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Nitrogen oxides

Nitrogen oxides molecules

The term nitrogen oxides (NOx) describes a mixture of nitric oxide (NO) and nitrogen dioxide (NO2), which are gases produced from natural sources, motor vehicles and other fuel burning processes.

Nitric oxide is colourless and is oxidised in the atmosphere to form nitrogen dioxide. Nitrogen dioxide has an odour, and is an acidic and highly corrosive gas that can affect our health and environment.

Nitrogen oxides are critical components of photochemical smog. They produce the yellowish-brown colour of the smog.

In poorly ventilated situations, indoor domestic appliances such as gas stoves and gas or wood heaters can be significant sources of nitrogen oxides.

Environmental and health effects of nitrogen oxides

Elevated levels of nitrogen dioxide can cause damage to the human respiratory tract and increase a person's vulnerability to, and the severity of, respiratory infections and asthma.

Long-term exposure to high levels of nitrogen dioxide can cause chronic lung disease.

It may also affect the senses, for example, by reducing a person's ability to smell an odour.

High levels of nitrogen dioxide are also harmful to vegetation—damaging foliage, decreasing growth or reducing crop yields.

Nitrogen dioxide can fade and discolour furnishings and fabrics, reduce visibility, and react with surfaces.

Air quality standard

The recommended air quality standards for nitrogen dioxide are:

  • 0.12 parts per million (ppm) for a 1-hour exposure period
  • 0.03ppm for an annual exposure period.

These standards are designed to protect sensitive individuals, such as children and asthmatics.

Typical outdoor nitrogen dioxide levels are well below the 1-hour standard and exposure at these levels does not generally increase respiratory symptoms.

Measuring nitrogen oxides

Nitrogen oxides are measured with a technique known as 'chemiluminescence', which is a chemical reaction that emits energy in the form of light.

This particular reaction is the oxidation of nitric oxide (NO) to nitrogen dioxide (NO2) by ozone (O3) as shown below:

NO + O3 > NO2*+ O2

It is an exothermic (heat generating) reaction, which produces an activated molecule of NO2*. When these NO2* molecules return from the activated state to normal state, some energy is emitted in the form of a small amount of light. A photomultiplier tube measures the intensity of the emitted light.

Since 1 NO molecule is required to form 1 NO2 molecule, the intensity of the chemiluminescent reaction is directly proportional to the NO concentration in the sample. The analyser measures the amount of light emitted and converts this to a concentration.

Diagram of a nitrogen oxides analyser

A nitrogen oxides analyser.

Nitrogen oxides analyser

The animated illustration shows how the analyser works.

A vacuum pump draws both the air supply for the ozone generator and the ambient air samples into the analyser. The green dot shows the ambient air sample path. A high-voltage corona discharge generates the ozone in dry air, shown in the diagram by the path of the red dot.

The chemiluminescent reaction only occurs between O3 and NO.

To measure the NO2 component the instrument diverts the ambient air stream alternately through a converter containing a catalyst (molybdenum) maintained at a temperature of 315°C, which converts any NO2 present to NO before entering the reaction cell.

The blue dot shows the path taken. The difference between NO levels in the undiverted and diverted gas streams is the amount of NO2.

Other instruments

Differential optical absorption spectroscopy (DOAS) instruments also measure nitrogen oxides.

More information

Go to the live air data page to check the current levels of nitrogen oxides in the monitoring network.

Download the nitrogen oxides poster (PDF, 432KB).

Licence
Creative Commons Attribution 3.0 Australia (CC BY 3.0)
Last reviewed
27 September 2016
Last updated
29 August 2013
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