keywords

Time mode variable mode system control

##plugins.themes.academic_pro.article.details##

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

How to Cite
Dauletov Kalniyaz Abatbayevich, & Kulmuratova Aliya Janabay qizi. (2023). Research on methods of automatic control of constant pressure compressors. Texas Journal of Engineering and Technology, 20, 17–22. Retrieved from https://zienjournals.com/index.php/tjet/article/view/3917

References

  1. Kulmuratova Aliya Janabay qizi. (2023). IN THE MANAGEMENT OF TECHNOLOGICAL PROCESSES A PROCESS MODEL THAT SUPPORTS DESIGN AUTOMATION. INTERNATIONAL BULLETIN OF ENGINEERING AND TECHNOLOGY, 3(3), 213–223. https://doi.org/10.5281/zenodo.7794553
  2. Janabay qizi, K. A., Jumabay o‘g‘li, U. A., & Nuratdinovna, E. A. (2023). Application and Technological Description of Microprocessors in Technological Measuring Devices. Miasto Przyszłości, 33, 89–96. Retrieved from https://miastoprzyszlosci.com.pl/index.php/mp/article/view/1192
  3. qizi, Y. H. B. . (2023). Stages of Modern Technological Development of Automation of Robotization Processes. Miasto Przyszłości, 33, 284–293. Retrieved from https://miastoprzyszlosci.com.pl/index.php/mp/article/view/1233
  4. Yo’ldoshova Hilola Baxtiyor qizi. (2023). PRODUCTION PLANNING IN TECHNOLOGICAL PROCESSES AND ROBOTIC PROCESS AUTOMATION PROGRAMS. European Scholar Journal, 4(3), 137-143. Retrieved from https://www.scholarzest.com/index.php/esj/article/view/3332
  5. Yo'ldoshova Hilola Baxtiyor qizi. (2023). MANAGEMENT OF THE SYSTEM SCHEME OF AUTOMATION OF ROBOTIZATION PROCESSES. INTERNATIONAL BULLETIN OF ENGINEERING AND TECHNOLOGY, 3(3), 183–193. https://doi.org/10.5281/zenodo.7776593
  6. Kulmuratova Aliya Janabay qizi. (2023). ARTIFICIAL INTELLIGENCE AUTOMATION WELDING PROCESS SYSTEM TECHNOLOGY RESEARCH. INTERNATIONAL BULLETIN OF APPLIED SCIENCE AND TECHNOLOGY, 3(3), 611–621. https://doi.org/10.5281/zenodo.7794534
  7. Yo'ldoshova Hilola Baxtiyor qizi. (2023). AUTOMATION OF WORK WITH E-MAIL AND ROBOTICS SYSTEM CONTROL SYSTEM. INTERNATIONAL BULLETIN OF APPLIED SCIENCE AND TECHNOLOGY, 3(3), 394–404. https://doi.org/10.5281/zenodo.7776607
  8. Janabay Qizi, K. A. . (2023). Application of Automation Tasks and Management of Technological Processes. Pioneer : Journal of Advanced Research and Scientific Progress, 2(3), 13–19. Retrieved from https://innosci.org/jarsp/article/view/940
  9. Yo’ldoshova Hilola Baxtiyor qizi. (2023). Use of energy-saving operational technological systems in automation processes. The Peerian Journal, 16, 60–70. Retrieved from https://www.peerianjournal.com/index.php/tpj/article/view/515
  10. Kulmuratova Aliya Janabay qizi. (2023). Automation Technique Design Classification of Technological Objects. International Journal of Scientific Trends, 2(2), 128–136. Retrieved from https://scientifictrends.org/index.php/ijst/article/view/66
