• 자원환경지질
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• 제47권4호
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• pp.441-453
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• 2014

대륙지각의 대표적인 암석이며 우리나라의 약 25%를 차지하는 쥬라기 화강암을 대상으로 상부지각의 열적 현상을 이해하는데 중요한 정보인 물성과 열물성을 측정하였다. 충남 연기군(2개 시추공, 149개)과 대전시 유성구(1개 시추공, 59개)의 총 3개 시추공으로부터 회수한 206개 화강암의 건조 상태의 열전도도 평균은 2.813 W/mK이고, 공극 보정을 한 평균 열전도도는 2.900 W/mK이다. 공극 내 물의 효과로 인해 공극 보정을 한 열전도도가 높게 나타난다. 건조 상태의 평균 열확산율은 $1.296{\times}10^{-6}m^2/sec$이며, 온도변화에 따른 열확산율 변화는 온도가 증가할수록 열확산율이 낮아지는 경향을 보인다. $200^{\circ}C$에서의 열확산율은 상온 $25^{\circ}C$에서 보다 30% 정도 더 낮게 나타나는 것을 확인하였다. 206개 화강암의 평균 공극은 0.010이며, 건조밀도와 포화밀도는 각각 $2.662g/cm^3$와 $2.673g/cm^3$이다. 열전도도와 공극의 상관관계로부터 화강암의 열전도도는 공극보다 구성광물에 의한 영향이 더 큰 것을 확인하였다. 열전도도와 열확산율의 상관관계에서는 결정계수가 0.898로 선형관계가 잘 나타나고, 공극과 밀도의 상관관계에서는 ${\rho}=-2.393{\times}{\phi}+2.705$라는 상관식을 산출하였다. XRD 분석과 XRF 분석 결과로부터 석영과 $SiO_2$ 함량이 증가하면 열전도도가 높아지고 조장석과 $Al_2O_3$가 증가하면 열전도도가 낮아지는 경향을 확인하였다. 또한 부피 함량비가 많은 광물과 화학성분을 이용해 회귀 분석을 수행하였다. 석영을 이용한 선형식은 $K=0.0294V_{Quartz}+1.93$으로 산출 되었다. 또한, $SiO_2$를 이용한 선형식은 $K=0.237W_{SiO_2}-14.09$로 산출 되었고, $SiO_2$와 $Al_2O_3$를 이용한 회귀식은 $K=0.053W_{SiO_2}-0.476W_{Al_2O_3}+6.52$로 산출 되었다. Felsic-marfic index를 이용하여 산출한 비중과 측정된 비중의 평균은 각각 2.645와 2.650이며, 평균 상대오차는 0.667%로 나타났다.

• 폴리머
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• 제25권3호
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• pp.367-374
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• 2001

여러 가지 탄소함유가스로부터 Ni 및 Ni-Cu의 합금촉매를 사용하는 화학증착반응에 의해 제조한 나노탄소섬유를 충전재로 하고, poly(vinylidene fluoride) (PVDF)를 매트릭스로 이용하여 복합재를 제조하여 전자파 차폐성능을 조사해보았다. 전자파 차폐용 충전재의 중요한 물성치인 나노탄소섬유의 전기전도도는 10000psi 압력에서 4.2∼22.4S/cm 사이에 분포하였다. 나노탄소섬유/PVDF 복합재의 전기전도도는 0.22∼2.46 S/cm 사이에 값을 보였고, 전자파 차폐성능은 2∼13 dB 범위를 나타내었다. 나노탄소섬유의 전기전도도는 열처리 온도와 시간의 증가에 따라 높아지지만, 얻어지는 복합재의 전기전도도는 초기에 급속한 증가 후 일정해지는 경향을 나타내었다. 복합재의 전자파 차폐성능은 열처리 온도와 시간의 증가에 따라 증가하다가 감소하였고, 복합재의 전기전도도에 비례하였다. 열처리가 진행됨에 따라 나노탄소섬유의 비표면적이 감소하였으며, 전자파 차폐성능에 충전재의 전기전도도 외에 비표면적이 중요한 변수임을 알 수 있었다.

