The management of heat flow in deep mines (part 2)
Author(s): |
Horst Wagner
|
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Medium: | journal article |
Language(s): | English |
Published in: | Geomechanics and Tunnelling, 2011, n. 2, v. 4 |
Page(s): | 157-163 |
DOI: | 10.1002/geot.201100006 |
Abstract: |
In Part 1 of "The Management of Heat Flow in Deep Mines" the sources of heat, mechanism of heat transfer and strategies of controlling heat transfer have been discussed. Part 2 deals with the effects of heat on the human body and mine cooling strategies for deep mines. In detail the effects of heat on a worker are examined, heat stress and heat tolerance discussed and methods of assessing heat stress in different mining situations presented. Experiences from deep South African gold mines highlight the adverse effects of heat stress environment on safety and labour productivity. The principal methods of cooling of deep and ultra deep mines are discussed. It is shown that auto-compression of ventilation air is a deciding factor governing the choice of surface or underground cooling of ventilation air. In the case of deep and ultra deep mines, the use of chilled service water and ice slurry has shown to be the most cost effective means of mine cooling. In the case of ice slurry as cooling medium advantage is taken of the latent heat of ice which significantly reduces the amount of water required for mine cooling and hence the cost of pumping the water to surface. Cooling strategies for moderately deep, deep and ultra deep mines are discussed. Examples of cooling of deep long mine tunnels are given. |
Keywords: |
heat balance heat stress mine cooling
|
Available from: | Refer to publisher |
- About this
data sheet - Reference-ID
10064995 - Published on:
22/06/2011 - Last updated on:
13/08/2014