Content
Abstract:
The article describes the development and testing of an irradiating set with UV diodes for presowing treatment of conifer seeds equipped with an original microprocessor system of automatic dose adjustment for maintenance of the required dose of UV irradiation.
References:
1. Krasnolutskaya M.G., Kondratieva N.P., Romanov V. Yu., Chefranova M.N., Nureeva T.V., Korepanov D.A. Bolshin R.G. Prospects of Use of Electric Technologies for Increase of Sowing Qualities of Seeds with UV Irradiation [Krasnolutskaya M.G., Kondratieva N.P., Romanov V. Yu., Chefranova M.N., Nureeva T.V., Korepanov D.A. Bolshin R.G. Perspektivy ispolzovaniia elektrotekhnologii dlia povysheniia posevnykh kachestv semian UF-izlucheniem] // Bulletin of the International Academy of Agricultural Education, 2015, Vol. 1, # 24, pp. 10-13. 2. Kondratieva N.P., Dukhtanova N.V., Krasnolutskaya M.G., Litvinova V.M., Bolshin R.G. Compact LED Ultra-Violet Irradiating Set for Pre-Sowing Treatment of Seeds of Conifers [Kondratieva N.P., Dukhtanova N.V., Krasnolutskaya M.G., Litvinova V.M., Bolshin R.G. Kompaktnaia svetodiodnaia ultrafioletovaia obluchatelnaia ustanovka dlia predposevnoi obrabotki semian khvoinykh rastenii] // Bulletin of VIESKh, 2017. - Vol. 2 (27), pp. 62-69. 3. Krasnolutskaya M.G. Kondratieva N.P., Belov V.V., Bolshin R.G. Electric Technologies and Equipment for Optimal Content of Photosynthesis-Active Radiation for Plants of Protected Ground [Krasnolutskaya M.G. Kondratieva N.P., Belov V.V., Bolshin R.G. Elektrotekhnologii i elektrooborudovanie obespechivaiushchie optimalnyi sostav fotosinteticheski aktivnoi radiatsii dlia rastenii zashchishchennogo grunta] // Bulletin of the International Academy of Agricultural Education, 2015, Vol. 1, # 25, pp. 111-114. 4. Krasnolutskaya M.G., Kondratieva N.P., Bolshin R.G. Energy-Efficient LED Irradiating Sets [Krasnolutskaya M.G., Kondratieva N.P., Bolshin R.G. Energoeffektivnye energosberegaiushchie svetodiodnye obluchatelnye ustanovki] // Bulletin of VIESKh, 2016, Vol. 3 (24), pp. 48-53. 5. Krasnolutskaya M.G. Kondratieva N.P., Kolomiets A.P., Bolshin R.G. Increase of Efficiency of LED-Based Phytosets in Protected Ground [Krasnolutskaya M.G. Kondratieva N.P., Kolomiets A.P., Bolshin R.G. Povyshenie effektivnosti svetodiodnyi fitoustanovok (LED-fitoustanovok) v zashchishchennom grunte] // Bulletin of Izhevsk State Agricultural Academy, 2016, Vol. 4 (49), pp. 59-69. 6. Sterkhova T.N., Kondratieva N.P., Kornaukhov P.D., Kondratieva M.G. Grain Separator with UV Irradiator [Sterkhova T.N., Kondratieva N.P., Kornaukhov P.D., Kondratieva M.G. Trier s UF izluchatelem] // Patent # 2589781 Russia. 2016. Bul. 10. 7. Vasenev E.A., Romanov V. Yu., Korepanov D.A., Kondratieva M.G., Nigmatullin S.I. Lifting Mechanism of the Radiation Source of the Seed Pre-Sowing Treatment Device [Vasenev E.A., Romanov V. Yu., Korepanov D.A., Kondratieva M.G., Nigmatullin S.I. Mekhanizm podieema (opuskaniia) istochnika izlucheniia ustroistva dlia predposevnoi obrabotki semian] // Patent for Utility Model # 150044 Russia. 2015. Bul. 3. 