• Title/Summary/Keyword: Heat radiation efficiency

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Numerical Investigations of Enhancement of a Convective Fin Efficiency by Convection-Radiation Gonjugate Heat Transfer (대류-복사 복합 열전달을 고려한 대류 핀효율의 향상에 관한 수치적 연구)

  • 이동렬;김호용;이재곤;박용국;김기대
    • Journal of Advanced Marine Engineering and Technology
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    • v.25 no.1
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    • pp.146-154
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    • 2001
  • In almost all real situations, there will be a radiant interchange between adjacent fins with the base surface as well as with the external environment. In the problem of this study, a rectangular fin is attached to a based. Our concern is whether the convective fin efficiency can be increased by the radiation heat exchanged between the fin and the base surface and how much. If the fin temperature toward the tip increased by the effect of radiation, the convective heat transfer increase due to the temperature difference between the ambient temperature and the surface temperature of the fin. If this true, the efficiency of the fin due to the radiation will increase. Attention is directed toward several parameters which have major roles on getting values of the fin efficiencies in several different values of parameters. Many different cases are, therefore, to be examined to have maximum fin efficiency by varying the values of each parameter.

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Heat Transfer and Combustion Characteristics and Performance of U type Radiation Tube Burner with fin (핀 부착 U형 복사튜브 버너의 열전달 및 연소성능 실험)

  • Lee, Hyun-Chan;You, Hyun-Seok;Lee, Joong-Seong
    • Proceedings of the KSME Conference
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    • 2001.06d
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    • pp.516-521
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    • 2001
  • Present study deals with combustion characteristics and performance of U type radiation tube burner with fin which combustion capacity is 30,000kcal/hr and the maximum capacity of supply fuel is $30Nm^{3}/hr$. Temperature difference of radiation tube is about $173^{\circ}C$ at 25% capacity and this show relatively small temperature difference for convenient type. Thermal efficiency is satisfactory as $72{\sim}81%$. Also, radiative efficiency of radiation tube is $52{\sim}73%$. The efficiency of heat exchanger is $27{\sim}37%$. Therefore, radiative efficiency is improved to $1{\sim}10%$ after installing fin.

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A Study on Heat Simulation for Heat Radiation in 150W LED (150W LED등기구 방열을 위한 열 해석에 관한 연구)

  • So, Byung Moon
    • Journal of the Semiconductor & Display Technology
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    • v.15 no.4
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    • pp.79-85
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    • 2016
  • For long life time and high efficiency, not necessary in improvement of LED chip structure, but also improve heat radiation for decrease heat in LED chip. In this study, efficiency decline factor has been investigated in LED lamp as study heat characteristic, luminance flux and heat resistance. When LED lamp temperature was increased, about 7% loss of luminance flux. In consequence of temperature analysis, width of fin was the most important factor of heat radiation. As a result, secure the enough heat path is very important factor of LED lamp design.

A Study on the Combustion Characteristics and Radiation Efficiency of Metal Fiber Burners (메탈 화이버 버너에서의 연소 특성 및 복사 효율에 관한 실험적 연구)

  • Park, Ju-Won;Chung, Tae-Yong;Shin, Dong-Hoon
    • 한국연소학회:학술대회논문집
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    • 2006.04a
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    • pp.13-18
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    • 2006
  • Radiant burners are applicable to drying, preheating and curing in materials manufacturing processes. High radiation efficiency is one of the most important performance criteria for these burners. The wide variation in reported radiation efficiencies are partly due to the differences in the measurement techniques. In the present work, water cooled radiant heat flux meter was used to measure radiant heat flux from a metal fiber mat burner. Non-contact type thermometer was also utilized to measure the surface temperature of the burner. Combustion gas was measured by gas analyzers. According to the thermal loads and stoichiometric ratios, radiant heat transfer ratio and combustion performance were discussed here in.

