• Proceedings of the KSEEG Conference
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• 1999.04a
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• pp.248-250
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• 1999

• Nuclear Engineering and Technology
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• v.27 no.2
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• pp.176-188
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• 1995

A particle tracking scheme was developed in order to model radionuclide transport through a tortuous flow Held in a rock fracture. The particle tacking method may be used effectively in a heterogeneous flow field such as rock fracture. The parallel plate representation of the single fracture fails to recognize the spatial heterogeneity in the fracture aperture and thus seems inadequate in describing fluid movement through a real fracture. The heterogeneous flow field une modeled by a variable aperture channel model after characterizing aperture distribution by a hydraulic test. To support the validation of radionuclide transport models, a radionuclide migration experiment was performed in a natural fracture of granite. $^3$$H_2O$ and $^{131}$ I are used as tracers. Simulated results were in agreement with experimental result and therefore support the validity of the transport model. Residence time distributions display multipeak curves caused by the fast arrival of solutes traveling along preferential fracture channels and by the much slower arrival of solutes following tortous routes through the fracture. Results from the modelling of the transport of nonsorbing tracer through the fracture show that diffusion into the interconnected pore space in the rock mass has a significant effect on retardation.

• Nuclear Engineering and Technology
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• v.20 no.2
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• pp.120-131
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• 1988

A souce term model describes mathematically the source of radionuclides as they begin slow migration and decay in deep groundwater. Various source term models based on mass-transfer analysis and measurement-based source term models are reviewed. Ganerally, two processes are involved in leaching or dissolution: (1) chemical reactions and (2) mass transfer by diffusion. The chemical reaction controls the dissolution rates only during the early stage of exposure to groundwater. The exterior-field mass transfer may control the long term dissolution rates from the waste solid in a geologic repository. Mass-transfer analyses re3y on detailed and careful application of the governing equations that describe the mechanistic processes of transport of material between and within phases. If used correctly, source term models based on mass-transfer theory are valuable and necessary tools for developing reliable predictions.

• Journal of Korea Water Resources Association
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• v.39 no.5 s.166
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• pp.395-403
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• 2006

This study suggests the use of a simple method, called the unit concentration response function(UCRF) for predicting travel time and dispersion of pollutants with the minimum information of study area instead of numerical models which are widely used In the Previous studies. However, the numerical models require time-consuming, tedious effort, and many data sets. So we derive the UCRF using some components such as travel time, peak concentration, and passage time of pollutant etc. We use the regression equation for the estimations of components which were developed from the investigations of many river basins in USA. This study used the regression equaiton for the UCRF to the accident of Dichloromethane leak into the Nakdong River occurred on June 30, 1994 and applied the UCRF for the predictions of travel time and dispersion. The predictions were compared with the results by QUAL2E model. The results by the regression equaiton and QUAL2E model had a good agreement between observed and simulated concentrations. Therefore, the regression equation for the UCRF which can simply estimate travel time and concentration of pollutants showed its applicability for the ungaged basin.

• Journal of The Geomorphological Association of Korea
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• v.18 no.2
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• pp.25-37
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• 2011

The purpose of this study is to investigate the history of phenomenon(hereinafter called mass-movement) of movement of inorganic material originated from hillslope by denudation of hillslope surrounding the watershed during Holocen period in the Chaamgol watershed(hereinafter called study watershed) uppermost stream of Maegokcheon Cheonan-si Chungnam. To do this, for the object of allivium distributed in valley bottom of study watershed, facies analysis, radiocarbon dating and grain size analysis were conducted and geomorphological analysis on study watershed conducted together. The result is like the following. It was confirmed that over around 9,100yrBP~to recent due to a few times of mass-movement occurred in time scale of 10²~10³ years, a large quantity of inorganic material is mixed in organic material layer originated from wetland formed in valley bottom of study watershed or exists between organic material layers. And it was found that in study watershed, mass-movement occurred in instable period of hillslope after the Early Holocen existed at least 8 times (M1 period~M8 period) and wetland environment formed in the stable period of hill slope existed total 4 times (W1 period~W4 period). This analysis result will be used in the future as basic material in research of Holocen climate change of Maegokcheon watershed and in restoration of denudation process of hillslope following this.

