Yunpeng Hu scite author profile

The temperature distribution is one of the most vital parameters which should be fully considered in high geothermal tunnel design. For the purpose of studying the impact of temperature disturbance caused by construction on temperature distribution of surrounding rock and lining structure in a high geothermal tunnel, a new finite difference model for temperature prediction was proposed. Based on the abundant field test results, forecast analysis for the research of a high geothermal tunnel in this paper is made. The results indicate that the temperature of the surrounding rock near the tunnel sidewall decreases obviously in the first 14 days while that of the surrounding rock far away is stable after tunnel excavation, and the rock temperature showed three ways of change: undulate type (<2 m), decline type (2–5 m) and stable type (>5 m). There is a linear relationship between the initial rock temperature and the released heat of the surrounding rock. The radius of the heat-adjusting layer and the initial rock temperature presents a quadratic function relation. The lining concrete actually cures under the variable high-temperature environment and the real curing temperature decreases with time and becomes stable seven days later. The results would contribute to providing support for high geothermal tunnel research and design.

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Influence of cement-fly ash-gravel pile-supported approach embankment on abutment piles in soft ground

Dong

Jiang

Liao

et al. 2018

Journal of Rock Mechanics and Geotechnical Engineering

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Mechanical Characteristics of Cement-Based Grouting Material in High-Geothermal Tunnel

Wang

Jiang

et al. 2020

Materials

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The cement-based grouting materials used for practical purposes in high-geothermal tunnels are inevitably affected by humidity and high temperature, leading to the deterioration of mechanical properties. Based on the characteristics of changing high temperatures and two typical conditions of hot-humid and hot-dry environments in high-geothermal tunnels, many mechanical strength tests were carried out on the grouting material cured under different environmental conditions. The study results indicated that high temperature and low relative humidity were unfavorable to the development of mechanical characteristics of grouting material, but the coupling effect of two factors could improve the strength at early ages and reduce the degradation of long-term strength. As the curing temperature exceeded 56.3 °C, the humidity effect on strength played a more important role in recovering the strength of grouting material damaged by high temperature. Temperature had more significant impact on the relative peak stress while the relative humidity had greater influence on the relative peak strain. A calculation compressive constitutive model was prospered, which considering both temperature and relative humidity. The study results may provide much valuable experimental data and theoretical supporting for the design of compression constitutive of cement-based grouting material in high-geothermal tunnel.

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Yunpeng Hu

A study on strength characteristics of concrete under variable temperature curing conditions in ultra-high geothermal tunnels

Field test of thermal environment and thermal adaptation of workers in high geothermal tunnel

A Study on the Heat Transfer of Surrounding Rock-Supporting Structures in High-Geothermal Tunnels

Influence of cement-fly ash-gravel pile-supported approach embankment on abutment piles in soft ground

Mechanical Characteristics of Cement-Based Grouting Material in High-Geothermal Tunnel

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