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A Study on the Combustion Characteristics and Radiation Efficiency of Metal Fiber Burners (메탈 화이버 버너에서의 연소 특성 및 복사 효율에 관한 실험적 연구)

  • Park, Ju-Won;Chung, Tae-Yong;Shin, Dong-Hoon
    • Journal of the Korean Society of Combustion
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    • v.11 no.1
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    • pp.27-33
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    • 2006
  • Radiant burners are applicable to drying, preheating and curing in materials manufacturing processes. Radiation efficiency is one of the important performance criteria for these burners. The wide variation in reported radiation efficiencies are partly due to the differences in the measurement techniques. In the present work, water cooled radiant heat flux meter was used to measure radiant heat flux from a metal fiber mat burner. Non-contact type thermometer was also utilized to measure the surface temperature of the burner. Combustion gas was measured by gas analyzers. According to the thermal loads and stoichiometric ratios, radiant heat transfer ratio and combustion performance were discussed here in.

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A Discussion on the Radiation Efficiency Measurement of Porous Surface Flames (다공성 표면 화염의 복사열효율측정에 관한 논의)

  • Jeong, Hwanghui;Sim, Keunseon;Lee, Keeman
    • 한국연소학회:학술대회논문집
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    • 2014.11a
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    • pp.157-159
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    • 2014
  • This article describes an investigation of basic combustion characteristics of radiant burner with various firing rate and equivalence ratios in porous metal. As a main experimental condition, firing rates and equivalence ratios each were adjusted from 204 to $408kW/m^2$ and 0.6 to 1.3. The purpose of this study is to investigate radiation efficiency using two experiment methods. The first way is to calculate the radiation efficiency by measuring the temperature of the burner surface, and the second is to compute the radiation efficiency by measuring the radiation intensity of the burner surface with a radio meter. The value of the radiation efficiency did not exactly match in the two cases. But we figured out that in accordance with increasing heat power, radiation efficiency was decreased. And additional complementary experiment on the relationship between these values is needed.

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Analysis on the Energy Performance of Solar Water Heating System according to the Configuration of Flat Plate Collectors (태양열급탕시스템의 집열기 배열에 따른 에너지성능 분석 및 평가)

  • Ko, Myeong-Jin;Lim, Bo-Min;Kim, Yong-Shik
    • Journal of the Korean Solar Energy Society
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    • v.36 no.4
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    • pp.49-56
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    • 2016
  • The objective of this work is to analyze the variation in energy performance for each flat plate collector connected in series. In this study, it was assumed that solar water heating system with annual solar fraction of 60% was installed in an office building in Seoul, South Korea. The transient energy performance corresponding to four cases, which are selected using different solar radiation and outdoor air temperature, is studied by analyzing the variation in outlet temperature, solar useful heat gain, and thermal efficiency of each collector. It is observed that the useful heat gain and the collector efficiency decrease continuously, and outlet temperature increases when increasing the number of collector connected in series. The long-term performance is assessed by evaluating the thermal efficiency of each collector for two solar radiation conditions ranging from 780 to $820W/m^2$ and from 380 to $420W/m^2$. It is found that the differences between the intercept and slope of the efficiency curves for first and eighth collectors are 3.68% and 6.74% for solar radiation of $800{\pm}20W/m^2$ and 8.57% and 12.90% for solar radiation of $400{\pm}20W/m^2$, respectively. In addition, it is interesting to note that annual useful heat gain and collector efficiency are reduced with similar rate of about 6.13% when increasing the collector area by connecting the collectors in series.

