• Title/Summary/Keyword: 해빈 변화

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Seasonal Variations of Iho and Hamdeok Beach Sediments in the Jeju Island, Korea (제주도 이호.함덕 해빈퇴적물의 계절적 변화에 관한 연구)

  • Youn, Jeung-Su;Park, Yong-Seung;Kim, Tae-Joung;Park, Sang-Woon
    • Economic and Environmental Geology
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    • v.41 no.2
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    • pp.243-252
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    • 2008
  • The Iho and Hamdeok beaches, the major coastal beaches in Jeju Island, have been studied through size analysis and using an experimental extension pole and sediment trap in beach profile, in order to understand their textural characteristics, migration patterns, and seasonal change in beach geometry. The Iho beach is composed of coarse and medium sands, 590 m in total length. The foreshore slope is 12.3$^{\circ}$ in summer and 10.8$^{\circ}$ in winter, which shows more steeper in summer. The Hamdeok beach consisting mostly of shell fragments is 950 m long, $5.7{\sim}7.4^{\circ}$ steep and 97.4${\sim}$114.5 m wide, respectively. The suspended load drift concentrations in the studied beaches showed 4.5 mg/l during the period of summer and 33.2 mg/l in winter, and those of fine-grained sediments are derived mostly from the marine of northeastward direction. The typical beach transformation of the Iho beach is resulting from the construction of jetties in the west side that built up the sand inside the jetties, whereas the erosion is occurring on the east side of beach. The center and berm sides of the sand in the Hamdeok beach drift into the dune side during the period of the stormy winter season.

Beach Deformation Caused by Typhoon Chaba in 2016 Along the Manseongri Coast Related Coastal Improvement Project (연안정비사업이 수행된 만성리 해수욕장에서 2016년 태풍 차바에 의한 해빈변화)

  • Park, Il Heum;Park, Wan-Gyu;Jeong, Seung Myong;Kang, Tae-Soon
    • Journal of the Korean Society of Marine Environment & Safety
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    • v.23 no.6
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    • pp.710-718
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    • 2017
  • After Typhoon Chaba (No.18, 2016) collided with Manseongri Beach, a coastal improvement project was carried out since strong external forces such as waves, storm surges and wave-induced currents were observed to cause beach deformation. The shoreline, beach area and beach volume were periodically surveyed. On the basis of this field data, the beach deformation that occurred at Manseongri Beach has been formally described. Over three months after beach nourishment work began, the beaches were gradually stabilized in terms of natural external forces. However, this stabilization was interrupted by Typhoon Chaba. After two months of typhoon weather, the beach returned to a stable state and no changes were observed until one year after the beach recovery work. Just after the typhoon hit, the shoreline receded from the northern side, where no reduction of external forces occurred, while the rear beach area submerged by breakwater advanced. Also, the beach volume decreased by $3,395m^3$ after the typhoon, due to erosion that occurred on the northern beach, with deposition taking place on the southern backshore area. Therefore, it has been concluded that the coastal improvement project undertaken at Manseongri Beach has significantly contributed to conservation in areas of wave-dominant sediment transport.

Variation of the textural parameters of surface sediments between spring and fall season on the Jinu-do beach, Nakdong River estuary (낙동강 하구역 진우도 해빈의 춘추계 표층퇴적물 조직변수의 변화)

