Tytuł artykułu
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Warianty tytułu
The idea of measurement of humid parameters in vegetable cold storage chamber
Języki publikacji
Abstrakty
Skomplikowana geometria, ciasne upakowanie wnętrza, niska temperatura i wilgotność względna powietrza bliska stanowi nasycenia oraz zmienny w czasie i przestrzeni kierunek jego przepływu to najważniejsze czynniki mające wpływ na sposób pomiaru parametrów powietrza w komorze składowej chłodni warzyw. W pracy przedstawiono przegląd najistotniejszych problemów występujących podczas planowania eksperymentu walidacyjnego modelu numerycznego zjawisk cieplno-przepływowych zachodzących w komorze przechowalniczej chłodni warzyw. Omówiono sposoby ewaluacji eksperymentalnej, zagadnienia dostępne w literaturze naukowej oraz zaproponowano koncepcję pomiaru parametrów powietrza w komorze składowej chłodni marchwi.
The most important factors affecting the methods of measurement of air parameters in cold storage chamber are very complicated geometry of tightly loaded chamber, Iow temperature and relative humidity of air close to the saturation point, unsteadiness and spatial variation of the mean air velocity. The paper deals with the most important problems arising during planning of experimental yalidationof numerical model of heat mass transfer phenomena in cold storage chamber for vegetables. The study provides also the literature survey of the experimental evaluation of the problem and reports on the idea of measurement of humid air parameters in cold storage chamber for carrots.
Wydawca
Rocznik
Tom
Strony
44--49
Opis fizyczny
Bibliogr. 20 poz., rys.
Twórcy
autor
autor
autor
autor
- Zakład Techniki Cieplnej i Chłodnictwa Politechnika Białostocka, Białystok
Bibliografia
- [1] CHOURASIA M.K., GOSWAMI T.K., (2007a): Steady state CFD modeling of airflow, heat transfer and moinsture loss in a commercial potato cold store. International lournal of Refrigeration, 30,672-689.
- [2] CHOURASIA M.K., GOSWAMI T.K., (2007b): Simulation of effect of stack dimensions and stacking arrangements on cooI down characteristics of potato in a cold store by computational fluid dynamics. Biosystem Engineering, 96, 503-515.
- [3] DELELE M.A., SCHENK A., TIJSKENS E., RAMON H., NICOLAI B.M., YERBOYEN P., (2009a): Optimization of the humidification of cold Stores by pressurized water atomizers based on a multiscale CFD model, Journal ot Food Engineering, 91, 228-239.
- [4] DELELE M.A., SCHENK A., RAMON H., NICOLAI B.M., YERBOYEN R, (2009b): Evaluation of a chicory root cold store humidification system using computational fluid dynamics. Journal of Food Engineering, 94, 110-121.
- [5] HAN J.-H, KWON H.-J., YOON J.-Y., KIM K., (2009): Analysis of thermal enyironment in a mushroom house using sensible heat balance and 3-D computational fluid dynamics. Biosystem Engineering, 104,417-424.
- [6] HOANG M.L., VERBOVFN R, De BAF.RDEMAEKER J., NICOLAI, (2000): Analysis of the air flow in a cold store by means of computational fluid dynamics. International Journal of Refrigeration. 23, 127-140.
- [7] MIRADE P.-S., DAUDIN J.D. (1998): A new experimental method for measuring and visualizing air flow in large food plants. Journal of Food Engineering, 36, 31-49.
- [8] MIRADE P.-S., KONDJOYAN A„ DAUDIN J.-D., (2002): Three-dimensional CFD calculation for designing large food chillers. Computers and Electronics in Agriculture, 34, 67-88.
- [9] MIRADE P.-S., PICGIRARD L., (2001): Assesment of airflow patterns inside six industrial beef carcass chillers. International Journal of Food Science and Technology, 36, 463-475.
- [10] MIRADE P.-S., PICGIRARD L., (2006): Improvement of ventilation homogeneity in an industrial batch-type carcass chiller by CFD investigation. Food Research International, 39, 871-881.
- [11] MIRADE P.-S., ROUGIER T., DAUDIN J.-D., PICO.UE D., CORRIEU G,(2006): Effect of design of blowing duet on ventilation homogeneity around cheeses in a ripening chamber. Journal of Food Engineering, 75, 59-70.
- [12] MOUREH J., MENIA N., FLICK D., (2002): Numerical and experimental study of airflow in a typical refrigerated truck configuration loaded with pallets. Computers and Electronics in Agriculture, 34, 25-42.
- [13] MOUREH J., FI.1CK D., (2003): Wall air-jet characteristics and airflow patterns within a slot ventilated enclosure. International Journal of Thermal Science, 42, 703-711.
- |14| MOUREH J., FLICK D., (2004): Airflow pattern and temperature distribution in a typical refrigerated truck configuration loaded with pallets. International Journal of Refrigeration, 27,464-474.
- [15] MOUREH J., TAPSOBA S., DERENS E., FLICK D., (2009): Air velocity characteristics within vented pallets loaded in a refrigerated vehicle with and without air ducts. International Journal of Refrigeration, 32,220-234.
- [16] MOUREH J., TAPSOBA M., FLICK D., (2009a): Airflow in a slot-ventilated enclosure partially filled with porous boxes: Part I - measurements and simulations in the clear region. Computers & Fluids, 38,194-205.
- [17] MOUREH J., TAPSOBA S., FLICK D., (2009b): Airflow in a slot-ventilated enclosure partially filled with porous boxes: Part II - measurements and simulations within porous boxes. Computers & Fluids, 206-220.
- [18] NAHOR H.B., HOANG M.L., VERBOVEN P, BAELMANS M., NICOLAI B.M., (2005): CFD model of the airflow, heat and mass transfer in cool stores. International Journal of Refrigeration, 28, 368-380.
- [19] TAPSOBA M., MOUREH J., FLICK D., (2006): Airflow patterns in an enclosure loaded with slotted pallets. International Journal of Refrigeration, 29, 899-910.
- [20] TAPSOBA M., MOUREH J., FLICK D., (2007): Airflow patterns inside slotted obstacles in a ventilated enclosure. Computers & Fluids, 36, 935-948.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPG8-0063-0010
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