• Title/Summary/Keyword: Compartment temperature distribution

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Fluid flow in the freezing compartment of the B/F Refrigerators (B/F형 냉장고 냉동실의 결빙원인에 관한 연구)

  • Yang, S.Y.;Kim, Y.K.;Park, J.S.;Jung, H.Y.;Lee, Y.W.
    • 한국전산유체공학회:학술대회논문집
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    • 2008.03b
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    • pp.530-533
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    • 2008
  • Refrigerators have some frost related problems in a freezing compartment. The frost formation in the refrigerator gives customers a bad impression concerning quality problems. Therefore, many engineers have been studying the optimum solution to avoid frost formation. But the problem of frost formation is very complex and hard to approach to the answer. The frost generation of a household refrigerator have been widely known that is closely related to the distribution of temperature inside the compartment. The distribution depends on the cold air circulation inside the refrigerator. So frost problem can be reduced and energy consumption efficiency also improved through optimization of air flow fields inside the freezing compartment. In this paper, numerical simulation has been carried out to check fluid flow. The variation of temperature at the walls was measured and quantitative analysis of frost generated from the freezing compartment was carried out. Through comparison between simulation and experiment, some correlation revealed.

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Simulation for Improvement of Temperature Distribution Inside Refrigerator (냉장고 고내 온도산포 개선에 관한 전산모사)

  • Gao, Jia-Chen;Kim, Jae-Yeol
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.18 no.12
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    • pp.98-103
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    • 2019
  • With the increasing need for environmental protection, it is particularly important to improve the energy saving and reliability of refrigerators. Generally, the cold air flowing into the freezer compartment transits to the bottom of the refrigerating compartment, which can lead to uneven temperature distribution. This paper proposes two design solutions for improving the temperature distribution problem. Of these, the optimal refrigeration design was selected and tested using Computational Fluid Dynamics (CFD) modeling and simulation. The results showed improved uniformity of the temperature distribution inside the refrigerator, thus benefitting food storage while reducing energy consumption.

Numerical Study on Convective Heat Transfer in a Compartment Fire(II) - Mixed Convection - (실내화재에 있어서의 대류열전달에 관한 수치연구(II) -혼합대류-)

  • 박외철;고경찬;이광진
    • Journal of the Korean Society of Safety
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    • v.14 no.3
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    • pp.33-39
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    • 1999
  • In a compartment fire with openings, convective heat transfer consists of natural convection from the hot bodies and forced convection by airflow through the openings. The same finite volume method that was applied to pure natural convection in part I was utilized without modification to the square cavity with two openings. The objective of this study is to investigate effects of the openings on temperature distribution. Flow patterns, temperature distribution and heat transfer were compared for different Rayleigh numbers and with and without the openings.

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Internal Changes of Blood Compartment and Heat Distribution in Swamp Buffaloes under Hot Conditions : Comparative Study of Thermo-Regulation in Buffaloes and Friesian Cows

  • Koga, A.;Kurata, K.;Ohata, K.;Nakajima, M.;Hirose, H.;Furukawa, R.;Kanai, Y.;Chikamune, T.
    • Asian-Australasian Journal of Animal Sciences
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    • v.12 no.6
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    • pp.886-890
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    • 1999
  • From previous studies, there is a strong possibility in buffaloes that the marked increase in blood volume (BV) under hot conditions contributes to heat transportation from the rectum to the skin. The present study was done to clarify changes with environmental temperature on water-shift between blood and extracellular fluid (ECF), heat distribution between the rectum and the skin, and blood flow rates (BFR) at the hind legs (reflecting the skin surface). Four buffaloes and four Friesian cows were successively exposed to three different temperatures of $20^{\circ}C$, $30^{\circ}C$ and $35^{\circ}C$. BV and ECF volume were measured with Evans' blue and sodium-thiocyanate dilution methods, respectively. Rectal and subcutaneous (as the skin) temperatures were measured by copper-constantan thermocouples. BFR were measured by a supersonic blood flow meter. With an increase in environmental temperature, skin temperature in buffaloes increased significantly than cows, but rectal temperature was not significantly different between two species. BV, especially plasma compartment, increased significantly in only buffaloes, while ECF volume did not change in both species. BFR increased significantly in buffaloes, but not in cows. From these results, the increased of BV may be caused by water flowing from ECF compartment. The water-shift may induce the increase of BFR and skin temperature. It is suggested in the present study that internal changes of blood compartment in buffaloes contribute to transfer of heat to the skin surface.

