• 대한안전경영과학회지
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• 제11권3호
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• pp.217-226
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• 2009

The combustion reaction of polyvinylchloride(PVC) was investigated using a thermogravimetric technique under an air atmosphere condition at several heating rates from 10 to $50^{\circ}C$/min. To obtain information on the kinetic parameters, the dynamic thermogravimetric analysis curve and its derivative were analyzed by a variety of analytical methods such as Kissinger, Friedman, Chatterjee-Conrad, Ozawa and Coats-Redfern methods. The combustion reaction of PVC proceeded in two steps; the first step was caused by the dehydrochlorination process in PVC, and the second step by the combustion of polyene. The comparative works for the kinetic results obtained from various methods should be performed to determine the kinetic parameters, because there are tremendous differences in the calculated kinetic parameters depending upon the mathematical method taken in the analysis.

• 한국정보처리학회:학술대회논문집
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• 한국정보처리학회 2017년도 춘계학술발표대회
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• pp.885-888
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• 2017

In this paper, a new strategy for estimating building temperature based on the modified resistance capacitance (R - C) network thermal dynamic model is proposed. The proposed method gives accurate indoor temperature estimation using minimum variance finite impulse response filter. Our study is clarified by the experimental validation of the proposed indoor temperature estimation method. This experiment scenario environment is composed of a demand response (DR) server and home energy management system (HEMS) in a test bed.

• 대한전기학회:학술대회논문집
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• 대한전기학회 1999년도 하계학술대회 논문집 B
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• pp.883-886
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• 1999

Recently, with the development of computer technology, field instrument and control system using in industrial fields have changed from mechanical, electrical systems to digital electronic systems. Distributed control system(DCS), control functions are dispersed for grading up reliability and informations are combined fur effective management has been developed and sold. As this system has been enlarged and complicated, it is difficult to testing the system and very important to verifing functions systematically. In this report, function test procedure which is performed spontaneously by domestic or foreign DCS manufacturer was searched and analyzed. As its results, the test procedure of DCS functions were proposed. The proposed procedure was applied to DCS being used for a thermal power plant. The function test for DCS requires continuous and dynamic input/output signals, therefore we proposed the method to compose virtual plant which simulate the DCS functions with. And we suggested the test procedure of each DCS function.

• 한국물환경학회지
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• 제28권6호
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• pp.866-881
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• 2012

Han River is a complex water system consisting of many lakes. The water quality of Lake Paldang is significantly affected by incoming flows, which are the South and North branches of the Han River, and the Kyungan Stream. In order to manage the water quality of the Lake Paldang, we should consider the entire water body where the incoming flows are included. The objectives of this study are to develop an integrated river and lake modeling system for Han River system using a multidimensional dynamic model and evaluate the model's performance against field measurement data. The integrated model was calibrated and verified using field measurement data obtained in 2007 and 2008. The model showed satisfactory performance in predicting temporal variations of water level, flow rate and temperature. The Root Mean Square Error (RMSE) for water temperature simulation were $0.88{\sim}2.13^{\circ}C$ (calibration period) and $1.05{\sim}2.00^{\circ}C$ (verification period) respectively. And Nash-Sutcliffe Efficiency (NSE) for water temperature simulation were 1089~0.98 (calibration period) and 0.90~0.98 (verification period). Utilizing the validated model, we analyzed the spatial and temporal distributions of temperature within Han River system. The variations of temperature along the river reaches and vertical thermal profiles for each lakes were effectively simulated with developed model. The suggested modeling system can be effectively used for integrated water quality management of water system consisting of many rivers and lakes.