• Proceedings of the Korea Air Pollution Research Association Conference
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• 2003.05b
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• pp.181-183
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• 2003

대기를 통해 물질과 에너지가 순환한다는 것은 이미 잘 알려진 지구화학적 과정이다. 즉, 대기를 통해 자연적 혹은 인위적인 원인으로부터 배출되는 여러 가지 물질들이 인근지역이나 때로는 광범위한 지역으로 이동되고, 태양으로부터 오는 빛을 가스나 입자상 물질들이 흡수, 산란시키거나, 일부 미세한 입자상 물질들은 구름의 응결핵으로 작용함으로써 지구의 에너지 균형에도 관여한다. 에너지나 물질의 순환이라는 측면에 더하여 가스나 입자상 물질들은 대기 중에 머무는 동안 인체나 주변 생태계에도 영향을 미치게 된다. (중략)

• Proceedings of the Korea Air Pollution Research Association Conference
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• 2001.11a
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• pp.281-282
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• 2001

동북아 지역 특히 중국대륙의 경제발전에 따른 에너지 사용량 증가는 다량의 대기오염물질을 방출하고 있다. 한반도에 도달하는 황사현상에서 알 수 있듯이 대기오염물질은 장거리로 이동되어 인접국가의 환경 및 기후변화에 영향을 미친다. 대표적인 장거리이동 대기오염물질인 미세 입자를 포함하는 에어로졸의 물리적ㆍ화학적 성분 및 이동 경로파악은 매우 중요하다. 라이다를 사용하면 지상에서 60km까지의 대기에어로졸 연직분포의 실시간 측정이 가능하다. 본 연구는 ACE-Asia 프로그램 참여를 위해 다중채널 라이다 시스템을 제주도 고산 관측소에 설치하여 2001년 3월부터 운영 중에 있다. (중략)

• Membrane Journal
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• v.3 no.2
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• pp.41-50
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• 1993

최근 산업의 고도화 및 다변화호 인한 고순도, 고품위의 제품이 요구됨에 따라 분리공정은 대단히 중요한 공정으로 인정되고 있어 화학공업, 식품공업, 약품공업 등의 공업분야뿐만 아니라 의료, 생화학 및 환경분야에 이르기까지 중요한 연구과제가 되고 있다. 분리공정은 열역학적 상평형 원리에 기인한 분리방법과 물질이동 즉, 이동속도 원리에 기인한 분리방법과 물질이도 즉, 이동속도 원리에 기인한 분리방법으로 구별할 수 있는데 이는 혼합물의 동적 성질, 특히 확산성이나 침투속도가 서로 다른 것을 이용한 것이다. 막을 이용한 분리공정은 막의형태, 조작원리 및 적용분야에 다라 정밀여과, 한외여과, 역삼투, 기체분리 및 투과증발 등으로 분류되며 이는 고분자막에 존재하는 Pore의 크기, 막의 균일성, 대칭성 및 막의 하전형태에 따라 구분한다.

• The Magazine of the Society of Air-Conditioning and Refrigerating Engineers of Korea
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• v.15 no.1
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• pp.67-81
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• 1986

냉각탑, 밀폐식냉각탑, 증발식응축기는 증발식냉각기의 분류에 속한다. 열은 증발에 의해 제거되어, 중력에 따라 유하하는 수 film으로 부터 충전물, 또는 밀폐식냉각탑, 증발식응축기의 관군상을 흐르는 공기에 전달된다. 따라서 공기측에서의 열과 물질의 이동프로세스는 기본적으로는 동일하다. 각 형식에서의 차이는 냉각되는 유체측에서의 열저항의 형태가 다르다는 점이다. 이 무저항은 냉각탑에서는 아주 작으나 다른 두 경우에 있어서는 계산상 고려하지 않으면 안된다. 이 논문은 이들 세 형식에 대해 통일된 이론을 적용할 수 있다는 것을 보여주기 위한 것이다. 그러므로 열 및 물질이동저항의 계산을 위한 식에 대해 논의하고 있다. 또한 복잡성을 피하기 위해, Merkel의 근사식을 공기측의 열 및 물질이동계산에 이용하였다.

• Journal of Korean Society of Environmental Engineers
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• v.36 no.12
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• pp.821-827
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• 2014

The 4major river project has caused changes in flow and water quality patterns in major rivers in Korea including the Nakdong River where several toxicant release accidents have had occurred. Three dimensional hydrodynamic model, the Environmental Fluid Dynamics Code (EFDC), was applied to evaluate the effect of geomorphological change of the river on the advection and dispersion patterns of a conservative toxic pollutant. A hypothetical scenario was developed using historical data by assuming a toxic release from an upstream location. If there is a toxic release at the Gumi Industrial Complex, the toxic material would be detected after 2.22 and 9.83 days at Chilgok and Gangjung weir, respectively, in the new river system. It was estimated that they took at least 12 times longer than those with the river conditions before the project. Effect of relocation of intake towers for Daegu Metro City to upstream of Gumi City was also evaluated using the developed modeling system. It was observed that hydraulic residence time would be increased due to decreased flow rate and thus due to lowered water level. However, peak concentration differences were found to be about 2% lower in both places due to increased dispersion effect after the relocation.