  11. Mirzabek qizi, A. M., & Orinbay qizi, K. S. (2023). Application of Modern Microprocessors in Technological Measuring Devices and Principles of their Use. Miasto Przyszłości, 32, 320–326. Retrieved from https://miastoprzyszlosci.com.pl/index.php/mp/article/view/1158
  12. Kulmuratova Aliya Janabay qizi. (2023). AUTOMATION AND MONITORING OF PRODUCTION TECHNOLOGICAL PROCESSES USING IOT. https://doi.org/10.5281/zenodo.7693583
  13. Kulmuratova Aliya Janabay qizi, Uzaqbergenov Aytbay Jumabay o‘g‘li, & Erejepova Altingul Nuratdinovna. (2023). ABOUT THE AUTOMATION AND ROBOTIZATION OF THE TECHNOLOGICAL PROCESS OF SOFTWARE. European Scholar Journal, 4(2), 106-110. Retrieved from https://scholarzest.com/index.php/esj/article/view/3252
  14. Kulmuratova Aliya Janabay qizi. (2023). RESEARCH ON CREATING A WIRELESS MACHINE CONTROL SYSTEM THROUGH ROBOTIZATION AND AUTOMATION OF TECHNOLOGICAL PROCESSES. Neo Scientific Peer Reviewed Journal, 9, 52–63. Retrieved from https://neojournals.com/index.php/nspj/article/view/168
  15. Qizi, Y. H. B. . (2023). Setting the Time Mode in the Process of Automating Robots. Pioneer : Journal of Advanced Research and Scientific Progress, 2(4), 37–46. Retrieved from https://innosci.org/jarsp/article/view/1133
  16. Qizi, Y. H. B. (2023). Use of Wireless Technologies in the Automation of Technological Processes. International Journal on Orange Technologies, 5(4), 7-16. Retrieved from https://journals.researchparks.org/index.php/IJOT/article/view/4256
  17. Kulmuratova Aliya Janabay qizi. (2023). Development of automated power supply management system software. Eurasian Journal of Engineering and Technology, 17, 114–120. Retrieved from https://geniusjournals.org/index.php/ejet/article/view/4061
  18. Yeshmuratova A. TECHNOLOGICAL METHODS OF ENSURING INFORMATION SECURITY IN TECHNICAL SYSTEMS //Евразийский журнал академических исследований. – 2023. – Т. 2. – №. 4. – С. 188-192.
  19. Yeshmuratova A. et al. ENSURING COMPUTER DATA AND MANAGEMENT SYSTEM SECURITY //International Bulletin of Applied Science and Technology. – 2023. – Т. 3. – №. 4. – С. 282-287.
  20. Eshmuratova A. A. MATCAD DASTURIDAN FOYDALANIB IKKI VA UCH OLCHOVLI GRAFIKLARNI QURISH //Journal of Integrated Education and Research. – 2022. – Т. 1. – №. 5. – С. 534-539.
  21. Утемисов А. О., Юлдашова Х. Б. К. СИСТЕМЫ АВТОМАТИЧЕСКОГО УПРАВЛЕНИЯ //Universum: технические науки. – 2022. – №. 5-2 (98). – С. 45-47.
  22. Kaipbergenov A. T., Utemisov A. O., Yuldashova H. B. K. STEADY OF AUTOMATIC CONTROL SISTEMS //Academic research in educational sciences. – 2022. – Т. 3. – №. 6. – С. 918-921.
  23. O'telbayeva Muhayyo Alisherovna. (2023). CHEMICAL ENGINEERING, CHEMICAL PROCESSES FOR PRODUCTION. EURASIAN JOURNAL OF ACADEMIC RESEARCH, 3(5), 138–142. https://doi.org/10.5281/zenodo.7902045
  24. Najimova N., Utepbaeva G., Urazbayeva A. WATER ELECTROLYSIS STUDIES AND CHEMICAL TECHNOLOGICAL DESCRIPTION //International Bulletin of Applied Science and Technology. – 2023. – Т. 3. – №. 4. – С. 509-513.
