Some of the metal waste generated from KEPCO NF is being disposed of in the form of ingots. An ingot is a metal that is melted once and then poured into a mold to harden, and it is characterized by a uniform distribution of radioactive material. When measuring the uranium radioactivity in metal ingot with HPGe detector, 185.7 keV of U-235 is used typically because most gamma rays emitted at U-235 are distributed in low-energy regions below 200 keV. To analyze radioactivity concentration of U-235 with HPGe detector more accurately, self-attenuation due to geometrical differences between the calibration source and the sample must be corrected. In this study, the MCNP code was used to simulate the HPGe gamma spectroscopy system, and various processes were performed to prove the correlation with the actual values. First an metal ingottype standard source was manufactured for efficiency calibration, and the GEB coefficient was derived using Origin program. And through the comparison of actual measurements and simulations, the thickness of the detector’s dead layers were defined in all directions of Ge crystal. Additionally instead of making an metal ingot-type standard source every time, we analyzed the measurement tendency between commercially available HPGe calibration source (Marinelli beaker type) and the sample (metal ingot type), and derived the correction factor for geometry differences. Lastly the correction factor was taken into consideration when obtaining the uranium radioactivity concentration in the metal ingot with HPGe gamma spectroscopy. In conclusion, the U-235 radioactivity in metal ingot was underestimated about 25% of content due to the self-attenuation. Therefore it is reasonable to reflect this correction factor in the calculation of U-235 radioactivity concentration.
This study investigates the behavior of the thermal conductivity among material properties in order to develop a thermal evaluation methodology of spent fuel assembles in a transport cask. It is inefficient to model each element of the spent fuel assembly in detail, and it is generally calculated by modeling the effective thermal conductivity (ETC). The ETC model was developed to allow a much simpler representation of a spent fuel assembly within a fuel compartment by treating the entire spent fuel rod array and the surrounding fill gas within the confines of the compartment as a homogenous solid material. The fuel rod assembly and surrounding gas are modeled with an effective conductivity that is designed to yield an overall conduction heat transfer rate that is equivalent to the combined effect of local conduction and radiation heat transfer in a plane through the assembly. When this model is applied to the transport cask, it tends to predict the cladding peak temperature lower than the results of detailed model in which the fuel rod arrangement and shape of the fuel assembly are simulated. As for the tendency of the error, the model tended to under-predict when basket temperature was lower than a certain temperature, and over-predict when it was higher. The purpose of this study is to investigate the attenuation effect of the cladding peak temperature on the related variables when the ETC model is applied to the transport cask. In addition, based on the thermal characteristics of this model, a correction factor that can compensate for this attenuation effect is presented. This correction factor is obtained by finding the difference between a separate ETC homogeneous model and a separate detailed fuel model, rather than directly applying the ETC calculated from the detailed fuel model to the transport cask.
In gamma-ray spectrometry for volume samples, the self-attenuation effect should be considered in the case of differences in chemical composition and density between the efficiency calibration source for quantitative analysis of sample and the sample actually measured. In particular, the lower the gamma-ray energy, the greater the gamma-ray attenuation due to the self-attenuation effect of the sample. So, the attenuation effect of low-energy gamma-rays in the sample should be corrected to avoid over- or under-estimation of its radioactivity. One of the most important factors in correcting the self-attenuation effect of the sample is the linear attenuation coefficient for the sample, which can be directly calculated using a collimator. The larger the size of the collimator, the more advantageous it is to calculate the linear attenuation coefficient of the sample, but excessive size may limit the use of the collimator in a typical environmental laboratory due to its heavy weight. Therefore, it is necessary to optimize the collimator size and structure according to the measurement environment and purpose. This study is to optimize a collimator that can determine the effective linear attenuation coefficient of low-energy gamma-rays, and verify its applicability. The overall structure of the designed collimator was optimized for gamma-ray energy of less than 100 keV and cylindrical plastic bottle with diameter of 60 mm and a height of 40 mm. The materials of optimized collimator consisted of tungsten. Acryl and acetal were used to form the housing of the collimator, which fixes the central axis of the bottle, collimator and point-like source. In addition, using the housing, the height of the tungsten is adjusted according to the height of the sample. For applicability evaluation of the optimized collimator, IAEA reference material in solid form were used. The sample was filled in the bottle with heights of 1, 2, 3 and 4 cm respectively. Using the collimator and point-like source of 210Pb (46.5 keV), 241Am (59.5 keV), and 57Co (121.1 keV), the linear attenuation coefficient and the radioactivity for the samples were calculated. As a result, to calculate the linear attenuation coefficient using the optimized collimator, a relatively high sample height is required. However, the optimized collimator can be used to determine the linear attenuation coefficients of low-energy gamma-rays for the self-attenuation correction regardless of the sample height. It is concluded that the optimized collimator can be useful to correct the sample selfattenuation effect.
