• 대한기계학회:학술대회논문집
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• 대한기계학회 2000년도 춘계학술대회논문집B
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• pp.841-846
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• 2000

The compression wave produced when a high-speed train enters a tunnel propagates along the tunnel ahead of the train. The micro pressure wave related to He compression wave is a special physics Phenomena created by high-speed train-tunnel interfaces. On this work, the method for reducing the micro pressure wave is to delay the gradient of the compression wave by using aerodynamic structures. The objective of this paper is to determine the optimum angle of the slanted portal using the moving model rig. According to the results of the present study, the maximum value of micro pressure wave is reduced by 19.2% fer the $45^{\circ}$ slanted portal installed at the entrance of the tunnel and reduced by 41.9% far the $45^{\circ}$ slanted portals at the entrance and exit of the tunnel. Also it is reduced by 34.6% for the $30^{\circ}$ slanted portals installed at the entrance and exit of the tunnel.

• 대한기계학회:학술대회논문집
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• 대한기계학회 2000년도 춘계학술대회논문집B
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• pp.619-624
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• 2000

The purpose of present study is to investigate for reducing micro pressure waves generated according to train speeds $(240km/h{\sim}380km/h)$ through tunnels with countermeasures as followings; the hood configuration in tunnel entrance. We developed hoods for tunnel of 0.5 km length in the condition of tunnel cross-section area of $107m^2$ on the slab track. According to the results the maximum micro-pressure wave is reduced by 41.2% for the slit hood installed at the entrance of the tunnel and reduced by 47.7% for the slit hood installed at the entrance of the tunnel and the $45^{\circ}$ slanted portal at the exit of the tunnel

• 한국터널지하공간학회 논문집
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• 제2권3호
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• pp.3-11
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• 2000

본 연구의 목적은 고속철도 터널 입구에 슬릿 커버 후드를 적용하여, 고속열차 터널 진입시 터널 출구 쪽에서 방사되는 미기압파를 저감시키는데 있다. 경부고속철도 $107m^2$의 단면적을 갖는 슬라브 궤도 0.5 km 터널에 대하여 슬릿 커버 후드라는 구조물 대책을 마련하였다. 개발시험 결과는 터널 입구에만 후드를 설치했을 경우 미기압파가 최대 41.2 %가 저감되었으며, 터널 입구에 후드를 설치하고 출구에 $45^{\circ}$ 경사갱구를 설치했을 경우는 47.7 %가 저감되었다.

• 대한토목학회논문집
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• 제42권3호
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• pp.409-415
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• 2022

국내 연결로 가속차로 길이는 13 PS/ton 마력의 화물차를 기준으로 산정되어 연결로를 주행하는 대부분의 차량 성능에 비해 과다하게 산출되어있다. 이로 인해, 대부분의 운전자들은 고속도로로 진입하기 위해 가속차로 전 구간에서 본선으로의 무분별한 진입 경향으로 본선 교통흐름에 영향을 미쳐 이에 대한 개선이 필요하다. 양지, 수석, 용인, 오산 각각IC의 연결로 유입부에서 차량의 속도와 진입률 및 차량별 교통량을 조사하여 VISSIM 시뮬레이션 분석을 통해 교통흐름의 개선정도를 검토하였다. 조사결과 곡선부의 단순화와 본선 교통흐름의 인지가능 시점인 노즈부에서 부터 전체차량의 74.0 %가 연결로 규정속도 이상으로 주행하였고, 가속차로 길이대비 0.8 l 지점까지 88.6 %의 차량이 본선으로 진입하였다. 실측교통량을 기반으로 연결로 유입부를 0.265 l 지점까지 의도적으로 본선으로의 교통진입을 제한하여 시뮬레이션한 결과 본선과 연결로의 흐름을 평균속도 60.1 km/h에서 68.5 km/h까지 개선할 수 있었다.

• 해양환경안전학회지
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• 제21권3호
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• pp.274-282
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• 2015

This research is the result on calculating the logical speed limit through certain process which some elements must be considered on selecting the speed limit of harbour and waterway. The suggested speed limit select model on this research is processed from 1~6 steps by forming a professional group of experts. Each step has its information which 1st step(water division), 2nd step(selecting the model vessel and vessel applied with speed limit.), 3rd step(selecting the maximum and minimum speed range on each section), 4th step(evaluation on the safeness of traffic), 5th step(suggesting the appropriate speed limit), 6th step(execution and evaluation.). The appropriate speed limit was decided on consideration of the safety of maritime traffic on the range of the maximum speed and the minimum speed. This model was used to derive the appropriate speed limit on the harbour water and Busan harbour entrance waterway. As the result, the harbour water was calculated to be 6.9 knots, the appropriate speed limit of Busan entrance harbour was 9.3 knots. The present calculation of the speed limit on the approaching channel area is 10 knots, inner harbour area is 7 knots, which are similar to the result of the speed limit. This research is the first research on selecting the speed limit model and has its limits on finding the perfect speed limit result. More detailed standards on the safeness of traffic evaluation must be found and additional study is necessary on discriminating consideration of the elements. This research has its value which it provides instances of aboard cases on guidelines of selecting the speed limit.