8. Kondratieva N.P., Korepanov D.A., Krasnolutskaya M.G., Bolshin R.G. Pre-Sowing Treatment of Seeds of Decorative Conifers with Ultraviolet Radiation [Kondratieva N.P., Korepanov D.A., Krasnolutskaya M.G., Bolshin R.G. Predposevnaia obrabotka semian dekorativnykh rastenii khvoinykh porod ultrafioletovym izlucheniem]// Innovations in Agriculture [Innovatsii v selskom khoziaistve], 2017, Vol. 2 (23), pp. 45-54. 9. Kondratieva N.P., Krasnolutskaya M.G., Zembekov Yu.S., Bolshin R.G. [LED UV Set for Seed Irradiation [Kondratieva N.P., Krasnolutskaya M.G., Zembekov Yu.S., Bolshin R.G Svetodiodnaia UF ustanovka dlia oblucheniia semian] // Issues of Modernisation of Production and Processing Technologies in Agriculture [Aktualnye voprosy sovershenstvovaniia tekhnologii proizvodstva i pererabotki produktsii selskogo khoziaistva], 2017, Vol. 19, pp. 269-272. 10. Dubrov A.P. Effect of Ultraviolet Radiation on Plants [Dubrov A.P. Deistvie ultrafioletovoi radiatsii na rasteniia.] - Moscow: Academy of Sciences of USSR, 1963, 124 p. 11. Rogozhin V.V. Physiological and Biochemical Mechanisms of Formation of Hypobiotic Conditions of Higher Plants [11. Rogozhin V.V. Fiziologo-biokhimicheskie mekhanizmy formirovaniia gipobioticheskikh sostoianii vysshikh rastenii / Avtoref. dis. … d-ra biol. nauk]/ / Author’s abstract of Doctor of Biological Sciences thesis. - Irkutsk, 2000, P. 59 12. Korepanov D.A., Romanov V. Yu., Loshchenov P. Yu., Bogatyryov M.D. Effect of Long-Wave UV Irradiation on Increasing of PINUS SILVESTRIS L Seeds Sowing Qualities [Korepanov D.A., Romanov V. Yu., Loshchenov P. Yu., Bogatyryov M.D. Vliianie dlinnovolnovogo UF oblucheniia na prevyshenie posevnykh kachestv semian PINUS SILVESTRIS L] // Forest Engineering Journal [Lesotekhnicheskii zhurnal], 2014. -Vol. 4, # 1(13), pp. 27-30. 13. Korepanov D.A., Romanov V. Yu., Vasenev E.A., Nigmatullin S.I. The Set for Increase of Seeds Sowing Qualities by Long-Length UV Irradiation [Korepanov D.A., Romanov V. Yu., Vasenev E.A., Nigmatullin S.I. Ustanovka dlia povysheniia posevnykh kachestv semian dlinnovolnovym UF oblucheniem // Bulletin of the Povolzhsky State Technological University. Series: Forest. Ecology. Environmental Management, 2014, Vol. 1 (21), pp. 62-68. 14. Pigalin D.I., Korepanov D.A., Goncharov E.A. Enhancement of Morphophysiological Indicators of Thuja Occidentalis under UV Irradiation [Pigalin D.I., Korepanov D.A., Goncharov E.A. Uluchshenie morfofiziologicheskikh pokazatelei tui zapadnoi pod vliianiem UF oblucheniia] // The International Youth Scientific Natural and Technical Sciences Conference Young Creativity for Scientific Progress: Materials and Reports: in 3 parts, Povolzhsky State Technological Univerisity (YoshkarOla), 2013. 15. Korepanov D.A., Chirkova N.M., Byvaltsev A.V., Ukraintsev V.S.] Increase of Germinability of the Seeds of Decorative Crops by UV Irradiation [Korepanov D.A., Chirkova N.M., Byvaltsev A.V., Ukraintsev V.S. Povyshenie gruntovoi vskhozhesti semian dekorativnykh rastenii UF-oblucheniem // Bulletin of the Izhevsk State Agricultural Academy, 2012, Vol. 3 (32), pp. 76-78. 