A new lighting support structure composing of two-way wires and pulley, a pulley-type wireway system, was developed to improve the seismic performance of a ceiling type lighting equipment. This study verifies the seismic performance of the pulley-type wireway system using a numerical approach. A theoretical model fitted to the physical features of the newly-developed system was proposed, and it was utilized to compute a frictional coefficient between the wire and pulley sections under tension forces. The frictional coefficient was implemented to a finite element model representing the pulley-type wireway system. Using the numerical model, the seismic responses of the pulley-type wireway system were compared to those of the existing lighting support structure, a one-way wire system. The addition of the pulley component resulted in the increasement of energy absorption capacity as well as friction effect and showed in significant reduction in maximum displacement and oscillation after the peak responses. Thus, the newly-developed wireway system can minimize earthquake-induced vibration and damage on electric equipment.
This study simulated strong ground motion waveforms in the southern Korean Peninsula, based on the physical earthquake modeling of the Southern California Earthquake Center (SCEC) BroadBand Platform (BBP). Characteristics of intensity attenuation were investigated for M 6.0-7.0 events, incorporating the site effects. The SCEC BBP is software generates broadband (0-10 Hz) ground-motion waveforms for earthquake scenarios. Among five available modeling methods in the v16.5 platform, we used the Song Model. Approximately 50 earthquake scenarios each were simulated for M 6.0, 6.5, and 7.0 events. Representative metrics such as peak ground acceleration (PGA) and peak ground velocity (PGV) were obtained from the synthetic waveforms that were simulated before and after the consideration of site effects (VS30). They were then empirically converted to distribution of instrumental intensity. The intensity that considers the site effects is amplified at low rather than high VS30 zones.
The stochastic point-source model has been widely used in generating artificial ground motions, which can be used to develop a ground motion prediction equation and to evaluate the seismic risk of structures. This model mainly consists of three different functions representing source, path, and site effects. The path effect is used to emulate decay in ground motion in accordance with distance from the source. In the stochastic point-source model, the path attenuation effect is taken into account by using the geometrical attenuation effect and the inelastic attenuation effect. The aim of this study is to develop accurate equations of ground motion attenuation in the Korean peninsula. In this study, attenuation was estimated and validated by using a stochastic point source model and observed ground motion recordings for the Korean peninsula.