• 연구논문집
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• 통권27호
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• pp.15-34
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• 1997

The 3-dimensional unsteady compressible flows around the high speed train have been simulated for the train entering a tunnel and for passing another train. The simulation method employs the implicit approximation-factorization finite difference algorithm for the inviscid Euler equations in general curvilinear coordinates. A moving grid scheme is applied in order to resolve the train movement relative to the tunnel and the other train. The velo-city and pressure fields and pressure drag are calculated to study the effects of tunnel and the other train. The side directional force which is time dependent is also computed for the passing train. Pressure distribution shows that the compression wave is generated in front of the train noise just after the tunnel entrance and proceeds along the inside of tunnel.

• 한국도시철도학회논문집
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• 제6권4호
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• pp.309-317
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• 2018

Sudden pressure changes caused by the high-speed train entering the entrance of the tunnel are propagated into the tunnel and spread out around the tunnel in the form of a micro pressure wave at the exit of the tunnel. This phenomenon can cause noise and vibration around the tunnel, causing damage to the surroundings. Analysis of this phenomenon is very difficult, but the development of analytical technology has revealed more phenomena than in the past. In this study, we propose this method of analysis and compare it with the experimental data to show the data with higher reliability.

• 수산해양기술연구
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• 제55권1호
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• pp.29-38
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• 2019

In order to investigate the behavioral characteristics of Pacific cod (Gadus macrocephalus) released at the entrance of Jinhae Bay, Korea, the direction and range of movement, swimming speed of the fish were measured with an acoustic telemetry techniques in winter, 2015. Three wild Pacific codes WC1 to WC3 (total length 66.0, 75.0, 76.0 cm; body weight 2.84, 2.79, 3.47 kg, respectively) were tagged with the acoustic transmitter. WC1 tagged with an acoustic transmitter internally by surgical method, WC2 and WC3, externally with the acoustic data logger and a micro data logger for recording audible sound waves including timer release unit. The movement routes of the tagged fish were measured more than five hours using VR100 receiver and a directional hydrophone. The directionality of the fish movement was tested by Rayleigh's z-Test, the statistical analysis, and a statistical program SPSS. Three tagged fishes were individually released on the sea surface around the entrance to the Jinhae Bay on 10 to 24 January 2015. WC1 moved about 13.32 km with average swimming speed of 0.63 m/s for six hours. The average swimming depth and water depth of the seabed on the route of WC1 were 7.2 and 32.9 m, respectively. The movement range of WC2 and WC3 were 7.95 and 11.06 km, approximately, with average swimming speed of 0.44 and 0.58 m/s for 5.1 and 5.3 hours, respectively. The average swimming depth of WC2 and WC3 were 18.7 and 5.0 m, and the water depth on the route, 34.4 and 29.8 m, respectively. Three fishes WC1 to WC3 were shown significant directionality in the movement (p < 0.05). Movement mean angles of WC1 to WC3 were 77.7, 76.3 and $88.1^{\circ}$, respectively. There was no significant correlation between the movement direction of fish (WC1 and WC2) and the tidal currents during the experimental period (p >= 0.05). Consequently, three tagged fishes were commonly moved toward outside of the entrance and headed for eastward of the Korean Peninsula, approximately, after release. It may estimate positively that the tidal current speed may affect to the swimming speed of the Pacific cod during the spring tide than the neap tide.

• 한국터널지하공간학회 논문집
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• 제2권2호
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• pp.3-10
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• 2000

고속열차가 터널에 진입할 때 압축파가 터널 내부로 전파된다. 이 압축파와 연관된 터널출구 미기압파는 고속철도 열차-터널 인터페이스에서 발생되는 독특한 물리현상이다. 미기압파를 저감시키는 방법중에 터널 입 출구부에 공기역학적인 구조물을 사용하여 압축파의 시간에 대한 구배를 지연시키는 방법이 있다. 본 연구의 목적은 터널주행 열차모형 시험기로 최적의 경사갱구를 개발하는 것이다. 경사갱구의 경사각도에 따른 시험을 통한 시험결과에서 터널 입구부에 $45^{\circ}$ 경사갱구를 적용했을 때 미기압파 최대 피크값이 19.2 %가 저감되었다. 터널 입 출입구 양쪽에 $45^{\circ}$ 경사갱구를 적용할 경우는 41.2% 저감되었다. 또한 터널 입 출입구 양쪽에 $30^{\circ}$ 경사갱구를 적용할 경우는 미기압파 최대 피크값이 34.6% 저감되었다.

• 대한토목학회논문집
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• 제30권5D호
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• pp.467-476
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• 2010

일반적으로 통행지체란 어느 도로구간을 정상속도로 이동하는 차량의 평균주행시간과 차량 정체로 인해 감속되는 차량의 평균통행시간 사이의 시간차이를 의미하고, 도로의 접속지점이나 병목지점을 통과하는데 발생하는 지체시간으로 사용되고 있다. 외국의 도시고속도로는 제한속도 80Km/h 이상의 고속화도로로서 흔히 출퇴근시간대에 유출입연결로의 접속영향권역내에서 출퇴근통행수요의 집중으로 교통정체를 겪고 있으나, 국내 도시고속도로는 제한속도 80Km/h이하의 고속화도로로서 출근시간대에 관계없이 유출입연결로 접속영향권역내 뿐만 아니라 본선구간에서도 극심한 교통체증을 겪고 있다. 따라서 본 연구의 목적은 고속도로와는 다른 지리적 특성을 가진 도시고속도로의 유출입연결로 접속영향권역내에서 통행지체를 추정할 수 있는 모델을 개발하고 그 타당성을 검토하는데 있다.