• Title/Summary/Keyword: Sprinkler response time

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An Analysis of Working Hours by Type of Sprinkler Head Used at Indoor Gymnasiums

  • Ahn, Jae-Cheon;Kong, Ha-Sung
    • International journal of advanced smart convergence
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    • v.10 no.4
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    • pp.117-123
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    • 2021
  • This study aims to analyze working hours of sprinkler heads when a fire occurs at an indoor gymnasium while sprinkler heads are installed in division of standard response type, special response type, and earlier response type. The fire scenario was designed under the assumption that the fire started from overheating of a heater in the indoor gymnasium has transferred on to a couch to spread. The analysis on the operation time of the standard response type sprinkler head, the special response type sprinkler head and the early response sprinkler head was conducted. The result showed that, in case of fire in a gymnasium, the time for opening of the heat sensor due to the heat from the fire varies by the type of the sprinkler head. When a special response type sprinkler is installed, it worked below the assessment standards. When an early response sprinkler head is installed, it worked appropriately according to assessment standards. Based on the results, we found that sprinkler heads will work properly when installed according to design relevant to laws and regulations. This means that there is a limit in installation of sprinkler heads based on the existing law-based design as for indoor gymnasiums. Again, we conclude that if sprinkler heads are installed based on design made through laws and regulations, more time will be needed for operation, making it highly likely to fail to stop a fire at an earlier point of time.

A Comparison of the Prediction of Sprinkler Response Time Applying Fire Models (스프링클러 반응시간 예측에 대한 화재모델의 비교)

  • 김종훈;김운형;이수경
    • Fire Science and Engineering
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    • v.15 no.2
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    • pp.46-52
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    • 2001
  • To evaluate the usability of compartment fire models for predicting sprinkler response time, fire experiment was conducted and measured sprinkler response time. The experimental data was compared with zone model "FASTLite"and field model "FDS"and field Model "SMARTFIRE" A Compartment fire conducted in a 2.4 m by 3.6 m by 2.4 m ISO 9705 room and measured H.R.R was approximately 100.3 kW. In test, Sprinkler activation temperature used is $72^{\circ}c$ and responded at 198s. The output of FASTLite, SMARTFIRE and, FDS for this fire scenario were 209s, 183s, and 192s, respectively. As a results, prediction using FDS model approached to that of test very closely and other models showed good approximated results also.

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Response Time Index and Suppression Capability of Standard and Quick Response Sprinkler Head (표준형 및 속동형 스프링클러헤드의 반응시간지수와 소화성능)

  • 정길순;이병곤
    • Journal of the Korean Society of Safety
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    • v.13 no.4
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    • pp.59-70
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    • 1998
  • In this study, response time index(RTI) of standard and quick response type sprinkler head are measured and compared through ramp and plunge test in heated wind tunnel. Also discharge rate and water distribution, actual delivered density(ADD), fire test with wood cribs are performed to compare the fire suppression capability and the operation time and temperature between standard and quick response type sprinkler head.

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Prediction of sprinkler activation time in compartment fire (구획화재에서의 스프링클러 작동시간 예측 연구)

  • 김명배;한용식
    • Fire Science and Engineering
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    • v.10 no.4
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    • pp.13-18
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    • 1996
  • A general description of sprinkler activation time in compartment-fire-generated smoke layers is made. For calculation of the time hot layer temperature is obtained from two-layer zonal model and time constant of sprinkler is measured. Upper-layer thickness at the instant of sprinkler activation is also presented with changes of opening area. The output of the present study provide inputs for the interaction modeling of sprinkler spray and compartment fire environment, which simulates fire suppression phenomena. Futhermore, experiments are performed in mock-up with gasoline pool fire in order to evaluate the reliability of the model.

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An Experimental Study of Thermal Response of Sprinklers (스프링클러의 열응답성에 관한 실험적 연구)

  • 한용식;김명배
    • Proceedings of the Korea Institute of Fire Science and Engineering Conference
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    • 1996.11a
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    • pp.68-71
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    • 1996
  • The thermal response of sprinkler is characterized by the response time index(RTI). The RTI represents the product of the thermal time constant for the heat responsive element of a sprinkler and the square root of the hot air velocity at plunge test. A plunge test is adapted for measuring RTI, wherein a sprinkler is suddenly immersed in the steady flow in the test section of a hot air tunnel. The method of measurements of the response parameters is presented.

