Jin-Ouk Park scite author profile

Jin-Ouk Park

5Publications

1Citation Statement Received

2Citation Statements Given

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Affiliations

Korea Institute of Civil Engineering and Building Technology

Publications

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An Experimental Study on Micro Shock Tube Flow

Park¹,

Kim²,

Kim³

2012

Journal of the Korean Society of Propulsion Engineers

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Past few years have seen the growing importance of micro shock tubes in various engineering applications like micro combution, micro propulsion, particle delivery systems. But in order to efficiently apply Micro Shock Tube to such areas require the detailed knowledge of shock characteristics and flow field inside a micro shock tube. Due to many factors such as boundary layer, low Reynolds number and high Knudsen number shock propagation inside micro shock tubes will be quite different from that of the well established macro shock tubes. In the present study, experimental studies were carried out on micro shock tubes of two diameters to investigate flow characteristics and shock propagation. Pressure values were measured at different locations inside the driven section. From the experimental values other parameters like shock velocity, shock strength were found and shock wave diagram was constructed.

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Experimental Study to Estimate the Required Flow of Fire Extinguishing System for Flame Spread Prevention on Composite Panel

Park¹,

Shin²,

Yoo³

et al. 2017

Fire Sci Eng

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Composite panel refers to the particular plywood produced in a way of stacking the different kinds of material in sandwich form and adhering them using adhesives and is widely used as building material for its constructability and cost efficiency. But as the surface is finished with steel plate, fire extinguishing agent cannot reach to the core material because of such steel plate on surface which causes the difficulties in suppressing the fire as well as in fire-fighting activities due to collapse. This study, to deal with such problem, is intended to set the fire pipe in core material to prevent the fire from spreading and in a bid to achieve this using minimized fire water, water supply test device was fabricated to estimate the required water flow of fire extinguisher and consequently, optimal water flow (0.5 L/min) was determined through a full-scale fire test.

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An analysis study for reasonable installation of tunnel fire safety facility

Park

Yoo

Park³

2015

Journal of Korean Tunnelling and Underground Space Association

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Domestic road and railroad construction have been increasingly growing and for reasons of mitigating traffic congestion, urban plan and refurbishment project, deeper and longer tunnels have been built. The event of fire is the most fatal accident in a tunnel, and it can be very disastrous with a high possibility. In this study, QRA (Quantitative Risk Analysis) which is one of quantitative risk analysis approaches was applied to tunnel fire safety design and the evaluation of QRA cases and the cost comparison of QRA methods were carried out. In addition analysis of risk reduction effect of tunnel fire safety system was conducted using AHP (Analytic Hierarchy Process) and the priority of major factors that could mitigate the risk in tunnel fire was presented. As a result, significant cost reduction effect could be obtained by incorporating QRA and it is expected to design fire safety system rationally. The priority of fire safety system based on risk mitigation effect by fire safety system considering the cost is in order of water pipe, emergency lighting, evacuation passage and smoke control system.

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Development of Flame Spread Prevention Systems for Combustible Composite Panels Using Water Screen Technology

Park¹,

Yoo²,

Kim³

et al. 2020

Fire Sci. Eng.

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Composite panels are designed to be fabricated by adding Styrofoam, glass wool, and urethane into steel plates before integration with adhesive materials. As these panels exhibit good workability, cost efficiency, and heat insulation performance, they are widely used as building materials for plant or storage facilities. However, fire safety still needs to be addressed, because these panels can potentially cause large fires. As firewater cannot easily penetrate the material inside the panel, extinguishing any fires caused is difficult. Furthermore, the imperfect combustion of the core material tends to generate a large volume of toxic gas, resulting in serious damage to human life. In addition, the high risk of collapse makes fire-fighting activities more difficult. Flame spread prevention systems optimized for composite panels have been developed for more effective fire suppression based on accumulative research outcomes obtained thus far. Related test methods were reviewed before successfully demonstrating the performance of the developed systems. The existing composite panel structure—wherein the developed system was not applied-burned out after 5 min; however, when the developed system was applied to the composite panels, the structure was covered in soot after 15 min. The structure was designed by applying the developed system to a virtual factory building, and the construction standard was reviewed.

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Experimental Study on the Fire Behavior in Double Deck Tunnel

Park¹,

Yoo²,

Hwi-Seung³

et al. 2016

Fire Science and Engineering

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In the wake of expanding and overpopulating urban areas, traffic congestion has been worsening increasingly, causing huge economic losses. In a bid to effectively use the space of metropolitan areas, the construction and operation of a double deck tunnel has been on the rise. On the other hand, a lower height of a double deck tunnel is expected to generate more smoke and soot in a fire than other usual tunnels. Therefore, it is undesirable to apply the standard for fire intensity or smoke generation, which were designed for existing road tunnels. A part of an effort to propose a design fire curve that is useful for double deck tunnel, is intended to obtain and analyze the fire characteristics in a double deck tunnel through a real scale fire test. The test was conducted according to the fire scenario with one passenger car and two passenger cars; the monitored fire intensity was a maximum of 2.4 MW and 3.5 MW, respectively.

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Jin-Ouk Park

An Experimental Study on Micro Shock Tube Flow

Experimental Study to Estimate the Required Flow of Fire Extinguishing System for Flame Spread Prevention on Composite Panel

An analysis study for reasonable installation of tunnel fire safety facility

Development of Flame Spread Prevention Systems for Combustible Composite Panels Using Water Screen Technology

Experimental Study on the Fire Behavior in Double Deck Tunnel

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