R. Del Rosso scite author profile

Electronic nose applications in environmental monitoring are nowadays of great interest, because of the instruments' proven capability of recognizing and discriminating between a variety of different gases and odors using just a small number of sensors. Such applications in the environmental field include analysis of parameters relating to environmental quality, process control, and verification of efficiency of odor control systems. This article reviews the findings of recent scientific studies in this field, with particular focus on the abovementioned applications. In general, these studies prove that electronic noses are mostly suitable for the different applications reported, especially if the instruments are specifically developed and fine-tuned. As a general rule, literature studies also discuss the critical aspects connected with the different possible uses, as well as research regarding the development of effective solutions. However, currently the main limit to the diffusion of electronic noses as environmental monitoring tools is their complexity and the lack of specific regulation for their standardization, as their use entails a large number of degrees of freedom, regarding for instance the training and the data processing procedures.

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A comparative and critical evaluation of odour assessment methods on a landfill site

Capelli

Sironi

Rosso

et al. 2008

Atmospheric Environment

148

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Development of an Electronic Nose for Environmental Odour Monitoring

Dentoni

Capelli

Sironi

et al. 2012

Sensors

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Exhaustive odour impact assessment should involve the evaluation of the impact of odours directly on citizens. For this purpose it might be useful to have an instrument capable of continuously monitoring ambient air quality, detecting the presence of odours and also recognizing their provenance. This paper discusses the laboratory and field tests conducted in order to evaluate the performance of a new electronic nose, specifically developed for monitoring environmental odours. The laboratory tests proved the instrument was able to discriminate between the different pure substances being tested, and to estimate the odour concentrations giving correlation indexes (R2) of 0.99 and errors below 15%. Finally, the experimental monitoring tests conducted in the field, allowed us to verify the effectiveness of this electronic nose for the continuous detection of odours in ambient air, proving its stability to variable atmospheric conditions and its capability to detect odour peaks.

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Odour emission factors for assessment and prediction of Italian MSW landfills odour impact

Sironi

Capelli

Cèntola

et al. 2005

Atmospheric Environment

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R. Del Rosso

Measuring odours in the environment vs. dispersion modelling: A review

Electronic Noses for Environmental Monitoring Applications

A comparative and critical evaluation of odour assessment methods on a landfill site

Development of an Electronic Nose for Environmental Odour Monitoring

Odour emission factors for assessment and prediction of Italian MSW landfills odour impact

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