Numerical Study on the Validity of Scaling Law for Compartment Fires (구획 화재의 상사 법칙 유효성에 관한 수치해석 연구)

  • Ko, Gwon-Hyun
    • Fire Science and Engineering
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    • v.28 no.4
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    • pp.29-34
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    • 2014
  • In this study, to assess the validity of scaling law which was based on the ventilation factor and utilized in fields of compartment fires, numerical simulations were conducted on full- and 2/5 reduced-scale compartment fires using FDS and simulation results were compared with the previously published experimental data. The numerical modeling used in this study was verified by comparing the predicted temperature at several points of the upper layer with the experiment data. Temperature and concentration distribution inside of compartments and velocity profile at door of compartment are analyzed to assess the validity of scaling law. Comparison between the predicted results on the full- and reduced-scale compartments shows good agreements on the inner compartment flow patterns, outflowing flame patterns from the compartments, and vertical temperature distributions.

Simulating the Response of a 10-Storey Steel-Framed Building under Spreading Multi-Compartment Fires

  • Jiang, Jian;Zhang, Chao
    • International Journal of High-Rise Buildings
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    • v.7 no.4
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    • pp.389-396
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    • 2018
  • This paper presents a numerical investigation on the structural response of a multi-story building subjected to spreading multi-compartment fires. A recently proposed simple fire model has been used to simulate two spreading multi-compartment fire scenarios in a 10-story steel-framed office building. By assuming simple temperature rising and distribution profiles in the fire exposed structural components (steel beams, steel column and concrete slabs), finite element simulations using a three-dimensional structural model has been carried out to study the failure behavior of the whole structure in two multi-compartment fire conditions and also in a standard fire condition. The structure survived the standard fire but failed in the multi-compartment fire. Whilst more accurate fire models and heat transfer models are needed to better predict the behaviors of structures in realistic fires, the current study based on very simple models has demonstrated the importance and necessity of considering spreadingmulti-compartment fires in fire resistance design of multi-story buildings.

Heat Flux Calculation for Thermal Equilibrium of Cofferdam in a LNG Carrier (LNG선 Heating Coil의 설계를 위한 Cofferdam내 열정산)

  • Joo-Ho Heo;Young-Bum Lee
    • Journal of the Society of Naval Architects of Korea
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    • v.35 no.1
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    • pp.98-106
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    • 1998
  • This paper shows the temperature distribution of double hull compartment and of cofferdam in a large LNG Carrier. In LNG Carrier, due to the lower cargo temperature($-163^{\circ}C$), structures are forced to lose their strength if additional heat is not supplied. So it is very important to estimate the temperature distribution and the heat flux needed to maintain the structure properly. The temperature of each compartment is obtained using 2-dimensional model analysis and compared with 3-dimensional results. And also this paper gives preliminary estimation of pipe length to supply necessary heat flux in bare pipe and finned pipe.

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The study for roof hood structure of G7 power car engine compartment using air flow analysis. (G7 동력차 동력실 유동해석을 통한 루프후드 구조 연구)

  • 박광복;장규호;이동훈
    • Proceedings of the KSR Conference
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    • 2000.05a
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    • pp.634-644
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    • 2000
  • The study was carried out about the roof hood structure of power car for Korean High Speed Train. The compatibility for applied material and volume of hood duct was studied using analysis about heat and flow distributions. The materials and volume of duct were mainly determined by output air temperature and flow rate of each electric blocks. This report was described, which focuses on pressure distribution and air temperature within engine compartment of power car.

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Numerical predictions of the time-dependent temperature field for the 7th Cardington compartment fire test

  • Lopes, Antonio M.G.;Vaz, Gilberto C.;Santiago, Aldina
    • Steel and Composite Structures
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    • v.5 no.6
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    • pp.421-441
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    • 2005
  • The present work reports on a numerical simulation of a compartment fire. The fire was modeled using a simplified approach, where combustion is simulated as a volumetric heat release. Computations were performed with the commercial code CFX 5.6. Radiation was modeled with a differential approximation (P1 model), while turbulence effects upon the mean gas flow were dealt with a SST turbulence model. Simulations were carried out using a transient approach, starting at the onset of ignition. Results are provided for the temperature field time evolution, thus allowing a direct comparison with the analytical and experimental data. The high spatial resolution available for the results proved to be of great utility for a more detailed analysis of the thermal impact on the steel structure.

A Study on the Characteristics of Fire Resistance of Window Material in Compartment Fire (건물화재시 창문재료에 따른 내화특성 연구)

  • Hur, Man-Sung;Jang, Moon-Seok;Cho, Soo
    • Fire Science and Engineering
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    • v.17 no.1
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    • pp.62-67
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    • 2003
  • The full-scale compartment fire tests were carried out to evaluate the characteristics of fire resistance of window material under actual fire conditions. The room size used for full-scale room fire tests was 4 by 3.8 m with 2.4 m high ceiling. The windows with PVC, Aluminum and AL+Wood frame materials were established, sofa and mattress were used as fire sources. The window contained pair glasses with the air between 6 mm glasses. Temperatures at total 32 points in the room were measured to find the temperature distribution in the room fire. It is examined that thermal effects on window frame materials such as charring, distortion, melting, structural collapse, and other effects.