  • Khim, Boo-Keun;Kim, Baeck-Oon;Lee, Sang-Ryong
    • Journal of Korean Society of Coastal and Ocean Engineers
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    • v.21 no.6
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    • pp.444-452
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    • 2009
  • Textural parameters were calculated from the surface sediments collected from Jinu-do beach in Nov. 2005 and May 2006. In Nov. 2005 and May, 2006, the grain size distribution of surface sediments shows that the mode of $3.0\phi$(i.e., 0.125 mm) dominated the west beach of Jinu-do, but in the east beach the mode of $3.0\phi$(i.e., 0.125 mm) decreased and the mode of $2.5\phi$(i.e., 0.177 mm) was apparently distinct, resulting in the more coarsening trend. Mean grain size of surface sediments also indicates little difference in the west beach between two investigations, but the increasing difference between mean grain sizes in the east beach, showing more coarsening pattern. Such seasonal pattern corresponds to the positive skewness in the east beach in May, 2006. As a result, after the winter in 2005, the surface sediments in the west beach of Jinu-do experienced a little variation, whereas the apparent coarsening of surface sediments occurred in the east beach by removal of $3.0\phi$(i.e., 0.125 mm) fine-grained sand particles. The observed seasonal change may be attributed to the different hydrographic condition and sediment delivery/removal on the surface sediments between the west beach and the east beach of Jinu-do through the increased precipitation and more freshwater discharge from the Nakdong River during the summer and the intensified wave and tide during the winter in the Nakdong River estuary.

Sediments Distribution and Micro-topographical Landscape Changes of a Composite Mixed Beach - Padori Beach in Taean National Park - (혼합해빈의 퇴적물 분포 특성과 미지형 경관변화 - 태안해안국립공원 파도리 해빈을 중심으로 -)

  • LEE, Won Young;SUNG, Hyo Hyun
    • Journal of The Geomorphological Association of Korea
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    • v.20 no.4
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    • pp.1-13
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    • 2013
  • Padori beach is one of the representative composite mixed beach in Korea and shows divert geomorphic landscape change. It belongs to the Taean National Park. The purpose of this study is to clarify movement mechanism of sediments from sediment distribution of Padori beach associated with morphology. In addition, it is to explain morphological landscape change under different wave and tide condition in the composite mixed beach consisting of a dissipative low tide terrace and a reflective beach face with a high tide range of 5 to 7m. The results of this study are: First, the mean grain size of sediments becomes smaller from the south of the beach, where there is a wide wave-cut platform, to the north because gravels are supplied from the wave-cut platform as well as sea-cliff in the south of the beach. A sedimentation pattern of the sandy gravel on the beach face and gravel on the berm, and gradation phenomena of grain size on cross-shore and alongshore direction in the beach can be explained with a pattern of sediment movement, overpassing, in the composite mixed beach. Second, micro-topography on beach face and berm were changed depending on effects of wave height and tide. As a result, in low-wave energy environments, a berm is developed in large size, and beach cusps are formed on the upper beach face, while in high-wave energy environments, a berm is built up in relatively small size, and mixture of sediments occur on the upper beach face.

Seasonal Variations of Hamo and Hyeopjae Beach Sediments in the Western Part of Jeju Island (제주도 서부 하모와 협재 해빈 퇴적물의 계절 변화)

  • Youn, Jeung-Su;Kim, Tae-Joung
    • Journal of the Korean earth science society
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    • v.32 no.3
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    • pp.265-275
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    • 2011
  • The Hamo and Hyeopjae beaches in the western part of Jeju Island were studied in terms of seasonal variations of surface sediment and beach profile. Seasonal drift direction of the beach sands also was investigated. The Hamo beach of $7.3^{\circ}-10.8^{\circ}$ steep is composed of medium sand containing volcanic clasts and shell fragments. The Hyeopjae beach of $2.8^{\circ}-6.5^{\circ}$ steep is composed of coarse shelly sand. Hamo beach deformation is probably caused by the jetties constructed in the western part of the beach. In the Hyeopjae beach, surface sands were drifted into the dune side by the northwestern stormy wind during winter season.

