Greer Laing scite author profile

This paper presents a novel low-cost instrument that uses a sensor based on conductivity changes of heated tungstic oxide, which is capable of accurately measuring ambient concentrations of ozone. A combination of temperature steps and air flow-rate steps is used to continually reset and re-zero the sensor. A two-stage calibration procedure is presented, in which a nonlinear transformation converts sensor resistance to a signal linear in ozone concentration, then a linear correlation is used to align the calibration with a reference instrument. The required calibration functions specific for the sensor, and control system for air flow rate and sensor temperature, are housed with the sensor in a compact, simple-to-exchange assembly. The instrument can be operated on solar power and uses cell phone technology to enable monitoring in remote locations. Data from field trials are presented here to demonstrate that both the accuracy and the stability of the instrument over periods of months are within a few parts-per-billion by volume. We show that common failure modes can be detected through measurement of signals available from the instrument. The combination of long-term stability, self-diagnosis, and simple, inexpensive repair means that the cost of operation and calibration of the instruments is significantly reduced in comparison with traditional reference instrumentation. These instruments enable the economical construction and operation of ozone monitoring networks of accuracy, time resolution and spatial density sufficient to resolve the local gradients that are characteristic of urban air pollution.

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The influence of vegetation on the horizontal and vertical distribution of pollutants in a street canyon

Salmond¹,

Williams²,

Laing³

et al. 2013

Science of The Total Environment

184

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Development of low-cost ozone and nitrogen dioxide measurement instruments suitable for use in an air quality monitoring network

Williams

Salmond

Yung

et al. 2009

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We demonstrate low-cost ozone and nitrogen dioxide measurement instruments suitable for use in an air quality monitoring network. The instruments are based on the gas response of tungstic oxide at elevated temperature. We have shown that with careful attention to detail, small, robust instruments can be made, with sensitivity for O 3 and NO 2 less than 10 part-per-billion (ppb), and which track reference analysers in the atmosphere to within 10ppb over periods of months, without recalibration. I.978-1-4244-5335-1/09/$26.00 ©2009 IEEE

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Greer Laing

Validation of low-cost ozone measurement instruments suitable for use in an air-quality monitoring network

The influence of vegetation on the horizontal and vertical distribution of pollutants in a street canyon

Development of low-cost ozone and nitrogen dioxide measurement instruments suitable for use in an air quality monitoring network

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