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Fuxin Guo, Min Tu and Jiaxin Dang
In regions with high-stress roadway stress, anchor cables frequently experience damage, leading to risky pull-outs and ejections. This study aimed to determine the dynamics of such incidents, refine protective devices, and validate their efficacy in enha...
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M. M. Biliaiev,L. F. Dolina,O. Yu. Gunko
Pág. 170 - 176
The 3D-numerical model to simulate the toxic gas dispersion on industrial sites and inflow of toxic gas into the industrial room after accident ejections was developed. The model is based on the K-gradient transport model and equation of potential flow. ...
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V. V. Belyaeva
Pág. 82 - 85
The mathematical model to simulate the toxic gas dispersion inside an industrial room after accident ejections was developed. The model is based on the K-gradient transport model and equation of potential flow. The model permits to calculate the time of ...
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Yu. L. Zayats,V. V. Beliaieva
Pág. 91 - 93
The 3D numerical model to simulate the toxic gas dispersion in industrial room after accident ejections was developed. The model is based on the K-gradient transport model and equation of potential flow. The model permits to calculate the time of appeara...
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M. M. Biliaiev,Ye. Yu. Gunko
Pág. 21 - 24
The 3D numerical model to simulate the toxic gas dispersion on industrial sites after accident ejections was developed. The model is based on the K-gradient transport model and equation of potential flow. The results of numerical experiment of atmosphere...
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M. M. Biliaiev,Ye. Yu. Hunko,P. B. Mashtkhina
Pág. 18 - 20
The 3D numerical model to simulate the toxic gas dispersion on industrial sites after accident ejections was developed. The model is based on the K-gradient transport model and equation of potential flow. The results of numerical experiment are presented...
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