The short-term morphological changes of the beach and dune using by terrestrial LIDAR (지상 라이다를 이용한 단기간 해빈과 해안사구의 지형변화 연구)

  • Shin, Dae Seob;Seo, Jong Cheol
    • Journal of The Geomorphological Association of Korea
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    • v.18 no.4
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    • pp.283-296
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    • 2011
  • The aim of this study is to analyze the short-term changes of beach and dune morphology at Hwajin beach, Korea using by terrestrial LIDAR. Based on ArcInfo as point cloud obtained through precise analyzing studying area twice (1st : Sep 1. 2010, 2nd : Oct 2nd. 2010) by terrestrial LIDAR, alteration of beach and dune was analyzed at DEM, of which cell size is about 10cm. Consequently, during the studying period, coastlines at studying area moved backward and reduced the area of coastal zone. In a section change, the north beach moved backward with more eroded beach face and the middle section of south beach moved forward with more deposited beach face. Considering all the section changes of beach at studying area, beach section during the 1st measurement period can be defined as a summer profile, and it can be explained that the temporary storm profile was formed by the strong wave created during studying period. As a result of analyzing the alteration of beach area by terrestrial LIDAR, alteration of narrow area was able to be analyzed in detail by class of 'centimeter' and the time was able to be shortened.

Study on Beach Face Variation Based on Long-term Measurement Data Analysis in Byeonsan Beach (장기관측자료 분석을 통한 변산해수욕장의 해빈변화 고찰)

  • Eo Dae-su;Choi Kang-won;Kang Sang-ki
    • KCID journal
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    • v.6 no.1
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    • pp.39-47
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    • 1999
  • One of the important features of a beach face is the dynamic response to the ever-changing waves and tides imposed from the body of water. Furthermore, human activities at or near the beach can enforce the characteristic changes on tidal motions and wave

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인공해빈 및 자연해빈상에서의 불규칙파의 변형에 관한 현지관측

  • 권정곤;양윤모
    • Proceedings of the Korean Society of Coastal and Ocean Engineers Conference
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    • 1993.07a
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    • pp.42-44
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    • 1993
  • 최근, 불규칙파를 조파시킴으로서 발생하는 실험실 스케일의 해빈변형에 대해서 그 정선변화 뿐만아니라 수심변화까지 포함한 수치 simulation모델이 개발되었다. 그러나 현지파랑은 파고, 주기가 불규칙하고, 또한 입사파향도 일정하지 않기때문에, 앞서 논한 예측법에 의해 현지연안에서 발생하는 지형변동을 예측하기 위해서는, 현지파랑중 어떠한 방법으로 대표파고를 선정할 것인가가 큰 문제가 된다. (중략)

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Textural Characters of the Overwash Mark Sediments on the Berm of the Nobong Beach Environment, East Sea of Korea (동해안 해빈(노봉 해빈) 환경의 Overwash Mark 퇴적물의 조직 특성)

  • 박용안;최경식;김수정
    • The Korean Journal of Quaternary Research
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    • v.14 no.1
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    • pp.1-5
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    • 2000
  • During the last three years (1997∼2000), a research project of beach dynamic environmental process and dynamic nature of the Nobong Beach, East Sea of Korea has been carried out for a better understanding of beach cycle (winter and summer). In fact, however, this paper deals with a particular feature of beach dynamics, that is, overwash process of overwash water and its sediments. The overwash mark sediments (OMS) are analyzed to understand various textural characters.

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Beach Profile Change and Equilibrium due to Irregular Waves in the Nearshore Region (천해 불규칙파에 의한 해빈변형 및 평형)

  • Kang, Hyo-Jin
    • Journal of Korean Society of Coastal and Ocean Engineers
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    • v.8 no.1
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    • pp.95-102
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    • 1996
  • The skewness of near-bottom velocity distribution caused by the nonlinear interaction of the second order waves proposed by Wells (1967) has been re-evaluated. The direction of cross-shore sediment transport was related to the sign of the third moment (skewness) of velocity distribution, and a new concept of neutral depth which can explain the recovery of beach equilibrium after a disturbance is suggested. The seasonal change of beach profile due to the change of wave condition (storm-swell profile) is interpreted in terms of nonlinear interaction of the waves rather than the conventional wave steepness. The beach is eroded (storm profile) when the nonlinear interaction of the waves is strong (storm wave), whereas the beach is accreted (swell profile) when the nonlinear interaction is weak (swell wave).

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