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Research of pressure losses and justification of forms of sideevaporative heat exchangers channels in livestock premises

Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
PL
Badanie strat ciśnienia i uzasadnienie kształtów kanałów bocznych wymienników ciepła w obiektach inwentarskich
Języki publikacji
EN
Abstrakty
EN
As a result of the numerical simulation of the indirect-evaporative air heat exchanger in the Star CCM+ software package, the distribution of the temperature field, the vector field of velocities and the absolute air humidity in channels of different shapes (square, equilateral triangle, circle) was established. The calculated coefficient of thermal efficiency of the heat exchanger with triangular channels is the whitest in contrast to the square and round forms.
PL
W wyniku symulacji numerycznej pośrednio-wyparnego powietrznego wymiennika ciepła w pakiecie Star CCM+ uzyskano rozkład pola temperatury, pola wektorowego prędkości oraz bezwzględnej wilgotności powietrza w kanałach o różnych kształtach (kwadrat, trójkąt równoboczny, koło) powstało. Obliczony współczynnik sprawności cieplnej wymiennika ciepła z kanałami trójkątnymi jest najbielszy w porównaniu do form kwadratowych i okrągłych.
Rocznik
Strony
247--252
Opis fizyczny
Bibliogr. 25 poz., rys., tab.
Twórcy
  • Vinnytsia National Agrarian University
  • Vinnytsia National Agrarian University
Bibliografia
  • [1]. Makarenko P.M., Kalinichenko O.V., Aranchiy V.I. Energy efficiency and energy saving: economic, technological and ecological aspects: collective monograph. PP «Astraya», 2019, 603.
  • [2]. Gunko I., Babyn I., Pryshliak V. Experimental studies of the air injector system operating modes of the milk washing system, Scientific Horizons, 3 (2021), 44–53.
  • [3]. Gunko I., Hraniak V., Yaropud V., Kupchuk I., Rutkevych V. Optical sensor of harmful air impurity concentration. Przegląd Elektrotechniczny, 97 (2021), nr. 7, 76-79. https://doi.org/10.15199/48.2021.07.15
  • [4]. Poberezhets Ju., Chudak R., Kupchuk I., Yaropud V., Rutkevych V. Effect of probiotic supplement on nutrient digestibility and production traits on broiler chicken, Agraarteadus, 32 (2021), nr. 2, 296-302. https://doi.org/10.15159/jas.21.28.
  • [5]. Gunko I., Babyn I., Aliiev E., Yaropud V., Hrytsun A., Research into operating modes of the air injector of the milking parlor flushing system. UPB Scientific bulletin, Series D: Mechanical Engineering, 83 (2021), nr. 2, 297-310.
  • [6]. Draganov B.H., Dolinskyi A.A., Mishchenko A.V., Pismennyi E.M. Heat engineering: textbook. NKOS, 2005, 504.
  • [7]. Bozhenko M.F. Systems of heating, ventilation and air conditioning of buildings: education. Kyiv: KPI named after Igor Sikorskyi, 2019, 380.
  • [8]. Paziuk V.M., Liubin M.V., Yaropud V.M., Tokarchuk O.A., Tokarchuk D.M. Research on the rational regimes of wheat seeds drying. INMATEH – Agricultural Engineering, 56 (2018), nr. 3, 39-48.
  • [9]. Paziuk V.M., Petrova Zh.O., Tokarchuk O.A., Yaropud V.M. Research of rational modes of drying rape seed. INMATEH – Agricultural Engineering, 58 (2019), nr. 2, 303-310. https://doi.org/10.35633/INMATEH-58-33
  • [10]. Borsch O.B. Energy saving in heat and gas supply systems, ventilation and air conditioning: training. Poltava: PNTU, 2009, 116.
  • [11]. SOU 74.3-37-265:2005. Regenerative heat utilizers of ventilation emissions of livestock premises. Test methods. Ministry of Agrarian Policy of Ukraine, (2005), 38.
  • [12]. Yaropud V. Analytical study of the automatic ventilation system for the intake of polluted air from the pigsty. Scientific horizons, 24 (2021), nr. 3. 19-27. https://doi.org/10.48077/scihor.24(3).2021.19-27
  • [13]. Spirin A., Kupchuk I., Tverdokhlib I., Polievoda Yu., Kovalova K., Dmytrenko V. Substantiation of modes of drying alfalfa pulp by active ventilation in a laboratory electric dryer. Przegląd Elektrotechniczny, 98 (2022), nr 5, 11-15. https://doi.org/10.15199/48.2022.05.02
  • [14]. Kaletnik G.M., Yaropud V.M. Mechatronic system of microclimate provision of livestock premises, Patent UA, 148970 (2021).
  • [15]. Yaropud V., Hunko I., Aliiev E., Kupchuk I. Justification of the mechatronic system for pigsty microclimate maintenance. Agraarteadus, 32 (2021), nr 2. 212–218. https://doi.org/10.15159/jas.21.21
  • [16]. Kaletnik G.M., Yaropud V.M. Physico-mathematical model of the ventilation system for injecting clean air in livestock premises. Technology, energy, transport of agricultural industry, 114 (2021), nr. 3, 4-15. https://doi.org/10.37128/2520- 6168-2021-3-1
  • [17]. Kaletnik G.M., Yaropud V.M. Simulation of the heat and mass transfer process of the indirect-evaporative type heat exchanger. Technology, energy, transport of agricultural industry, 116 (2022), nr. 1, 4-15. https://doi.org/10.37128/2520- 6168-2022-1-1
  • [18]. Kaletnik G.M., Yaropud V.M. Theoretical studies of pneumatic losses of the air heat exchanger of the indirect-evaporative type of livestock premises. Machinery & Energetics, 12 (2021), nr. 4, 35-41. http://dx.doi.org/10.31548/machenergy2021.04.035
  • [19]. VNTP SGiP-46-5.97. Departmental norms of technological design. Animal and rabbit farms. Ministry of Agriculture and Production of Ukraine. Noosphere, (1994), 45.
  • [20]. VNTP SGiP-46-4.94. Departmental norms of technological design. Poultry enterprises. Ministry of Agriculture and Production of Ukraine. Noosphere, (1994), 68.
  • [21]. VNTP SGiP-46-2.95. Departmental norms of technological design. Pig farms. Ministry of Agriculture and Production of Ukraine. Noosphere, (1994), 68.
  • [22]. DSTU 2921-94. Heating and ventilation units. Test methods. Approved and put into effect on January 1, 1996. State Committee for Standardization of Metrology and Certification of Ukraine, 42.
  • [23]. Hasan A. Going below the wet bulb temperature by indirect evaporative cooling: Analysis using a modified ε-NTU method. Applied Energy, 89 (2012), 237-245.
  • [24]. Fedorets O.O., Salenko O.F. Hydraulics, hydraulic and pneumatic drive: textbook. 2nd ed., revised. and added. Kyiv: Znannia, 2009, 502.
  • [25]. Yaropud V., Kupchuk I., Burlaka S., Poberezhets J., Babyn I. Experimental studies of design-and-technological parameters of heat exchanger. Przegląd Elektrotechniczny, 98 (2022), nr. 10, 57-60. https://doi.org/10.15199/48.2022.10.10
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-fd96d738-aaf9-4250-8841-876df9004409
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