본 연구에서는 미국 남캘리포니아 지진센터에서 개발한 물리적 지진모델링 기반 광대역 강지진동 모사 플랫폼( 버전 16.5)을 활용하여, 규모 6.0, 6.5, 7.0 지진에 대한 진도 감쇠 특성 분석을 수행하였다. 지진 발생 위치는 2016년 규모 5.8 경주 지진 진앙 인근을 가정하였으나 지각 전파 모델의 경우 남캘리포니아 강지진동 모사 플랫폼에서 제공하 는 미국의 대표적인 지각 모델 두 개를 사용하였다. 하나는 판 내부를 대표하는 미국 중동부 지역(Central and Eastern United States, CEUS) 모델이고 다른 하나는 판의 경계를 대표하는 미 서부 지역(LA Basin) 모델이다. 버전 16.5 플랫 폼에는 5개의 모델링 방법론이 제시되고 있으며 본 연구에서는 Song 모델과 Exsim 모델을 사용하였다. 동일 규모의 지진이라 하더라도 지진발생 환경이 다른 지역(CEUS vs LA Basin)에서는 같은 진앙 거리에서 진도 2 등급에 가까운 차이가 발생할 수 있음을 본 연구를 통해서 발견하였다. 본 연구에서 나타난 지역별 진도 감쇠 특성의 차이를 감안할 때 한반도에서 좀 더 정밀한 지진재해 평가를 위해서는 지역에 적합한 진도 감쇠 특성을 이해하는 것이 중요할 것으로 판단되며 본 연구는 지역 특화된 진도 감쇠 특성을 고려하지 않을 경우 진도 감쇠 분포의 불확실성 정도를 잘 보여준다.
홍어 껍질 유래 콜라겐 펩타이드를 한외여과막을 이용하여 분자량의 크기를 1,000 Da 이하와 1,000 Da 이상으로 분리하고 그 효과를 비교하고자 하였다. 각각의 시료를 비만 유발 실험동물인 db/db mice에 체중당 200 mg의 콜라겐 펩타이드를 8주간 투여하였다. 본 연구의 결과는 콜라겐 펩타이드를 투여한 군에서 비만대조군에 비해 체중 증가량의 감소, 혈액 및 간조직의 활성산소 농도의 감소, 간조직의 산화적 스트레스가 완화된 것으로 나타났다. 또한 콜라겐 투여군에서 염증반응과 관련된 간조직의 핵전사인자(NF-κB) 및 효소(COX2, iNOS), 염증성 사이토카인(IL-6)발현이 비만대조군에 비해 유의적으로 감소하였다. 분자량의 크기에 따라 약간의 차이가 나타났지만, 전반적으로는 유의적이지 않았다. 따라서 홍어 콜라겐 펩타이드의 비만에 의해 유발된 염증반응이 억제되었는데, 이는 콜라겐의 산화적 스트레스 완화작용에 기인한 것으로 사료된다.
High power trends in the diesel engines due to engine downsizing do not provide noise attenuation that can be satisfied with the performance of the existing silencer on account of high frequency increases in the exhaust noise. This study improves the attenuation performance of the exhaust silencer of the diesel engine and suggests silencer structure that performs best attenuation performance, especially at the high frequency range in the exhaust noise. It proposes dual silencer structure with an average attenuation performance of 6.4 dB and a maximum of 10.7 dB in the high frequency range (over 500 Hz), and analyzes its characteristics compared with the existing silencer. The performance analysis is performed according to 'Measurements on silencers in situation–ISO 11820:1996 Acoustics' and describes the results of comparative analysis with the existing silencer.
We built a 8 μm selected sample of galaxies in the NEP-AKARI eld by defining 4 redshift bins with the four AKARI bands at 11, 15, 18 and 24 microns (0:15 < z < 0:49, 0:75 < z < 1:34, 1:34 < z < 1:7 and 1:7 < z < 2:05) . Our sample contains 4079 sources, 599 are securely detected with Herschel/PACS. Also adding ultraviolet (UV) data from GALEX, we fit the spectral energy distributions using the physically motivated code CIGALE to extract the star formation rate, stellar mass, dust attenuation and the AGN contribution to the total infrared luminosity (LIR). We discuss the impact of the adopted attenuation curve and that of the wavelength coverage to estimate these physical parameters. We focus on galaxies with a luminosity close the characteristic L* IR in the different redshift bins to study the evolution with redshift of the dust attenuation in these galaxies.
