Abstract
Movable refuge chambers are a new kind of rescue device for underground mining, which is believed to have a potential positive impact on reducing the rate of fatalities. It is likely to be hot and humid inside a movable refuge chamber due to the metabolism of trapped miners, heat generated by equipment and heat transferred from outside. To investigate the heat stress experienced by miners trapped in a movable refuge chamber, the predicted heat strain (PHS) model was used to simulate the heat transfer process between the person and the thermal environment. The variations of heat stress with the temperature and humidity inside the refuge chamber were analyzed. The effects of air temperature outside the refuge chamber and the overall heat transfer coefficient of the refuge chamber shell on the heat stress inside the refuge chamber was also investigated. The relationship between the limit of exposure duration and the air temperature and humidity was numerically analyzed to determine the upper limits of temperature and humidity inside a refuge chamber. Air temperature of 32 °C and relative humidity of 70% are recommended as the design standard for internal thermal environment control of movable refuge chambers.
Highlights
Coal production is considered a complex and hazardous activity due to its dangerous and dynamic characteristics
The predicted heat strain model is used to quantitatively investigate the heat stress experienced by miners trapped in a movable refuge chamber and to determine the upper limits of temperature and humidity for maintaining a tolerable thermal environment in the chamber
The heat stress experienced by trapped miners in a refuge chamber can be analytically evaluated by using the predicted heat strain (PHS) model if the air temperature and the relative humidity (RH) inside the refuge by using the PHS model if the air temperature and the relative humidity (RH) inside the refuge chamber and the air temperature (t ) outside the refuge chamber are known
Summary
Coal production is considered a complex and hazardous activity due to its dangerous and dynamic characteristics. A new rescue device, are believed to have a potential positive impact on reducing the rate of fatalities in underground mining. A refuge chamber should have the capability to protect the trapped miners from the explosive blasts, high temperature fumes and noxious gases resulting from gas and/or coal dust explosions, blasts, high temperature fumes and noxious gases resulting from gas and/or coal dust explosions, fires, fires, coal and gas outbursts, etc., in coal mine accidents. It should provide a respirable coal and gas outbursts, etc., in coal mine accidents.
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