Efficient Finite Element Heat Transfer Analysis by Decomposing a Domain and Radiation Boundaries (영역 및 복사 경계의 완전 분할을 통한 유한요소 열전달 해석의 효율화)

  • Shin, Eui-Sup;Kim, Yong-Uhn;Kim, Sung-Jun
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.32 no.10
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    • pp.836-843
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    • 2008
  • An efficient domain/boundary decomposition method is applied for heat transfer problems with non-linear thermal radiation boundaries. The whole domain of solids or structures is considered as set of subdomains, an interface, and radiation interfaces. In a variational formulation, simple penalty functions are introduced to connect an interface or radiation interfaces with neighboring subdomains that satisfy continuity conditions. As a result, non-linear finite element computations due to the thermal radiation boundaries can be localized within a few subdomains or radiation interfaces. Therefore, by setting up suitable solution algorithms for the governing finite element equations, the computational efficiency can be improved considerably. Through a set of numerical examples, these distinguishing characteristics of the present method are investigated in detail.

Analysis of heat-loss mechanisms with various gases associated with the surface emissivity of a metal containment vessel in a water-cooled small modular reactor

  • Geon Hyeong Lee;Jae Hyung Park;Beomjin Jeong;Sung Joong Kim
    • Nuclear Engineering and Technology
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    • v.56 no.8
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    • pp.3043-3066
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    • 2024
  • In various small modular reactor (SMR) designs currently under development, the conventional concrete containment building has been replaced by a metal containment vessel (MCV). In these systems, the gap between the MCV and the reactor pressure vessel is filled with gas or vacuumed weakly, effectively suppressing conduction and convection heat transfer. However, thermal radiation remains the major mode of heat transfer during normal operation. The objective of this study was to investigate the heat-transfer mechanisms in integral pressurized water reactor (IPWR)-type SMRs under various gas-filled conditions using computational fluid dynamics. The use of thermal radiation shielding (TRS) with a much lower emissivity material than the MCV surface was also evaluated. The results showed that thermal radiation was always the dominant contributor to heat loss (48-97%), while the conjugated effects of the gas candidates on natural convection and thermal radiation varied depending on their thermal and radiative properties, including absorption coefficient. The TRS showed an excellent insulation performance, with a reduction in the total heat loss of 56-70% under the relatively low temperatures of the IPWR system, except for carbon dioxide (13%). Consequently, TRS can be utilized to enhance the thermal efficiency of SMR designs by suppressing the heat loss through the MCV.

Analysis of Heat Loss with Mirror Array and Receiver Shapes on the Dish Solar Collector (반사경 배치 및 흡수기 형상에 따른 접시형 태양열 집열기의 열손실 해석)

  • Seo, Joo-Hyun;Ma, Dae-Sung;Kim, Yong;Kang, Yong-Heack;Seo, Tae-Beom
    • Korean Journal of Air-Conditioning and Refrigeration Engineering
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    • v.20 no.1
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    • pp.35-41
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    • 2008
  • The radiative heat loss from a receiver of a dish solar collector is numerically investigated. The dish solar collector considered in this paper consists of a receiver and multi-faceted mirrors. In order to investigate the performance comparison of dish solar collectors, six different mirror arrays and four different receivers are considered. A parabolic- shaped perfect mirror of which diameter is 1.40 m is considered as the reference for the mirror arrays. The other mirror arrays which consist of twelve identical parabolic-shaped mirror facets of which diameter are 0.405 m are suggested for comparison. Their reflecting areas, which are 1.545 $m^{2}$, are the same. Four different receiver shapes are a conical, a dome, a cylindrical, and a unicorn type. The radiative properties of the mirror surfaces and the receiver surfaces may vary the thermal performance of the dish solar collector so that various surface properties are considered. In order to calculate the radiative heat loss in the receiver, two kinds of methods are used. The Net Radiation Method that is based on the radiation heat balance on the surface is used to calculate the radiation heat transfer rate from the inside surface of the receiver to the environment. The Monte-Carlo Method that is the statistical approach is adopted to predict the radiation heat transfer rate from the reflector to the receiver. The collector efficiency is defined as the results of the optical efficiency and the receiver efficiency. Based on the calculation, the unicorn type has the best performance in receiver shapes and the STAR has the best performance in mirror arrays except the perfect mirror.