Resumen
The present study encompassed the application of the thermal method of artificial ground freezing in sandy, clayey, and silty soils for temporary self-support in mining tunnels. A numerical thermo-hydrogeological simulation was conducted using the Plank cooling equation and thermodynamic principles. It was determined that clays require twice the amount of heat extraction compared to sand to reach the optimal temperature, demonstrating an inverse relationship between saturation percentage and freezing time. By considering three refrigerants, it was found that liquid nitrogen is capable of freezing 77% faster than brines. The self-support time of a rock mass was calculated and compared before and after applying the method, showing that artificial freezing enables the creation of temporary self-support in mining tunnels with a roof width exceeding 3.8 meters, with an estimated duration of less than 12 years; where for narrower roof widths, no additional reinforcement is required.
Título traducido de la contribución | Application of Thermal Soil Freezing for Temporary Self-Support in Mining Tunnel Construction Across Saturated, Sandy, Clayey, and Silty Rock Formations |
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Idioma original | Español |
Título de la publicación alojada | Proceedings of the 22nd LACCEI International Multi-Conference for Engineering, Education and Technology |
Subtítulo de la publicación alojada | Sustainable Engineering for a Diverse, Equitable, and Inclusive Future at the Service of Education, Research, and Industry for a Society 5.0., LACCEI 2024 |
Editorial | Latin American and Caribbean Consortium of Engineering Institutions |
ISBN (versión digital) | 9786289520781 |
DOI | |
Estado | Indizado - 2024 |
Publicado de forma externa | Sí |
Evento | 22nd LACCEI International Multi-Conference for Engineering, Education and Technology, LACCEI 2024 - Hybrid, San Jose, Costa Rica Duración: 17 jul. 2024 → 19 jul. 2024 |
Serie de la publicación
Nombre | Proceedings of the LACCEI international Multi-conference for Engineering, Education and Technology |
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ISSN (versión digital) | 2414-6390 |
Conferencia
Conferencia | 22nd LACCEI International Multi-Conference for Engineering, Education and Technology, LACCEI 2024 |
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País/Territorio | Costa Rica |
Ciudad | Hybrid, San Jose |
Período | 17/07/24 → 19/07/24 |
Nota bibliográfica
Publisher Copyright:© 2024 Latin American and Caribbean Consortium of Engineering Institutions. All rights reserved.
Palabras clave
- Artificial ground freezing
- mining tunnels
- numerical simulation
- self-support time
- thermal method