This study presents a method for analyzing the surface temperatures of specific facilities, such as the 5 MWe reactor within the Yongbyon Nuclear Complex, to explore its potential utility in monitoring suspected nuclear-related activities in North Korea using thermal infrared (TIR) satellite imagery (Landsat series). TIR band data is utilized to derive surface temperatures in the specified areas, and the temperatures are analyzed on a monthly basis to examine any patterns within these regions. This research provides a pattern-of-life on temperature variation for the target areas through multiple TIR image datasets, offering additional information to analyze facilities’ operational status in remote and inaccessible regions.

In this paper, optical infrared thermography simulation using thermal wave imaging technique is performed to analyze the thermal characteristics of delamination defects. In this study, lock-in thermography(LIT) and pulsed thermography(PT) simulation was performed to analyze the samples of european traditional tiles with delamination defects, and the analytical modeler was developed through the ANSYS 19.2 transient thermal analysis tool. Applied sinusoidal heating with modulation frequency according to pulse heating and phase locking technique. The thermal response of the sample surface by heating was recorded and then data analysis was performed. The temperature gradient characteristics of each technique were compared, and phase angle was calculated for the LIT to analyze the parameters for the experiment setting. The simulation model was developed as a useful data for practical optical infrared thermography tests.

K-1계열 전차의 전차장 열상조준경은 주야간 및 연막, 안개 등의 상황에서 포수조준경과 독립적으로 360°회전을 통한 전 방향의 표적 관측과 전차가 정지 및 기동 간 발생하는 진동에서도 조준선을 안정화하여 전차장이 표적의 감지, 식별, 조준 및 추적 할 수 있는 장치이다. 이 장치 의 주요기능 중 하나인 가시상 및 열상을 감지하고 처리하여 최종 영상을 전차장에게 전달하는 것으로 이를 위한 핵심 부품은 주간 및 열상 창이다. 이 핵심 부품은 목표물을 관측하는 광행 로 입구에 장착되어 있으며, 목표물에 대해서 주간에는 가시광, 야간에는 적외선을 통과하여 전 차장 열상조준경의 내부 광학계통으로 전달하는 기능을 수행한다. 이와 같은 핵심부품에 대한 정비는 창 정비 품목으로 선정되어 대부분 재생정비가 아닌 신품 교환 정비를 하고 있는 실정 이다. 즉, 재생정비가 가능한 품목임에도 불구하고 신품교환에 따라 군 예산이 낭비되고 있다. 따라서 본 연구는 평면연마장비와 DLC(diamond-like carbon) 코딩장비를 활용하여 주간 및 열상 창을 연마·코팅할 수 있도록 장착치구를 개발하였다. 또한 재생공정에 대한 검사기준 정립을 포함하여 재생품에 대한 성능검증을 위해 기 발간된 창 정비작업요구서(DMWR) 수정(안)을 제시 하였다.

Infrared thermography provides the colorful images of concerning area where local changes of surface temperature occurs and can be used to measure the fine temperature of human body. Unlike the radiography technique, it is determined by the presence or absence of existing anatomical principles capable of quantitative evaluation and visible to the physiological and functional state of the human body. In this paper, it was studied the characteristics of dynamic motion conditions in the hands due to physiological changes of temperature distribution. The results showed that the difference between the change in temperature characteristics for the left and right hand.

A sintering process for copper based films using a rapid thermal process with infrared lamps is proposed to improve the electrical properties. Compared with films produced by conventional thermal sintering, the microstructure of the copper based films contained fewer internal and interfacial pores and larger grains after the rapid thermal process. This high-density microstructure is due to the high heating rate, which causes the abrupt decomposition of the organic shell at higher temperatures than is the case for the low heating rate; the high heating rate also induces densification of the copper based films. In order to confirm the effect of the rapid thermal process on copper nanoink, copper based films were prepared under varying of conditions such as the sintering temperature, time, and heating rate. As a result, the resistivity of the copper based films showed no significant changes at high temperature (300 oC) according to the sintering conditions. On the other hand, at low temperatures, the resistivity of the copper based films depended on the heating rate of the rapid thermal process.