Marketers increasingly use electronic word of mouth (e-WOM) as a communication tool to pursue consumer purchase intention. Building on brand equity theory, this study extends the traditional argument that the enhancement of consumer repurchase intention by positive brand awareness, image, and relationship is moderated by susceptibility to e-WOM. Electronic WOM enables consumers to search for a variety of user products and experiences over the Internet. Online product reviews are one of the most popular channels through which consumers find product information; these reviews are a powerful example of e-WOM. This channel not only enhances the convenience for consumers in their search for information, it also increases consumers’ brand awareness and image, which are primitive factors in developing a consumer–brand relationship (CBR). For the aforementioned phenomenon, the objective of this research is to comprehend how consumers’ personality traits play a role in the formation of CBR and behavioral intention in response to normative influences. The authors argue that the impact of brand knowledge and the brand relationship on repurchase intention will be weakened in consumers who are highly susceptible to e-WOM. Consumers who are highly susceptible to e-WOM tend to consume and absorb information spreading over social media and are likely to turn their purchasing decision toward other brands. The result discloses the traditional argument that the enhancement of consumer repurchase intention by positive brand awareness, image, and relationship is moderated by susceptibility to e-WOM. Specifically, the argument focuses on how the impact of the brand relationship on repurchase intention is weakened in consumers with high susceptibility to e-WOM. The reason is that consumers with high susceptibility to e-WOM tend to consume and absorb information spreading across social media and are likely to divert their repurchase decision to other brands. In addition, consumers with high susceptibility to e-WOM eradicate the role of brand awareness in developing the CBR. This research idea contributes to the theory of CBR and the topic of e-WOM. Electronic WOM can function as an important tool in communicating the differences among brands in the market. However, this has to be used in congruence with the characteristics of consumers. Neglecting this factor can attenuate the effectiveness and efficiency of the CBR strategy. The research study encourages brand and communication marketers to be more attentive in adopting e-WOM as part of marketing communication.
일본, 중국 등 인접 지진다발 국가에서 큰 지진동이 전파되어 오는 경우, Lg파가 최대 진폭을 갖게 되어 Lg파의 감쇠상수(Q-1)는 매우 중요한 의미를 갖게 된다. 지진연구협의회(IRIS)의 자료를 바탕으로 관측점간 경로거리가 긴 자료에 대하여 두관측점법을 이용하여 Lg파의 감쇠상수 값을 도출한 결과, 지진활동도에 상응하는 감쇠값을 얻었다. 일본지역을 잇는, 해양지각을 통과하는 경로는 높은 감쇠값을 보여서 지진활동도 및 지각의 감쇠특성을 잘 나타내고 있으며, 또한 큰 지진이 많았던 중국 상해지역을 잇는 경로도 일본지역 다음으로 높은 감쇠값을 보인다. 반면, 한반도 및 만주지역을 잇는 경로는 지진활동상황과 상응하는 매우 낮은 값을 보였다.
본 연구는 부산시 도로변에 식재되어 있는 생울타리의 종과 잎의 두께에 따른 소음 감소효과를 분석하고자 하였다. 잎의 두께만으로 소음감소 효과를 분석한 결과 은목서, 동백나무, 피라칸사, 홍가시, 돈나무, 남천, 사철나무, 명자나무, 금식나무 순이었다. 수목별 잎의 소음감소효과 분석 결과 대부분의 수종은 잎의 두께가 두꺼운 잎이 얇은 잎보다 소음 감소효과가 더 있는 것으로 조사되었으며, 선형회귀 분석결과 회귀식은 설명력 R2이 0.385로 다음과 같은 회귀식(Y = 7.653 + 26.530 X)을 얻었다. 생울타리의 소음 감소효과를 분석한 결과 동백나무, 남천, 돈나무, 주목, 명자나무 순으로 조사되었고, 가장 소음감소 효과가 높은 수목은 14.70[d8]을 보인 동백나무였으며, 가장 소음 감소치가 낮은 수목은 6.80[dB]을 보인 명자나무로 7.9[dB]의 차이를 보였다.
