•  
  •  
 

Abstract

The article provides information on modern methods of management and control of energy efficiency at industrial enterprises. This includes the software needed to manage and monitor energy efficiency, as well as the formation of a database. In addition, a structural diagram of an intelligent power monitoring system has been developed and its elements have been selected. Describes the principle of operation of an intelligent measuring device, its connection to the network, conversion of analog signals to digital, channels and ranges of signal transmission, metrological characteristics. The article details the capabilities and benefits of smart meters.

First Page

68

Last Page

75

References

  1. «Energiyadan oqilona foydalanish to‘g‘risida» Qonuniga o‘zgartish va qo‘shimchalar kiritish haqida»gi Qonun (O‘RQ-628, 14.07.2020 y.)
  2. «Iqtisodiyot tarmoqlari va ijtimoiy sohaning energiya samaradorligini oshirish, energiya tejovchi texnologiyalarni joriy etish va qayta tiklanuvchi energiya manbalarini rivojlantirishning tezkor chora-tadbirlari to‘g‘risida»gi Qaror (PQ-4422-son, 22.08.2019 y.)
  3. Mirzoyev Narzullo Nuridddinovich, “Analogical Model Development Methodology For Mathematical Modeling Of Energy Efficiency Control System”. The American Journal of Engineering and Technology. 2020. Vol. 2(10), pp. 55-61.
  4. Makhmudov Makhsud Idrisovich, Kuziev Zafarbek Esanovich, Nurov Siroj Sobirovich, Sidikov Sanjar Siroj ugli, “Assessment of energy saving capabilities in air blowers of biological wastewater treatment plants”. Journal of critical reviews. 2020, Vol. 7, Issue 11, pp. 3058-3066.
  5. N.N.Mirzoyev, “Intelligence devices for monitoring and control of energy efficiency of enterprices”. Chemical Technology, Control and Management. 2020, Vol. 2020, Issue 5, Special issue 5-6, Article 30, pp. 11-20.
  6. V.I.Lebedev, Mikroprocessorny'e schetchiki e`lektroe`nergii [Microprocessor-based electric energy meters]. Moskva: DMK Press, 2017, 196 p. (in Russian).
  7. I.K.Siddikov, Kh.A.Sattarov, Kh.E.Khujamatov, O.R.Dekhkonov, “Modeling of the Processes in Magnetic Circuits of Electromagnetic Transducers”. International Conf. on ISISCT -2016, Tashkent, Uzbekistan, 2-4 November, 2016.
  8. I.K.Siddikov, Kh.A.Sattarov, Kh.E.Khujamatov, “Modeling of the Transformation Elements of Power Sources Control”. International Conf. on ISISCT - 2017, Tashkent, Uzbekistan, 2-4 November, 2017.
  9. I.K.Siddikov, Kh.A.Sattarov, Kh.E.Khujamatov, O.R.Dekhkonov, “Agzamova M. Modeling of Magnetic Circuits of Electromagnetic Transducers of the Three-phases Current”. 14th International Scientific - Technical Conference On Actual Problems of Electronic Instrument Engineering (Apeie) Proceedings. 2018, Volume Part 5, Novosibirsk 2018.
  10. I.Siddikov, I.Petrova, V.Zaripova, Yu.Lejnina, “Automated system for synthesis of sensors for smart cities”. XXII International Scientific Conference on Advanced In Civil Engineering “CONSTRUCTION THE FORMATION OF LIVING ENVIRONMENT. Tashkent, Uzbekistan, 18-21 April, 2019.
  11. I.H.Siddikov, A.A.Abdumalikov, N.N.Mirzoev, N.Yu.Amurova, M.T.Maksudov, I.M.Honturaev, “Programnoe obespechenie dlya issledovaniya pokazateley nadejnosti i rabochego sostoyaniya elementov kontroya i upravlpeniya energoeffektivnostyu” [Software for the study of reliability indicators and the working condition of energy efficiency control and management elements]. DGU 08003, no 2020 0325, 27.03.2020.
  12. R.K.Azimov, I.H.Siddikov, M.J.Kurbanova, M.A.Anarbaev, O.I.Siddikov, A.N.Mamatkulov, “Preobrazovatel toka v napryajenie” [Current to Voltage Converter]. Patent RUz IAP0490B, no 6, 2014.
  13. K.R.Allaev, R.K.Azimov, I.H.Siddikov, I.H.Holiddinov, M.Yu.Hasanov, N.J.Ahmedov, “Elektromagnitnyy preobrazovatel nesimmetrichnosti trehfaznogo toka v napryajenie” [Electromagnetic converter of asymmetry of three-phase current to voltage]. Patent RUz IAP 2014 0463, no 4, 2016.
  14. K.R.Allaev, R.K.Azimov, I.H.Siddikov, I.H.Holiddinov, M.Yu.Hasanov, F.M.Kodirov, M.M.Mirzaeva, “Elektromagnitnyy preobrazovatel nesimmetrichnosti trehfaznogo toka v napryajenie” [Electromagnetic converter of asymmetry of three-phase current to voltage]. Patent RUz IAP 2014 0509, no 6, 2016.
  15. K.R.Allaev, R.K.Azimov, I.H.Holiddinov, M.E.Yulchiev, E.A.Borisova, N.Yu.Amurova, “Elektromagnitnyy preobrazovatel nesimmetrichnosti trehfaznogo toka v napryajenie” [Electromagnetic converter of asymmetry of three-phase current to voltage]. Patent RUz IAP 2014 0540, no 6, 2016.
  16. K.R.Allaev, R.K.Azimov, I.H.Holiddinov, M.Yu.Hasanov, N.J.Ahmedov, “Elektromagnitnyy preobrazovatel nesimmetrichnosti trehfaznogo toka v napryajenie” [Electromagnetic converter of asymmetry of three-phase current to voltage]. Patent RUz, Uz IAP 05383, no 4, 2017.

Share

COinS
 
 

To view the content in your browser, please download Adobe Reader or, alternately,
you may Download the file to your hard drive.

NOTE: The latest versions of Adobe Reader do not support viewing PDF files within Firefox on Mac OS and if you are using a modern (Intel) Mac, there is no official plugin for viewing PDF files within the browser window.