Numerous experiments have demonstrated that infrared thermographic methods are effective for detection of subsurface defects in the materials. The response of the material to the thermal stimulus is dependent on the existence of subsurface defects and their features. In order to obtain the information about defects, the material’s response to the thermal stimulus is studied. In this study, image processing was applied to infrared thermography images to detect defects in metals that were widely used in industrial fields. When analyzing experimental data from infrared thermographic testing, thermal images were often not appropriate. Thus, four point method was used for processing of every pixel of thermal images using MATLAB program for quantitative evaluation of defect detection and characterization which increased the infrared non-destructive testing capabilities since subtle defects signature became apparent..

Fe2O3 coated plate mica(Fe2O3/mica) for infrared reflectance red pigment was prepared under hydrothermal treatment. Fe2O3 was perfectly coated on mica via the difference of surface charge between Fe2O3 and mica particles at pH 3. Fe2O3/mica was then calcined at 800 oC to stabilize the coated layer on mica. The infrare (IR) reflectance pigments were characterized by X-ray diffraction, FE-SEM, zeta potential, and a UV-Vis-NIR spectrophotometer. In particular, the CIE color coordinate and IR reflectance properties of Fe2O3/mica pigments were investigated in relation to the thickness variation of the Fe2O3 layer coated on mica of various lateral sizes. The isolation-heat red paints containing the pigments were prepared and optimized with a thinner, settling agent, and dispersant. Then, the films were made. The thermal property of isolation-heat on these films was observed through the relationship of the IR reflectance value, which was based on the variation of the Fe2O3 layer’s thickness coated on mica and mica’s lateral size as IR reflectance pigment. With an increase in IR reflectance on these films, the thermal property of isolation-heat was effectively enhanced.

기후변화에 따라 도시열섬현상이 지속적으로 발생하고 있다. 이러한 기후변화의 영향과 더불어 도시화의 진행과정에서 도시열섬현상의 강도는 더욱 심각하게 나타나고 있다. 이러한 관점에서 본 연구는 도시열섬현상이 도시 공간구조에 따라 어떠한 강도를 띠고 나타나는지를 확인하기 위해 기초연구를 진행하는데 목적을 두고 있다. 따라서 도시열섬현상의 특성을 파악하기 위하여 다음의 두 가지의 분석에 초점을 맞춘다. 첫째, 이동식차량디지털온도계(Portable Vehicle Digital Thermometer: PVDT)를 기반으로 가능한 동시간 대에 도시기온을 측정하면서 이동경로를 중심으로 등온선의 형성구조를 파악한다. 둘째, 이러한 열섬현상의 분석을 바탕으로 등온선의 변화가 나타나는 주요 원인을 파악하고자 디지털열화상캠코더(Digital Infrared Camcoder: DIC)를 활용하여 도시기온을 상승시키는 시설물을 선별하여 표적탐구를 시행하였다. 실험의 결과 도시열섬에 영향을 끼치는 핵심적 요인은 도로표면, 간판 등 표지판, 건축물의 지붕과 외벽 및 차량 바퀴와의 접촉면인 것으로 파악된다.

ASTRO-F /FIS will carry out all sky survey in the wavelength from 50 to 200 μm. At far infrared, stars and galaxies may not be good calibration sources because the IR fluxes could be sensitive to the dust shell of stars and star formation activities of galaxies. On the other hand, asteroids could be good calibration sources at far infrared because of rather simple spectral energy distribution. Recent progresses in thermal models for asteroids enable us to calculate the far infrared flux fairly accurately. We have derived the Bond albedos and diameters for 559 asteroids based on the IRAS and ground based optical data. Using these thermal parameters and standard thermal model, we have calculated the spectral energy distributions of asteroids from 10 to 200 μm. We have found that more than 70% of our sample asteroids have flux errors less than 10% within the context of the best fitting thermal models. In order to assess flux uncertainties due to model parameters, we have computed SEDs by varing external parameters such as emissivity, beaming parameter and phase integral. We have found that about 100 asteroids can be modeled to be better than 5.8% of flux uncertainties. The systematic effects due to uncertainties in phase integral are not so important.

