February 12, 2018

Mining: Gas Detection And The New Standards On NO2 Exposure

Mining: Gas Detection And The New Standards On NO2 Exposure

Nitrogen dioxide (NO2), a highly toxic gas, is a component found in the emission of diesel engines or as a result of blasting.

In the mining industry, diesel engines produce nitrogen monoxide (NO), a combustion byproduct. In the presence of air, NO reacts almost immediately with oxygen to create NO2. Except for certain drilling equipment and specialized applications, most mechanized equipment used in metal mines nowadays is powered by diesel engines. Blasting also is at the origin of NO2 production. During a blast, all explosive materials create a cloud of reactive substances – and the most toxic of them is the NO2.

In Canada, The generally acceptable limit is of 3 parts per million (ppm). However, a recent trend aims at reducing this level at 0.2 ppm – a value fifteen times inferior to the value used in the past.

Health effect of NO2

Nitrogen dioxide is almost imperceptible to humans. Depending on the temperature, nitrogen dioxide can appear as a colorless solid, a yellow liquid or a reddish-brown gas. It is heavier than air, as well as being acidic, corrosive and oxidizing.

The human olfactory perception threshold for NO2 is between 0.1 and 0.2 ppm, depending on the conditions. That’s why portable instruments equipped with integrated NO2 sensors are becoming increasingly important inside mines.

NO2 contributes to respiratory problems, high bronchial reactivity and bronchial sensitivity to microbial infections. Prolonged exposure to high levels of nitrogen dioxide can cause irreversible damages to the respiratory system. Exposure to liquefied gaseous NO2 (high concentration) can cause severe burns to the skin, eyes and respiratory tract.

Complying with the new standards

  1. Analysis of the actual NO2levels
  2. The first step is to determine the NO2 levels to check that the work environment complies with the regulations in force. It includes the validation of the environments after blasting, ventilation verification and exposure evaluation of high-risk workplaces.

  3. Identify and eliminate NO2sources
  4. It is essential to identify and eliminate the most important NO2 sources. For example, it can include the identification of the most polluting engines and to take corrective actions to limit NO2 emissions.

  5. Continuous monitoring of the environment

After taking corrective actions, it is necessary to continuously monitor the environment, particularly in areas where workers are more likely to be exposed to NO2, such as miners working with or near diesel engines in poorly ventilated areas or near tailing collection or grinding operations.

For the protection of miners against toxic gases: Dräger X-am® 5000 and Dräger X-am® 5600 portable personal detector NO2 with a low-concentration sensor

Based on its extensive experience in the mining industry around the world, Dräger has developed an efficient and well-known solution using products that contribute to the precise monitoring of NO2 levels in work environments, compiling the data to validate compliance with the standards.

Optimized for individual protection, the compact X-am 5000 personal monitor can measure up to five gases, can be configured to meet the specific needs of mining operations by selecting from 30 different electrochemical sensors. The X-am 5600 is an infrared personal monitoring device capable of detecting up to six different gases. Both instruments are compatible with the Dräger X-zone® to ensure optimal area monitoring.

In addition to multi-gas detectors, Dräger also offers products to collect data for monitoring and compliance purposes, as well for ventilation monitoring.

 

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