Proceedings of International Conference on Applied Innovation in IT
2024/03/07, Volume 12, Issue 1, pp.265-270

Ensure the Reliability of the Heating System of the Autonomous Helio-Greenhouse of the Trench Type in Emergency Situations


Bozorbek Botirov, Isroil Yuldoshev, Sanjar Shoguchkarov, Shahzod Rahmatillayev and Afzalkhoja Kudratov


Abstract: In the article, the results of the temperature of the autonomous helio-greenhouse of the trench type in the abnormal cold climatic conditions of Uzbekistan are discussed. During the winter heating season at ambient temperatures from -40 °C to -21 °C, experiments were carried out, which showed that at an outdoor air temperature of less than -10 °C there was no need to use emergency heating sources, and the temperature in the autonomous greenhouse dropped to 5 °C. A two-circuit combined system based on an electric boiler and a solar water heating system has been proposed and applied as an emergency heating source. At an ambient temperature of more than -200 °C, the air temperature wizened at

Keywords: Reliability, Heating Systems, Trench, Autonomous Helio-Greenhouse, Electric Boiler, Thermo-Gram, Solar Radiation

DOI: 10.25673/115713; PPN 188468758X

Download: PDF

References:

  1. O. Korner, M.J. Bakker, and E. Heuvelink, "Daily Temperature Integration: A Simulation Study to Quantify Energy Consumption," Biosystems Engineering, vol. 87, no. 3, pp. 67-77, 2004, [Online]. Available: https://doi.org/10.1016/j.biosystemseng.2003.11.003.
  2. M. Teitel, A. Segal, A. Shklyar, and M. Barak, "A comparison between pipe and air heating methods for greenhouses," Journal of Agricultural Engineering Research, vol. 72, pp. 259-273, 1999, [Online]. Available: https://doi.org/10.1016/S0021-8634(98)90370-590370-5).
  3. H.J. Tantau, "Energy saving potential of greenhouse climate control," Mathematical and Computer Modelling, vol. 48, pp. 93-101, 1998, [Online]. Available: https://doi.org/10.1016/S0378-4754(98)00145-100145-1).
  4. G.N. Tiwari, M. Din, N.S.L. Srivastava, D. Jain, and M.S. Sodha, "Evaluation of solar fraction (Fn) for north wall of a controlled environment greenhouse: an experimental validation," International Journal of Energy Research, vol. 26, pp. 203-215, 2002, [Online]. Available: https://doi.org/10.1002/er.776.
  5. C.P. Kothandaraman, "Fundamentals of Heat and Mass Transfer," Revised Third Edition, New Age International (P) Limited, Publishers, 2015, [Online]. Available: https://edisciplinas.usp.br/pluginfile.php/5464110/mod_book/chapter/23393/Heat%20and%20Mass%20Transfer%20by%20kothadaraman.pdf.
  6. M.V. Shcherbakov, A. Brebels, N.L. Shcherbakova, A.P. Tyukov, T.A. Janovsky, and V.A. Kamaev, "A survey of forecast error measures," World Applied Sciences Journal, vol. 24, pp. 171-176, 2013, [Online]. Available: https://doi.org/10.5829/idosi.wasj.2013.24.itmies.80032.
  7. K. Kobayashi and M.U. Salam, "Comparing simulated and measured values using mean squared deviation and its components," Agronomy Journal, vol. 92, no. 2, pp. 345-352, 2000, [Online]. Available: https://doi.org/10.1007/s100870050043.
  8. N.T. Kottegoda and R. Rosso, "Applied Statistics for Civil and Environmental Engineers," Blackwell Publishing Ltd., Oxford, United Kingdom, p. 718, 2008, [Online]. Available: https://www.academia.edu/26724680/N_T_Kottegoda_R_Rosso_Applied_Statistics_for_Civil_and_Environmental_Engineers_Blackwell_Pub_2008_Copy.
  9. Y.V. Kozenko, A.V., Katayev, T.M. Katayeva, N.W. Likholetov, E.L. Makarov, L.V, Sharonin, "Collective monograph," Ufa: "OMEGA SCIENS", 108 p., 2016, [Online]. Available: http://www.aup.ru/books/m1527.
  10. A.M. Penjiyev, "Energy efficiency of energy resources and climate zoning of solar greenhouses," Aeconomics: Economy and Agriculture, no. 9 (21), 2017, [Online]. Available: http://aeconomy.ru/science/agro/energoeffektivnost-energeticheskikh.
  11. A.M. Penjiyev, "Agrotechnics of cultivation of pine tree (Carica papaya L.) in protected soil in Turkmenistan," Autoref. Ph.D. of agricultural sciences, Moscow, pp. 54, 2000, [Online]. Available: h https://search.rsl.ru/ru/record/01000259201.
  12. A.M. Penjiyev, "Mathematical model of sheet temperature mode calculation in hot-house conditions," International Journal “Alternative Energy and Ecology”, no. 11(91), pp. 65-68, 2010, [Online]. Available: https://cyberleninka.ru/article/n/matematicheskaya-model-rascheta-temperaturnogo-rezhima-lista-v-usloviyah-solnechnoy-teplitsy/viewer.
  13. A.M. Penjiyev, " Mathematical modelling of the microclimate in solar hot-house deep of type”. International Journal of Alternative Energy and Ecology, no. 7, pp. 59-66, 2010, [Online]. Available: https://cyberleninka.ru/article/n/matematicheskoe-modelirovanie-mikroklimata-v-solnechnoy-teplitse-transheynogo-tipa/viewer.
  14. Z.S. Akhatov and A.S. Khalimov, "Numerical calculations of heat engineering parameters of a solar greenhouse dryer," Applied Solar Energy, vol. 51, pp. 107-111, 2015, [Online]. Available: https://doi.org/10.3103/S0003701X15020024.
  15. Sinoptiki, "Utochnili, kak dolgo v Uzbekistane proderzhitsya anomalnyy moroz," [Online]. Available: https://kun.uz/ru/news/2023/01/10/sinoptiki-utochnili-kak-dolgo-v-uzbekistane-proderjitsya-anomalnyy-moroz, [Accessed: 25 Nov 2023].
  16. A. Abdullaev and Sh.K. Niyazov, "The IR-radiation transmission coefficient of a water condensate film on internal solar greenhouse surfaces and hotbed transparent covers as a function of thickness," Applied Solar Energy, Tashkent, 2001, vol. 37, no. 4, pp. 63-65, [Online]. Available: https://www.scopus.com/record/display.uri?eid=2-s2.0-77950044145&origin=resultslist.
  17. I.A. Yuldashev, B.M. Botirov, N.S. Kholmirzayev, and Y.M. Qurbanov, "About the Production of Lemons Grown in an Autonomous Gabled Solar Greenhouse," Applied Solar Energy, USA, 2023, vol. 59, no. 1, pp. 44-47, [Online]. Available: https://doi.org/10.3103/S0003701X23600431.
  18. B. M. Botirov, A.S. Khalimov, I.A. Yuldoshev, D.M. Pulatova, and Yu.M. Kurbanov, "Experimental Verification of a Mathematical Model for the Temperature Mode of a Solar-Fuel Trench-Type Greenhouse," Applied Solar Energy, USA, 2021, vol. 57, no. 6, pp. 510-516, [Online]. Available: https://doi.org/10.3103/S0003701X21060050.