16. Kondratieva N.P., Korepanov D.A., Byvaltsev A.V., Perevozchikov E.A. Ultraviolet Irradiation of the Seeds of Decorative Thuja Occidentalis and Picea Pungens [Kondratieva N.P., Korepanov D.A., Byvaltsev A.V., Perevozchikov E.A. Ultrafioletovoe obluchenie semian dekorativnykh rastenii tui zapadnoi i eli koliuchei] // Bulletin of the International Academy of Agricultural Education, 2011, Vol. 12. pp. 13-15. 17. Ukraintsev V.S., Korepanov D.A., Kondratieva N.P., Byvaltsev A.V. Effect of UV Irradiation on Increase of Sowing Qualities of Seeds of Conifers [Ukraintsev V.S., Korepanov D.A., Kondratieva N.P., Byvaltsev A.V. Vliianie UF oblucheniia na povyshenie posevnykh kachestv semian khvoinykh porod] // Bulletin of the Udmurtia University. Series: Biology. Earth Sciences, 2011, Vol. 1, pp. 132-137. 18. Korepanov D.A., Byvaltsev A.V., Ukraintsev V.S., Karavaev E.S. Increase of Sowing Qualities of Seeds of Conifers by Ultraviolet Irradiation [Korepanov D.A., Byvaltsev A.V., Ukraintsev V.S., Karavaev E.S. Povysheniem posevnykh kachestv semian khvoinykh porod ultrafioletovym oblucheniem] // Bulletin of the Izhevsk State Agricultural Academy, 2010, Vol. 4 (25), pp. 34-38. 19. Kondratieva N.P., Bolshin R.G., Krasnolutskaya M.G., Zembegov Yu.S. Energy-Efficient Set for UV Irradiation of Seeds before Sowing [Kondratieva N.P., Bolshin R.G., Krasnolutskaya M.G., Zembegov Yu.S. Energosberegaiushchaia ustanovka dlia UF oblucheniia semian pered posevom] / Materials of the XIII All-Russian Scientific and Technical Conference with International Participation “Problems and Prospectives of Development of Russian Light Engineering, Electric Engineering and Energy” as Part of the IV All-Russian Light Engineering Forum with International Participation // Resp. Editor O.E. Zheleznikova. - N.P. Ogaryov National State Research University of Mordovia, 2017, pp. 40-45. 20. Kondratieva N.P., Krasnolutskaya M.G., Zembekov Yu.S., Bolshin R.G. LED UV Set for Seed Irradiation [Kondratieva N.P., Krasnolutskaya M.G., Zembekov Yu.S., Bolshin R.G. Svetodiodnaia UF ustanovka dlia oblucheniia semian] // Issues of Modernisation of Production and Processing Technologies in Agriculture [Aktualnye voprosy sovershenstvovaniia tekhnologii proizvodstva i pererabotki produktsii selskogo khoziaistva]: Mosolov Readings: materials of the international scientific and practical conference, Mari State University (YoshkarOla), 2017, pp. 269-271. 21. Kondratieva N.P., Bolshin R.G., Krasnolutskaya M.G., Ilyasov I.R., Zembekov Yu.S., Litvinova V.M. Development of Design Scheme and Algorithm of Operation of an Ultraviolet LED Irradiating Set [Kondratieva N.P., Bolshin R.G., Krasnolutskaya M.G., Ilyasov I.R., Zembekov Yu.S., Litvi-nova V.M Razrabotka strukturnoi skhemy i algoritma raboty ultrafioletovoi svetodiodnoi obluchatelnoi ustanovki] // Agricultural Equipment and Power Supply [Agrotekhnika i energoobespechenie], 2017, Vol. 3 (16), pp. 50-57. 22. Bolshin R.G., Ilyasov I.R., Kondratyeva N.P., Korepanov R.I., Krasnolutskaya M.G., Litvinova V.M., Filatova O.M. Development of the Microprocessor System of Dosing of Photosynthesis-Active Radiation [Bolshin R.G., Ilyasov I.R., Kondratyeva N.P., Korepanov R.I., Krasnolutskaya M.G., Litvi-nova V.M., Filatova O.M. Razrabotka mikroprotsessornoi sistemy dozirovaniia fotosinteticheski aktivnoi radiatsii] // Bulletin of NGIEI, 2017, Vol. 9 (76), pp. 46-56. 