• Nuclear Engineering and Technology
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• 제51권3호
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• pp.702-708
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• 2019

This paper deals with break size estimation of loss of coolant accidents (LOCA) using a nonlinear autoregressive with exogenous inputs (NARX) neural network. Previous studies used static approaches, requiring time-integrated parameters and independent firing algorithms. NARX neural network is able to directly deal with time-dependent signals for dynamic estimation of break sizes in real-time. The case studied is a LOCA in the primary system of Bushehr nuclear power plant (NPP). In this study, number of hidden layers, neurons, feedbacks, inputs, and training duration of transients are selected by performing parametric studies to determine the network architecture with minimum error. The developed NARX neural network is trained by error back propagation algorithm with different break sizes, covering 5% -100% of main coolant pipeline area. This database of LOCA scenarios is developed using RELAP5 thermal-hydraulic code. The results are satisfactory and indicate feasibility of implementing NARX neural network for break size estimation in NPPs. It is able to find a general solution for break size estimation problem in real-time, using a limited number of training data sets. This study has been performed in the framework of a research project, aiming to develop an appropriate accident management support tool for Bushehr NPP.

• 대한기계학회논문집B
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• 제36권12호
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• pp.1185-1192
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• 2012

차량용 연료전지는 내연기관보다 운전 온도가 낮아 냉각수의 온도를 낮게 관리해야 하며, 이러한 냉각수 온도는 대기와의 온도차가 내연기관보다 작아 고성능 방열판 및 열관리계가 요구된다. 이러한 차량용 연료전지 열 관리계는 특히 연료전지 운전 온도 및 스택 내 온도분포를 결정하는 중요한 구성품이다. 본 연구에서는 차량용 연료전지 열 관리계 모델을 Matlab/$Simulink^{(R)}$ 환경 하에 개발하였으며, 기본 설계에 적용이 가능하도록 방열판 상세 모델을 개발하고 열 관리계는 팬, 모터, 방열판 그리고 냉각수 펌프로 구성하였다. 팬과 펌프는 경험식을 이용해 모델을 개발하였으며 모터 동특성을 고려하였다. 두 구성품은 연료전지의 입구와 출구 온도를 추출해 정해진 지령을 수령하도록 제어 하였다. 본 연구에는 연료전지 차량에 적합한 방열기 설계를 위해 방열기 특성을 확인하고, 이를 연료전지 시스템과 통합운전하면서, 연료전지 운전제어에 적절한 지 확인하였다.

• 대한후두음성언어의학회지
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• 제12권1호
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• pp.11-16
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• 2001

Background and Objectives : A burn injury to the glottis differs from a burn injury to the trachea, bronchi, and lung parenchyma, in that thermal injury does not occur to any significant degree below the level of the larynx, due to the effective cooling of air by the upper airway and to reflex closure of the vocal cords from a blast of hot air. Therefore, the laryngeal inhalation injury give rise to airway problem and voice change. The objectives of this study is to assess management of laryngeal inhalation injury and voice change after management. Materials and Methods : Voice choses and laryngeal injuries of eight laryngeal inhalation patients were analyzed through questionnaire, voice dynamic laboratory, and laryngeal stroboscopy. Operative management was performed to five patients for airway patiency and vocal cord movement on laryngeal pathology ind voice therapy was performed to all patients. One-year after, voice changes and laryngeal injuries were reanalyzed with same methods. Results : Vocal breathiness, decreased voice intensity, reduced voice range, and easy fatigability were major complaints of laryngeal inhalation patients. Glottic stenosis were developed to five of eight patients, and vocal cord atrophy, bowing were developed to others. Vocal cord mucosal waves were significantly decreased in all patients. Jitter(%), Shimmer(dB) were increased and Maximal phonation time(MPT) was decreased. One-year after, subjective voice changes and objective voice parameters were improved. And vocal cord mucosal waves were recovered in all patients. Conclusions : Subjective voice quality and objective voice parameters were improved after operative management for laryngeal pathology and voice therapy. And we observed recovery of vocal fold mucosal waves by laryngeal stroboscopy. We think that early preventable tracheotomy is necessary to reduce the laryngeal contact injury in laryngeal inhalation patients.