지각내에서 지진파의 감쇠기구는 매질 고유의 흡수와 에너지의 산란에 의하여 조정된다. 한반도 남부에서 전체 감쇠로부터 산란과 고유의 에너지 손실량을 분리하여 추정했다. 전체감쇠를 고유 Q와 산란 Q로 분리하기 위하여, 단일 후방산란된 coda Q와 다중산란 이론의 관계로부터 유도되는 공식이 사용되었다. Q는 주파수 대역 1.5-20Hz 범위내에서 고유 Q가 산란 Q보다 훨씬 작은 것으로 나타났다. 이것은 한반도 지각내에서 고유 흡수에 의한 에너지 손실이 산란효과에 의한 손실보다 더욱 크다는 것을 의미한다. 1.5-3Hz범위의 고유 Q를 제외하고는 고유 Q와 산란 Q가 지진학적으로 활동적인 다른 지역에 비하여 큰 것으로 나타났다.
The diamondback moth, Plutella xylostella, is reluctant to a baculovirus, Autographa california nucleopolyhedrosis virus (AcNPV) at its oral administration. However, parasitization by an endoparasitoid wasp, Cotesia plutellae, enhances the viral susceptibility. This study analyzed an antiviral activity of P. xylostella in response to the viral infection and determined the parasitic factor inhibiting the antiviral mechanism. For the analysis of antiviral activity of P. xylostella, a recombinant AcNPV expressing enhanced green fluorescence (AcNPV-EGFP) was orally adminstered to lavae of P. xylostella. After 24 h, EGFP expression was observed in the midgut tissue at a confocal-FITC mode. At the same time, a characteristic midgut melanotic response (MMR) was observed in some midgut regions under a phase contrast microscope. Thereafter, the EGFP signal was attenuated, while MMR spread on most midgut region. When the MMR was scored from 0 to 5 by the intensity of melanized cell density, it increased in time- and dose-dependent manners at the viral administration per os. These results suggest that the MMR is an antiviral activity of P. xylostella. This antiviral activity was significantly attenuated by C. plutellae parasitism. The parasitized P. xylostella showed significant decrease in the MMR score compared to nonparasitized larvae when they were orally administered with the same dose of AcNPV. To determine the parasitic factor(s) inhibiting the antiviral activity from the symbiotic polydnavirus of C. plutellae (C. plutellae bracovirus: CpBV), CpBV-IkB, which is a viral homolog of NFkB inhibitor and has been considered as an antiviral factor as in other polydnaviruses, was tested. A recombinant AcNPV expressing CpBV-IkB (AcNPV-IkB) was constructed and administered to P. xylostella larvae. As expected, AcNPV-IkB significantly decreased the antiviral activity measured by the MMR score compared to AcNPV-EGFP treatment. This study suggests that CpBV-IkB plays an antiviral parasitic role in the molecular interactions between P. xylostella and C. plutellae.
정확한 지진재해 예측을 위해서는 대상지역 특성을 고려하여 개발한 강진동 감쇠식을 사용해야 한다. 본 연구에서는 한반도의 감쇠식에 관한 기존연구에서 제시한 여러 감쇠식 및 지진자료를 비교한 후 그 유형이 가장 유사한 관계식을 선별하였다. 지진재해예측을 위한 HAZUS에서는 미국을 서부와 중동부로 구분한 강진동 감쇠식을 지원하는데, 앞서 선별한 국내 감쇠식과 부합하는 미국의 감쇠식 종류를 알아보았다. 이번 연구는 향후 HAZUS를 이용하여 한반도의 지진재해를 예측하고자 할 때, 우리나라의 감쇠현상과 가장 유사한 미국의 강진동 감쇠식을 사용함으로써 신뢰성 높은 재해예측에 효과적인 영향을 줄 것으로 기대한다.