    HOME

       - Call for Papers
       - For authors
       - Important Dates
       - Conference Committee
       - Editorial Board
       - Reviewers
       - Last Proceedings


    PROCEEDINGS

       - Volume 12, Issue 1 (ICAIIT 2024)        - Volume 11, Issue 2 (ICAIIT 2023)
       - Volume 11, Issue 1 (ICAIIT 2023)
       - Volume 10, Issue 1 (ICAIIT 2022)
       - Volume 9, Issue 1 (ICAIIT 2021)
       - Volume 8, Issue 1 (ICAIIT 2020)
       - Volume 7, Issue 1 (ICAIIT 2019)
       - Volume 7, Issue 2 (ICAIIT 2019)
       - Volume 6, Issue 1 (ICAIIT 2018)
       - Volume 5, Issue 1 (ICAIIT 2017)
       - Volume 4, Issue 1 (ICAIIT 2016)
       - Volume 3, Issue 1 (ICAIIT 2015)
       - Volume 2, Issue 1 (ICAIIT 2014)
       - Volume 1, Issue 1 (ICAIIT 2013)


    PAST CONFERENCES

       ICAIIT 2024
         - Photos
         - Reports

       ICAIIT 2023
         - Photos
         - Reports

       ICAIIT 2021
         - Photos
         - Reports

       ICAIIT 2020
         - Photos
         - Reports

       ICAIIT 2019
         - Photos
         - Reports

       ICAIIT 2018
         - Photos
         - Reports

    ETHICS IN PUBLICATIONS

    ACCOMODATION

    CONTACT US

 

DOI: http://dx.doi.org/10.25673/115729


        

         Proceedings of the International Conference on Applied Innovations in IT by Anhalt University of Applied Sciences is licensed under CC BY-SA 4.0


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


           ISSN 2199-8876
           Publisher: Anhalt University of Applied Sciences

        site traffic counter

Creative Commons License
Except where otherwise noted, all works and proceedings on this site is licensed under Creative Commons Attribution-ShareAlike 4.0 International License.