Air quality monitoring with polar-orbiting hyperspectral infrared sounders : a fast retrieval scheme for carbon monoxide

Smith, Nadia

07 October 2014

D.Phil. (Geography) / The Infrared Atmospheric Sounding Interferometer (lASI), operational in polar-orbit since 2006 on the European MetOp-A satellite, is the most advanced of its kind in space. It has been designed to provide soundings of the troposphere and lower stratosphere at nadir in a spectral interval of 0.25 em" across the range 645-2 760 em". Fine spectral sampling such as this is imperative in the sounding of trace gases. Since its launch, the routine retrievals of greenhouse, species from IASI measurements have made a valuable contribution to atmospheric chemistry studies at a global scale. The main contribution of this thesis is the development of a new trace gas retrieval scheme for IASI measurements. The goal was to improve on the global operational scheme in terms of the algorithm complexity, speed of calculation and spatial resolution achieved in the final solution. This schemedirectly retrieves column integrated trace gas densities at single field-of-view (FOV) from IASI measurements within a 10% accuracy limit. The scheme is built on the Bayesian framework of probability and based on the assumption that the inversion of total column values, as apposed to gas profiles, is a near-linear problem. Performance of the retrieval scheme is demonstrated on simulated noisy measurements for carbon monoxide (CO). Being a linear solution, the scheme is'highly dependent on the accuracy of the a priori. A statistical estimate of the a priori was computed using a principal component regression analysis with 50 eigenvectors. The corresponding root-mean-square (RMS) error of the a priori was calculated to be 9.3%. In general terms, the physical retrieval improved on the a priori, and sensitivity studies were performed to demonstrate the accuracy and stability of the retrieval scheme under a numberof perturbations. A full system characterization and error analysis is additionally preformed to elicidate the nature of this complex problem. The hyperspectral IASI measurements introduce a significant correlation error in the retrieval. The Absorption Line Cluster (ALC) channel selection method was developed in this thesis, to address the correlation error explicitly. When a first neighbour correlation factor of 0.71 is assumed in the measurement error covariance for the clusters of ALC channels, then most of the correlation error is removed in the retrieval. In conclusion, the total column trace gas retrieval scheme developed here is fast, simple, intuitive, transparent and robust. These characteristics together make it highly suitable for implementation in an operational environment intended for air quality monitoring on a regional scale.

Air - Pollution - Measurement

Infrared spectroscopy

Project POSSUM

Carbon monoxide - Environmental aspects

Carbon monoxide - Toxicology

Carbon monoxide exposure in vehicle inspection stations, Dade County, Florida

DiSalvo, Carl W.

21 January 1981

The National Institute for Occupational Safety and Health (NIOSH) has shown that carbon monoxide (CO) exposure levels which can induce carboxyhemoglobin (COHb) formation in excess of 5 percent can result in serious health consequences. In Dade County, Florida county vehicle inspectors are routinely exposed to CO on the job. To evaluate CO exposure levels, a Ecolyzer direct reading CO meter was placed in inspection lanes in 10 Dade County vehicle inspection stations. The results of this study indicate that in 3 stations, an 8-hour time-weighted exposure to carbon monoxide will induce inspector COHb levels in excess of 5 percent, and all stations have work sites where inspectors encounter ceiling exposure levels which may alter their predicted level of COHb formation. Although CO exposure in Dade County vehicle inspection stations was found to be influenced by several factors, the extent and severity of exposure can be reduced by engineering and administrative controls.

Carbon monoxide -- Toxicology

Civil and Environmental Engineering

Environmental Engineering