• 한국신재생에너지학회:학술대회논문집
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• 한국신재생에너지학회 2005년도 제17회 워크샵 및 추계학술대회
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• pp.587-590
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• 2005

A detailed geothermal characteristics survey with numerical simulations of the heat transfer in a site for ground source heat pump system is necessary for deploying a shallow geothermal utilization system. Density, specific heat, thermal diffusivity, and thermal conductivity are measured on 91 core samples from a 300 m deep borehole in KIGAM(Korea Institute of Geoscience and Mineral Resources). The heat flow is estimated from the thermal gradient and average thermal conductivity and the correlation between fracture system and hydraulic conductivity is analyzed. From the obtained ground information of the study site the performance of the ground heat pump system can be analyzed with some detailed numerical simulations for seasonal heat pump operation skill and optimal system design techniques.

• 대한전기학회:학술대회논문집
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• 대한전기학회 2008년도 추계학술대회 논문집 전기설비전문위원
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• pp.243-244
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• 2008

The Velocity Autocorrelation Function (VAF) of the sodium ions is calculated for a range of temperature from 250K to 1000K and converted into the linear ac-conductivity and ac-susceptibility response via Fourier transformation. A peak is found in the conductivity around $6{\times}10^{12}Hz$ that has some of the character of a Poley absorption. Here it is shown to be due to an harmonically coupled site vibrations of the sodium atoms, which extend only over a limited range. At frequencies below the peak the conductivity tends towards a constant i.e. dc value corresponding to a constant flow of ions through the simulation cell. At high temperatures the conductivity due to this ion transport process behaves like a metal with an insulator to metal transition occurring around a specific temperature.

• 한국지반공학회:학술대회논문집
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• 한국지반공학회 2010년도 춘계 학술발표회
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• pp.625-630
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• 2010

Parametric study was performed using the SCW numerical model for evaluating the performance of the SCW. The five ground related parameters, which are porosity, hydraulic conductivity, thermal conductivity, specific heat, geothermal gradient, and five SCW design parameters, which are pumping rate, well depth well diameter, dip tube diameter, bleeding rate, were used in the study. Numerical simulations were performed for short-term (24-hour) simulation. The study results indicate that the parameters that have important influence on the performance of SCW were hydraulic conductivity, thermal conductivity, geothermal gradient, pumping rate, and bleeding rate. Overall, this study showed that various factors had a cumulative influence on the performance of the SCW, and a numerical simulation can be used to accurately predict the performance of the SCW.

• Nuclear Engineering and Technology
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• 제53권2호
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• pp.583-591
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• 2021

Various compositions of CeO₂-Ce₃Si₂ (0, 10, 30, 50, and 100 wt%Ce₃Si₂) composites were fabricated using conventional sintering and spark plasma sintering. Lower relative density, enhanced interdiffusion of oxygen and silicon, and silicide agglomerations from the congruent melting of Ce₃Si₂ at 1390 ℃ were only observed from conventionally-sintered pellets. Thermal conductivity of spark plasma sintered CeO₂-Ce₃Si₂ composites was calculated from the measured thermal diffusivity, specific heat, and density, which exhibited dense (>90 %TD) and homogeneous microstructure. The composite with 50 wt%Ce₃Si₂ exhibited 55% higher thermal conductivity than CeO₂ at 500 ℃, and 81% higher at 1000 ℃.