In this study, an analysis were conducted to utilize the thermal infrared image using drone to present the temperature correction method of thermal infrared image and the thermal environment by the type of land cladding. The analysis was applied to the temperature correction of the thermal infrared image and total eight thermal infrared images were produced based on the land surface temperature. The thermal infrared image compared accuracy through RMSE calculation. Based on the result of RMSE, the thermal infrared image corrected by the land surface temperature was relatively accurate and contained at 2.26 to 3.58. According to the results, it is expected that the aggregation and waters will perform the functions of the green park sufficiently to improve the thermal comfort and improve the microclimate stability using the thermal infrared image and the reclassified land cover map. The results of this study obtained by Drone and the usability of the drone thermal infrared image in the detection of the thermal environment. Finally, it is expected to contribute to the improvement and management of the thermal environment in the city by being used as a basic data for the improvement and management policy of the thermal environment. Moreover, the macro view is expected to contribute to the mitigation of urban temperature reduction and heat island.

Deterioration of insulation and retrofitting existing buildings to make the data necessary for the insulation of the survey should precede. Measuring infrared (IR systems) using insulation on-site apartment Segmental analysis of the structure is to evaluate the let part. Temperature and temperature gradient by the degradation of the insulation of apartment structures can be evaluated.

적외선 영상이란 대상물을 열 적외선 영상장치로 촬영해 표면의 미소한 온도차이로부터 물체의 성질이나 물체내부의 상황에 대해서 비접촉, 비파괴로 조사하는 기법을 말한다. 열적외선 영상장치는 물체의 가시상을 영상화하는 보통의 촬영과는 다르고 물체의 온도를 영상화할 수가 있다. 일반적으로 적외선 열화상은 건축물과 지하구조물에 적용되어 왔으나 본 기술을 절토사면 안전관리 분야에 확대 적용함으로서 안전하고 신속하게 보수보강이 필요한 결함부위의 추출이 가능할 것으로 본다. 열 적외선 장치를 이용해 숏크리트 면을 촬영하면 배후 지반의 상태에 따라 표면의 온도가 다르게 나타난다. 일반적으로 공기의 부피 열용량은 흙에 비해 대단히 작기 때문에 모르터 배후에 공동부가 있는 경우에는 외부온도에 민감히 반응하며, 가열은 쉽고 감열은 서서히 나타난다. 반대로 물의 부피 열용량은 대단히 크기 때문에 습기가 많은 부위는 가열감열속도가 늦은 특성을 가지고 있다. 한편, 상온부근의 물체표면에서는 적외선(파장 3～14㎛)에 의한 열방사가 이루어지므로 열적외선영상장치를 이용해 이 열방사량을 면적으로 감지해 영상화하여 숏크리트면의 온도분포를 단시간에 효율적으로 획득할 수 있다. Fig. 1은 일반적인 열적외선 시스템을 나타내고 있다. Table 1은 열적외선 영상법의 주된 활용범위를 나타낸 것이며, 열적외선 영상법의 주요 특징은 다음과 같다. ① 측정대상물의 온도를 비접촉으로 계측할 수 있다.② 온도분포로서 영상화된 상태로 표시되기 때문에 평면적인 관찰이 용이하다.③ 야간에도 관찰이 가능하다.활용분야주요활용방법의 료체온측정전 자 전 기전기기구의 신뢰성 시험 및 이상조사전 력발전소 등의 설비보존, 점검기 상위성을 이용한 기상관측건 축건축물의 점검