Ye-Cheng Liu scite author profile

Ye-Cheng Liu

3Publications

10Citation Statements Received

37Citation Statements Given

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107

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Changzhou University

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Influence of Water Mist Temperature Approach on Fire Extinguishing Effect of Different Pool Fires

et al. 2022

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The aim of this paper was to study the suppression influence of water mist on oil pool fires, taking diesel fires and n-heptane fires as experimental objects. The effects of spray pressure and temperature on water mist suppression were examined, and an experimental platform for the suppression of water mist in a small space was set up. Their fire prevention performance and fire extinguishing mechanisms were analyzed by comparing the flame temperature and extinguishing time of diesel and n-heptane pool fire. Three types of spray pressure were set. Water mist was designed at different temperatures and design experiments were carried out for this purpose. The change process of smoke concentration, thermocouple temperature, and flame combustion under different working conditions were analyzed, and the factors affecting the fire extinguishing effect of water mist on oil pool fire were discussed. The results show that 20 °C water mist is more effective at medium and high pressure than at low pressure. Moreover, 80 °C water mist at 9 MPa is more effective in extinguishing n-heptane fire. The flame extinction time is about 10 s, which is more than 40 s higher than that of cold water.

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Experimental investigation of the performance of modified expanded graphite powder doped with zinc borate in extinguishing sodium fires

Cao

Zhou

et al. 2023

Journal of Loss Prevention in the Process Industries

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Feasibility Study of Fine Water Mist Applied to Cold Storage Fire Protection

Yin

Liu

et al. 2022

Processes

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The self-built fine water mist fire extinguishing platform studied the fire extinguishing effect of ultra-fine water mist in cold storage fires. The combustible material selected for our experiments is the cold storage insulation material—polystyrene insulation foam board. The combustion characteristics of the insulation board were studied by pyrolysis analysis. We analyzed the temperature, smoke, and other characteristics of the fire scene when a fire occurs in the cold storage and then manipulated the water mist to carry out the fire extinguishing experiment. Experiments aim to change the particle size and pressure of water mist and study the fire extinguishing efficiency of water mist under different conditions. A thorough analysis was used to determine the particle size range of fine water mist most suited for extinguishing fires in cold storage to offer a theoretical foundation for fire protection design.

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Ye-Cheng Liu

Influence of Water Mist Temperature Approach on Fire Extinguishing Effect of Different Pool Fires

Experimental investigation of the performance of modified expanded graphite powder doped with zinc borate in extinguishing sodium fires

Feasibility Study of Fine Water Mist Applied to Cold Storage Fire Protection

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