• 한국인터넷방송통신학회논문지
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• 제8권5호
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• pp.137-147
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• 2008

최근에 및 온도관리는 현대 컴퓨터 시스템의 주요 관심사로 대두되고 있다. 에너지의 효율성은 모바일과 임베디드 시스템의 중요한 특성이다. 최근의 고성능 모바일 프로세서의 에너지 요구 증가와 짧은 배터리 수명, 발열로 인한 에너지 손실 등으로 인한 전력소모 때문에 전력과 에너지 소모를 줄이기 위한 많은 연구가 진행되고 있다. 본 논문은 성능 카운터를 이용하여 Intel XScale 마이크로아키텍춰 기반인 Marvell PXA320 프로세서에 대한 주파수/전압 변경과 성능 모니터링을 구현하였다. 또한, Windows CE 운영체제 환경의 응용프로그램에 대하여 DVFS 구성에 따른 각각의 벤치마크로 측정하고, 성능 이벤트에 따른 성능 카운터 값을 측정하고, 성능 카운터 값을 CPU의 전압과 전류와 동기화된 데이터를 랩뷰로 사용하여 측정하였다. 또한, 성능 모니터링으로 측정한 데이터를 기반으로 전력관리 기법을 위한 스케쥴링이 가능하고, 측정한 전압과 전류로 실제 전력 소모량 파악이 가능하였다.

• Tribology and Lubricants
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• 제33권1호
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• pp.9-14
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• 2017

This paper presents a rotordynamic analysis and the operation of a power turbine applied to a 250 kW super-critical $CO_2$ cycle. The power turbine consists of a turbine wheel and a shaft supported by two fluid film bearings. We use a tilting pad bearing for the power turbine owing to the high speed operation, and employ copper backing pads to improve the thermal management of the bearing. We conduct a rotordynamic analysis based on the design parameters of the power turbine. The dynamic coefficients of the tilting pad bearings were calculated based on the iso-thermal lubrication theory and turbine wheel was modeled as equivalent inertia. The predicted Cambell diagram showed that there are two critical speeds, namely the conical and bending critical speeds under the rated speed. However, the unbalance response prediction showed that vibration levels are controlled within 10 mm for all speed ranges owing to the high damping ratio of the modes. Additionally, the predicted logarithmic decrement indicates that there is no unstable mode. The power turbine uses compressed air at a temperature of $250^{\circ}C$ in its operation, and we monitor the shaft vibration and temperature of the lubricant during the test. In the steady state, we record a temperature rise of $40^{\circ}C$ between the inlet and outlet lubricant and the measured shaft vibration shows good agreement with the prediction.

• 한국컴퓨터정보학회논문지
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• 제19권4호
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• pp.1-8
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• 2014

멀티코어 프로세서는 여러 개의 코어가 하나의 칩에 배치됨에 따라 전력 밀도가 상승하여 높은 발열이 발생한다. 이러한 발열 문제를 해결하기 위해서 최근까지 다양한 연구가 진행되고 있다. 마이크로프로세서의 온도 감소를 위한 기법으로는 기계적 냉각 기법, 동적 온도 관리 기법 등이 있지만 이러한 기법들은 추가적인 냉각 비용이 발생하거나 성능의 저하가 발생한다. 플로어플랜기법은 추가적인 냉각비용이 발생하지 않으며, 성능저하가 거의 발생하지 않는다는 장점을 지닌다. 본 논문에서는 멀티코어 프로세서의 특정 구성요소의 발열 문제를 해결하기 위해 코어 내부 구성요소와 L2 캐쉬의 다양한 플로어플랜을 활용하고자 한다. 실험 결과, 코어의 뜨거운 구성요소를 L2 캐쉬와 인접하게 배치할 경우 칩의 온도 감소에 매우 효과적임을 알 수 있다. 코어를 캐쉬 상단-가운데 배치하는 기본 플로어플랜과 비교하여, 코어를 중앙에 배치하고 뜨거운 구성요소를 L2 캐쉬와 인접하게 배치하는 플로어플랜의 경우에는 $8.04^{\circ}C$, 코어를 외곽에 배치하고 뜨거운 구성요소를 L2 캐쉬와 인접하게 배치하는 플로어플랜의 경우에는 $8.05^{\circ}C$의 최고온도 감소 효과를 보임을 알 수 있다.