  25. Najimova N. GENERAL INFORMATION ABOUT CHEMICAL PROCESSES AND REACTORS //Евразийский журнал академических исследований. – 2023. – Т. 3. – №. 3 Part 3. – С. 28-37.
  26. Saparov A. B. et al. Analysis Of the Effect of The Physical Properties of Liquids on External Forces (Factors) //Texas Journal of Multidisciplinary Studies. – 2022. – Т. 5. – С. 111-114.
  27. Хolmatov О. М. et al. MURUNTAU KONI OLTINLI RUDALARINI UYUMDA TANLAB ERITISH USULIDA O’ZLASHTIRISHNING GEOTEXNOLOGIK SHAROITLARINI O’RGANISH //Eurasian Journal of Academic Research. – 2022. – Т. 2. – №. 11. – С. 790-797.
  28. Саидова Л. Ш. и др. АНАЛИЗ ИССЛЕДОВАНИЙ ПО ПОДЪЕМУ ГОРНОЙ МАССЫ ИЗ ГЛУБОКИХ КАРЬЕРОВ И ВЫБОР ГОРНОТРАНСПОРТНОГО ОБОРУДОВАНИЯ ДЛЯ ОТКРЫТЫХ ГОРНЫХ РАБОТ //Eurasian Journal of Academic Research. – 2022. – Т. 2. – №. 11. – С. 811-816.
  29. Kaipbergenov, A., & Jumamuratov, R. (2019). The methodology of teaching chemistry based on the use of computer programs.
  30. Bekturganova, Z., & Jumamuratov, R. (2017). МЕТОДЫ ОБУЧЕНИЯ САМОСТОЯТЕЛЬНОЙ РАБОТЕ УЧАЩИХСЯ НА УРОКЕ ХИМИИ.
  31. Aynazarova S. KIMYONI O'QITISH VOSITALARI TIZIMI VA UNING DIDAKTIK IMKONIYATLARINI O'RGANISH //Scienceweb academic papers collection. – 2021.
  32. Ravshanov Z. et al. EVALUATION OF THE STRENGTH OF ROCKS IN OPEN MINING PROCESSES IN MINING ENTERPRISES //Science and innovation. – 2023. – Т. 2. – №. A4. – С. 96-100.
  33. Ravshanov Z. et al. METHODS OF DETERMINING THE SAFETY AND ENVIRONMENTAL IMPACT OF DUST AND EXPLOSION PROCESSES IN MINING ENTERPRISES //International Bulletin of Applied Science and Technology. – 2023. – Т. 3. – №. 4. – С. 415-423.
  34. Jumabayeva G., Allanazarov B., Joldasbayeva A. STAGES OF OPEN PIT MINING. MINING METHODS AND THEIR PROCESSES //Science and innovation. – 2023. – Т. 2. – №. A1. – С. 236-240.
  35. Allanazarov B. GEODETIC DIMENSIONING STUDIES AND POINT-DIMENSION LOCATION COORDINATE SCHEME CREATION PROCESSES //Евразийский журнал академических исследований. – 2023. – Т. 2. – №. 4 Part 2. – С. 21-25.
  36. Artikbayevna, Yeshmuratova Amangul, and Amanbaev Nursultan Salamat o'g'li. "O'telbayev Azizbek Alisher o'g'li.(2023). ENSURING COMPUTER DATA AND MANAGEMENT SYSTEM SECURITY. INTERNATIONAL BULLETIN OF APPLIED SCIENCE AND TECHNOLOGY, 3 (4), 282–287."
  37. Paxratdinov , A. D., & Abdiramanova , Z. U. (2023). ELEKTR ENERGIYA SAPASIN ELEKTR ENERGIYA ISIRAPINA TÁSIRIN ÚYRENIW HÁM HARAKTERISTIKALAW. Educational Research in Universal Sciences, 2(1 SPECIAL), 233–236. Retrieved from http://erus.uz/index.php/er/article/view/1793
  38. Yo’ldoshova Hilola Baxtiyor qizi. (2023). AUTOMATION OF TECHNOLOGICAL PROCESSES AND THE IMPORTANCE OF THE TECHNOLOGICAL SYSTEM IN THE FUTURE OF INDUSTRIAL ENTERPRISES. Innovative Technologica: Methodical Research Journal, 4(05), 16–23. https://doi.org/10.17605/OSF.IO/4BHNU