23. Krasnolutskaya M.G. Software for the System of Automatic Adjustment of Parameters of Microclimate in Premises [Krasnolutskaya M.G. Programma dlia sistemy avtomaticheskogo regulirovaniia parametrov mikroklimata v pomeshcheniiakh] / Certificate of state registration of software 2016617931 Russia, 2016. 24. Kondratieva N.P., Bolshin R.G., Krasnolutskaya M.G., Korepanov R.I., Ilyasov I.R., Litvinova V.M., Somova E.N. The Results of Experiments in Dosing of Photosynthesis-Active Radiation by means of a Microprocessor System Controlling Operation of a LED Phytoset [Kondratieva N.P., Bolshin R.G., Krasnolutskaya M.G., Korepanov R.I., Ilyasov I.R., Litvinova V.M., Somova E.N. Rezultaty opytov po dozirovaniiu fotosinteticheski aktivnoi radiatsii mikroprotsessornoi sistemoi upravliaiushchei rabotoi LED fitoustanovkami] // Bulletin of VIESKh, 2017, Vol. 3 (28), pp. 56-64. 25. Kondratieva N.P., Bolshin R.G., Krasnolutskaya M.G., Korepanov R.I., Ilyasov I.R., Baturin A.I., Litvinova V.M., Filatova O.M. Development of Microprocessor Systems of Automatic Controlling of Operation of LED Irradiating Sets [Kondratieva N.P., Bolshin R.G., Krasnolutskaya M.G., Korepanov R.I., Ilyasov I.R., Baturin A.I., Litvinova V.M., Filatova O.M. Razrabotka mikroprotsessornykh sistem avtomaticheskogo upravleniiam rabotoi svetodiodnykh obluchatelnykh ustanovok] // Bulletin of the Izhevsk State Agricultural Academy, 2017, Vol. 4 (53), pp. 72-80. 26. Kondratieva N.P., Korepanov R.I., Ilyasov I.R., Bolshin R.G., Krasnolutskaya M.G., Somova E.N., Markova M.G. Efficiency of Microprocessing System of Automatic Control of Operation of LED Irradiating Sets [Kondratieva N.P., Korepanov R.I., Ilyasov I.R., Bolshin R.G., Krasnolutskaya M.G., Somova E.N., Markova M.G. Effektivnost mikroprotsessornoi sistemy avtomaticheskogo upravleniia rabotoi svetodiodnykh obluchatelnykh ustanovok] // Agricultural Machines and Technologies [Selskokhoziaistvennye mashiny i tekhnologii]. 2018. Vol. 12. # 3. pp. 32-37. 27. Kondratieva N.P., Vladykin I.R., Baranova I.A., Yuran S.I., Baturin A.I., Bolshin R.G., Krasnolutskaya M.G. Development of the System of Automatic Control of Electric Equipment for Implementation of EnergyEfficient Technologies [Kondratieva N.P., Vladykin I.R., Baranova I.A., Yuran S.I., Baturin A.I., Bolshin R.G., Krasnolutskaya M.G. Razrabotka sistemy avtomaticheskogo upravleniia elektrooborudovaniem dlia realizatsii energosberegaiushchikh elektrotekhnologii]/ Bulletin of NGIEI. 2018. Vol. 6 (85). pp. 36-49.
Keywords
- microprocessor system
- automatic dose adjustment
- UV irradiation of seeds
- conifers
- UV diodes
- UV irradiation dose
Recommended articles
Digital Automation of Energy-Efficient In Vitro Irradiation of Orchard Plum Micro Cuttings L&E, Vol.31, No.6, 2023
Study of Operating Modes of a Controllable Lighting System Consisting of a Triac Dimmer and a LED Light Source with a Controllable Driver. L&E 28 (4) 2020
Energy Saving in Lighting Technologies of Agricultural Production L&E, Vol. 29, No. 2, 2021