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Combustible Gas and Visible Distance by Sprinkler Head for Safety of Gymnasium Workers

  • Ahn, Jae-Cheon;Kong, Ha-Sung
    • International journal of advanced smart convergence
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    • v.10 no.3
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    • pp.232-244
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    • 2021
  • This study analyzed the changes in carbon monoxide, carbon dioxide, oxygen and visual distance by presence of sprinkler heads and their types in the event of a fire in an indoor gymnasium. Based on carbon monoxide and visual distance that affects human bodies enormously, first, if there is no sprinkler head, carbon monoxide will reach 0.4% within five seconds and visual distance rapidly shrank within five seconds. Seconds, in the event of standard sprinkler heads, carbon monoxide gradually increased from 30 seconds onwards and visual distance rapidly shrank after five seconds. Second, Third, if there are special sprinkler heads, carbon monoxide fluctuated after opening the head and visual distance became 5m or below from 15 seconds. Finally, in the event of early response sprinkler heads, carbon monoxide fluctuated up and down at 3 seconds due to falling water drops. Visual distance shrank up to 5m or below at 6 seconds. In the future, time for operation of each sprinkler head shall be analyzed.

A Study on Response Time Index for Sprinkler Head (스프링클러 헤드의 응답시간지수 측정)

  • 태순호;이병곤
    • Journal of the Korean Society of Safety
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    • v.5 no.3
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    • pp.51-55
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    • 1990
  • This study describes the engineering approach adopted to investigate sprinkler head during the early stage of a fire when they are subjected to convective heating and low gas velocities. Comparions are made between the parameters derived using basic methods, ie. ramp test, for evaluating sprinkler parameters(time constant, response time index) is illustrated. Evidence is presented that the propotion of heat loss by conduction from a sprinkler element may very typically employed in the rate of rise test. This fact alone may justfy the precautionary need to perform a limited number of rate of rise tests to confirm a sprinklers capacity to function correctly in reasonably unfavourable yet realistic conditions. The work is aimed primarily at meeting the needs of sprinkler industry.

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Activation Conditions of Sprinkler Head Considering Fire Growth Scenario (화재성장시나리오에 따른 스프링클러 헤드의 작동조건)

  • Kim, Sung-Chan
    • Fire Science and Engineering
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    • v.34 no.4
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    • pp.45-51
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    • 2020
  • The aim of this study is to investigate the gas temperature and velocity during sprinkler activation considering the fire growth scenario based on the thermal response model of the sprinkler. The fire source is assumed to have time square fire growth scenarios with a maximum heat release rate of 3 MW. Eight types of standard and fast-response sprinkler heads with an operating temperature range of 65-105 ℃ and a response time index range of 25-171 m1/2s1/2 were adopted. The temperature difference between the gas stream and the sensing element of the sprinkler head decreased as the fire growth slowed down, and the RTI value decreased. The overall gas temperature and velocity conditions predicted using the FDS model at sprinkler activation were in reasonable agreement with those of standard test conditions of the sprinkler head response. However, the sprinkler head could be activated at lower limits of gas temperature and velocity under the current test conditions for a slowly growing fire scenario.

A Study on Response Time Index and Operating Time for Fusible Link Sprinkler Head (용융형 스프링클러 헤드의 응답시간 지수 및 작동시간에 관한 연구)

  • 이병곤;태순호
    • Journal of the Korean Society of Safety
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    • v.6 no.4
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    • pp.34-44
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    • 1991
  • In this study, the general solution of heat balance equation including conductive heat loss were suggested and were determined the constants with the results of experiment in hot tunnel in order to derive the general equation for the response time and to investigate the response time index which represent the characteristics of response of sprinkler head in actual fires. Two types of test were considered, the plunge test, in which the air temperature is represented by a step function, and the ramp test, in which the air temperature increases at a constant rate. As a result, simple equations were derived, which can be predicted the response time for the ramp type fire with the rate of temperature rise and gas velocity, for the plunge type fire with temperature and gas velocity. Also other useful data, such as the effective temperature, time constant, response time index and conduction parameter were obtained.

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Experimental Study on the Characteristics of Thermal Sensitivity for Fusible Alloy Type Sprinkler Head (가용합금형 스프링클러 헤드의 열감도 특성에 관한 실험적 연구)

  • 권오승;이진호
    • Fire Science and Engineering
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    • v.9 no.1
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    • pp.20-29
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    • 1995
  • The sprinkler head is a component of the sprinkler system intended to discharge water for automatic detection and extinguishment of fires. On this study, thermal characteristic values affecting the sensitivity of the fusible alloy type sprinkler head were obtained and analyzed under heated air stream condition which had constant temperature and velocity. The experiment was carried out under the forced convection condition with both the conductive heat loss considered and neglected. The thermal characteristic values of the sprinkler head were obtained in accordance with the material and shape of the heat responsive element and the conditions of the main body.

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