13 ноябр 2024
2DEVELOPMENT OF A UNIVERSAL HUMIDITY CONVERTER AT ULTRA HIGH FREQUENCY
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1. Sekanov, Y.P., Lisovsky, V.V. Theory and Practice of Super-High-Frequency Moisture Control of Agricultural Materials. Minsk, 2005. 320 p. (in Rus.) 2. Saitov, R.I. Microwave Moisture Measurement of Agricultural Products. Ufa: "Gilem", 2009. 127 p. (in Rus.) 3. Ismatullaev, P.R., Usmanova, Kh.A., Turgunbaev, A. Moisture Measurement of Cotton and Cotton Materials: Monograph. Tashkent: "Fan va Texnologiyalar", 2017. 262 p. (in Rus.) 4. Usm
4. Usmanova, Kh.A., et al. Final Report on Grant GKNТ EF-2-9: Development of Theoretical Foundations for Designing Primary Measuring Transducers with Microprocessor Sets for Quality Control of Various Products. Tashkent: TashGTU, 2017. 148 p. (in Rus.) 5. Sartoros. Moisture Measurement. Theoretical Foundations. [Online]. Available: www.sartoros.ru. (in Rus.) 6. Usmanova, Kh.A., Ismatullaev, P.R. Ensuring Measurement Uniformity of Moisture by Super-HighFrequency Moisture Measurement Method of Solid, Bulk, and Fibrous Materials.Measurement Technology Journal. Supplement "Metrology", No. 4, Moscow, 2016. (in Rus.) 7. Sovlat. Microwave and Super-High-Frequency Moisture Meters. [Online]. Available: info@sovlat.ru. (in Rus.)
8. Usmanova, Kh.A., Turgunbaev, A. Super-HighFrequency Moisture Transducer for Bulk and Fibrous Materials. Devices, Moscow, 2020. No. 3, pp. 33-39. (in Rus.) 9. Usmanova, Kh.A., Turgunbaev, A., Kuziev, B. Research of a Laboratory Installation for Measuring the Humidity Characteristics of Bulk Materials. International Journal of Control and Automation, Vol. 13, No. 4, 2020, pp. 237-244. (in Rus.) 10. Ikramov, G.I., Kalandarov, P.I. Moisture Measurement of Grain and Grain Products Using the Microwave Method. Measurement Technology, No. 9, 2022, pp. 71-76. (in Rus.)
11. Ismatullaev, P.R., Usmanova, Kh.A., Turgunbaev, A. Research of Super-High-Frequency Moisture Measurement Method for Grain Materials. Metrology and Instrument Engineering, Minsk, 2020. No. 2, pp. 8-11. (in Rus.) 12. Usmanova, Kh.A., Turgunbaev, A. Research of the Interaction of Super-High-Frequency Waves with Grain. In: Proceedings of the International ScientificPractical Conference "CAD and Modeling in Modern Electronics", Bryansk, 2021, pp. 314-317. (in Rus.) 13. Temerbekova, B.M., Usmanova, Kh.A., Turgunbaev, A. Application of the Super-High-Frequency Method for Measuring the Moisture of Bulk Materials in Complex Metallurgical Processes. "Black Metals", No. 4, April 2023, pp. 23-29. (in Rus.)
14. Usmanova, Kh.A., Turgunbaev, A., Abdurakhmanov, O.Kh. Selection of a Moisture Transducer for Bulk Materials. Bulletin of Tashkent State Technical University, 2019, No. 1, pp. 13-20. (in Rus.) 15. Usmanova, Kh.A., Turgunbaev, A. Mathematical Model of Interaction of Ultra-High-Frequency Waves with Wet Grain. International Journal of Innovative Research in Science, Engineering and Technology, Vol. 10, Issue 3, March 2021, pp. 1892-1897. (in Rus.) 16. Usmanova, Kh.A., Turgunbaev, A. Developing a Multi-Purpose Moisture Meter on Ultra-High Frequency. Special Issue of the International Scientific and Technical Journal "Chemical Technology. Control and Management", Uzbekistan, Tashkent, 2018, No. 4-5, pp. 202-206.