Tae-Gun Oh scite author profile

Tae-Gun Oh

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Review of stability calculation of an artificial reef in the breaking wave zone of coastal waters

Chang-Gil¹,

Oh²,

Suh³

et al. 2009

Journal of the Korean Society of Marine Engineering

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：The current study reviews the formula used to calculate the stability of an artificial reef in the breaking wave zone of coastal waters. A comparison was carried out between the existing formula and a new formula that takes into account the water particle velocity in the breaking wave zone. Water particle velocity was analyzed using the Fluent (CADMAS-SURF) software program. The new formula took into various factors, including the difference in the drag coefficient due to the direction of the current and the ratio of distance between two reefs. The drag coefficient of the artificial reef due to the direction of the current was 0.84 when the distance ratio was 0.5. When the artificial reef was placed at 45 degree angle to the current, the product of the drag coefficient and the project area were 40 to 46 % greater than when the reef was placed at 90 degree angle. Our results regarding the stability of an artificial reef indicate that the new formula provides the designers of artificial reefs with a more rational and economic design rationale rather than the existing formula. Key words：Artificial reef(인공어초), Artificial reef's stability(인공어초 안정성), Breaking wave zone(쇄파대), Water particle velocity(수립자속도), Drag coefficient(항력계 수).

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Hysteretic Behavior of R/C Shear Wall with Various Lateral Reinforcements in Boundary Columns for Cyclic Lateral Load

Seo¹,

Oh²,

Kim³

et al. 2010

Journal of the Korea Concrete Institute

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This paper presents experimental results about shear wall with various lateral reinforcement details in boundary elements. The research objective is to study the structural behavior of shear wall with boundary column confined by rectangular spiral hoops and headed cross ties developed to improve workability in the fabrication of boundary columns. These two details can be fabricated in a factory and put together on-site after being delivered so that the construction work may be reduced. Main parameters in the experimental study were the types of hoop and cross tie: rectangular spiral hoop and headed cross tie vs. standard hoop and cross tie with hook. Four half scaled shear wall specimens with babel shape were made and tested by applying horizontal cyclic load under constant axial force, 10% of nominal compressive strength of concrete. Based on the test result, it was shown that the shear wall with rectangular spiral hoop and headed cross tie in boundary columns has structural capacity compatible with conventional shear wall. The specimen SW-Hh which has bigger hoop bar and higher volumetric ratio of transverse reinforcements than other showed improved energy dissipating characteristic but it presented a rapid reduction of strength after peak point. The results indicates that, it is necessary to consider volumetric ratio of transverse reinforcements as well as hoop space in designing of shear wall with boundary columns for improved strength and ductility.

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Optimum Structure and Deployment of an Abalone Reef for the Marine Ranching Creation in Jeonnam Archipelago of Korea

Kim¹,

Suh²,

Cho³

et al. 2007

Journal of the Korean Society of Marine Engineering

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Tae-Gun Oh

Review of stability calculation of an artificial reef in the breaking wave zone of coastal waters

Hysteretic Behavior of R/C Shear Wall with Various Lateral Reinforcements in Boundary Columns for Cyclic Lateral Load

Optimum Structure and Deployment of an Abalone Reef for the Marine Ranching Creation in Jeonnam Archipelago of Korea

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