• Korean Journal of Acupuncture
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• 제31권3호
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• pp.125-135
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• 2014

Objectives : Warm needling is the method combining the effects of acupuncture and moxibustion. In modern clinics, warm needling is only affected by treatment time or frequency. We need to study the physical characteristics of warm needles currently used in clinics in order to develop more efficient and economical treatments. Methods : We collected various warm needle specimens and analyzed chemical constitutions, measured heat transfer velocity, micro Vicker's hardness and specific resistance. We studied the relationship between heat transfer velocity and micro Vicker's hardness as well as that between heat transfer velocity and specific resistance. Results : The heat transfer velocity of the Silver_HL was 3.3 mm/sec, of the Au alloy group was 1.3~2.6 mm/sec, and Silver_IN, Silver_ZK and SS groups was less than 0.3 mm/sec. We therefore concluded that the needle composed of Ag has the best heat transfer velocity. In the Micro Vicker's hardness test, Vicker's hardness of the Au alloy group was 159~170 Hv, of Silver_HL was 181 Hv, and of the Silver_IN, Silver_ZK, SS group was 450.8~519 Hv. In the Silver_IN, Silver_ZK and SS groups, hardness was inversely proportial to thermal conductivity. In the specific resistance test, the specific resistance of Silver_HL was the lowest, that of the Au alloy group was the second lowest, and that of the Silver_IN, Silver_ZK, SS groups were the highest. Conclusions : We concluded that the needle composed of Ag has the best heat transfer velocity, highest electric conductivity and thermal conductivity, therefore the needle composed of Ag is suitable for warm needling.

• 대한설비공학회:학술대회논문집
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• 대한설비공학회 2009년도 하계학술발표대회 논문집
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• pp.45-51
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• 2009

A ground-loop heat exchanger in a ground source heat pump system is an important unit that determines the thermal performance of a system and its initial cost. The size and performance of this heat exchanger is highly dependent on ground thermal properties. A proper design requires certain site-specific parameters, most importantly the ground effective thermal conductivity, the borehole thermal resistance and the undisturbed ground temperature. This study was performed to investigate the effect of some parameters such as borehole lengths, various grouting materials and U-tube configurations on ground effective thermal conductivity. In this study, thermal response tests were conducted using a testing device with 9-different ground-loop heat exchangers. From the experimental results, the length of ground-loop heat exchanger affects to the effective thermal conductivity. Among the various grouting materials, the bentonite-based grout with silica sand shows the largest thermal conductivity value.

• 설비공학논문집
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• 제28권4호
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• pp.153-157
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• 2016

In case of metal insulation, which is produced by stacking stainless steel sheets and air layers in a multi-stack manner at a specific thickness, insulation performance will be evaluated based on thermal transmittance rather than the intrinsic physical properties of each material such as thermal conductivity. However, there is no standard for measuring thermal transmittance targeted for non-homogeneous insulation which is used in relatively high temperature conditions such as a power station. In this study, the thermal conductivity of homogeneous insulation acquired by the standardized guard hot plate method and the thermal conductivity of homogeneous insulation measured by the newly developed performance tester were compared to verify the confidence level of the tester. As a result, thermal conductivity acquired by the newly developed thermal transmittance tester was about 6% higher than the thermal conductivity measured by the existing guard hot plate method under the anticipated service temperature conditions.

• Nuclear Engineering and Technology
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• 제34권5호
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• pp.482-493
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• 2002

The MOX fuel for LWR is fabricated either by direct mechanical blending of UO$_2$ and PuO$_2$ or by two stage mixing. Hence Pu-rich particles, whose Pu concentrations are higher than pellet average one and whose size distribution depends on a specific fabrication method, are inevitably dispersed in MOX pellet. Due to the inhomogeneous microstructure of MOX fuel, the thermal conductivity of LWR MOX fuel scatters from 80 to 100 % of UO$_2$ fuel. This paper describes a mechanistic thermal conductivity model for MOX fuel by considering this inhomogeneous microstructure and presents an explanation for the wide scattering of measured MOX fuel＇s thermal conductivity. The developed model has been incorporated into a KAERI＇s fuel performance code, COSMOS, and then evaluated using the measured in-pile data for MOX fuel. The database used for verification consists of homogeneous MOX fuel at beginning-of-life and inhomogeneous MOX fuel at high turnup. The COSMOS code predicts the thermal behavior of MOX fuel well except for the irradiation test accompanying substantial fission gas release. The over-prediction with substantial fission gas release seems to suggest the need for the introduction of a recovery factor to a term that considers the burnup effect on thermal conductivity.