Open‐path Fourier transform infrared spectroscopy of SO<sub>2</sub>: An empirical error budget analysis, with implications for volcano monitoring

Horrocks, L. A.; Oppenheimer, Clive; Burton, Mike; Duffell, H. J.; Davies, Nicholas M.; Martin, Nicholas A.; Bell, W.

doi:10.1029/2001jd000343

Cited by 41 publications

(58 citation statements)

References 21 publications

(2 reference statements)

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“…Independent studies quantifying the error budget of the gas concentration retrievals have estimated that for a SO 2 concentration of 250 ppm, the choice of the background polynomial and inaccuracies in the instrumental line shape account for an uncertainty of 1.2 and 1.5 %, respectively (Horrocks et al 2001). Similarly, Smith et al (2011) estimated that for a CO 2 concentration of 280 ppm, the choice of the polynomial and FOV variations of the instrument account for an uncertainty of 1.7 and 5.2 %, respectively.…”

Section: Ftir Measurementsmentioning

confidence: 99%

Measurements of volcanic SO2 and CO2 fluxes by combined DOAS, Multi-GAS and FTIR observations: a case study from Turrialba and Telica volcanoes

Conde

Robidoux

Avard³

et al. 2014

Int J Earth Sci (Geol Rundsch)

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crateric SO 2 emissions, and electrochemical/nDIR multicomponent gas analyser system (multi-GaS) instruments for measuring CO 2 /SO 2 ratios of excerpts of the volcanic plume. This study aims to quantify the representativeness of excerpts of CO 2 /SO 2 ratios measured by Multi-GaS as a fraction of the whole plume composition, by comparison with simultaneously measured CO 2 /SO 2 ratios using crosscrater Fourier transform infrared spectroscopy (FTIR). Two study cases are presented: Telica volcano (nicaragua), with a homogenous plume, quiescent degassing from a deep source and ambient temperature, and Turrialba volcano (Costa Rica), which has a non-homogeneous plume from three main sources with different compositions and temperatures. Our comparison shows that in our "easier case" (Telica), FTIR and Multi-GaS CO 2 /SO 2 ratios agree within a factor about 3 %. In our "complicated case" (Turrialba), Multi-GaS and FTIR yield CO 2 /SO 2 ratios differing by approximately 13-25 % at most. These results suggest that a fair estimation of volcanic CO 2 emissions can be provided by the combination of DOaS and Multi-GaS instruments for volcanoes with similar degassing conditions as Telica or Turrialba. Based on the results of this comparison, we report that by the time our measurements were made, Telica and Turrialba were emitting approximately 100 and 1,000 t day −1 of CO 2 , respectively.

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Section: Ftir Measurementsmentioning

confidence: 99%

Measurements of volcanic SO2 and CO2 fluxes by combined DOAS, Multi-GAS and FTIR observations: a case study from Turrialba and Telica volcanoes

Conde

Robidoux

Avard³

et al. 2014

Int J Earth Sci (Geol Rundsch)

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“…In these applications single field-ofview (FoV), medium-spectral-resolution (6-0.5 cm −1 ) interferometers are used to gather quantitative information on multiple gas species simultaneously. Fourier-transform interferometers (FT-IRs) have become a very valuable device for volcanic gas studies (Love et al, 1998;Oppenheimer et al, 1998;Burton et al, 2000;Horrocks, 2001), including measurements of gas ratios reported by Oppenheimer et al (2002). Systems using ultraviolet light as a source have recently been developed for volcanic SO 2 measurements (McGonigle, 2005;Horton et al, 2006), for volcanic BrO measurements (Bobrowski et al, 2003), and also for CO 2 slantpath columns (Goff et al, 2001).…”

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confidence: 99%

Retrieval of sulfur dioxide from a ground-based thermal infrared imaging camera

Prata

Bernardo

2014

Atmos. Meas. Tech.

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Abstract. Recent advances in uncooled detector technology now offer the possibility of using relatively inexpensive thermal (7 to 14 µm) imaging devices as tools for studying and quantifying the behaviour of hazardous gases and particulates in atmospheric plumes. An experimental fast-sampling (60 Hz) ground-based uncooled thermal imager (Cyclops), operating with four spectral channels at central wavelengths of 8.6, 10, 11 and 12 µm and one broadband channel (7-14 µm) has been tested at several volcanoes and at an industrial site, where SO 2 was a major constituent of the plumes. This paper presents new algorithms, which include atmospheric corrections to the data and better calibrations to show that SO 2 slant column density can be reliably detected and quantified. Our results indicate that it is relatively easy to identify and discriminate SO 2 in plumes, but more challenging to quantify the column densities. A full description of the retrieval algorithms, illustrative results and a detailed error analysis are provided. The noise-equivalent temperature difference (NE T ) of the spectral channels, a fundamental measure of the quality of the measurements, lies between 0.4 and 0.8 K, resulting in slant column density errors of 20 %. Frame averaging and improved NE T 's can reduce this error to less than 10 %, making a stand-off, day or night operation of an instrument of this type very practical for both monitoring industrial SO 2 emissions and for SO 2 column densities and emission measurements at active volcanoes. The imaging camera system may also be used to study thermal radiation from meteorological clouds and the atmosphere.

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“…This value for total uncertainty seems to be high compared to active OP-FTIR investigations (Horrocks et al, 2001;Smith et al, 2011). The uncertainty in the temperature difference between background and considered atmospheric gas compound could be identified as the main error source for the passive measurements, and a threshold of 2 K for data filtering was defined.…”

Section: Uncertainty In Op-ftir Co 2 Measurementsmentioning

confidence: 99%

“…These doubts in the true ILS of the applied spectrometer can lead to uncertainties in smoothing of spectral information and later on in concentration determination errors. Horrocks et al (2001) estimated a concentration retrieval error of about 2 % due to an ILS uncertainty by measuring defined gas concentrations under fixed conditions. However, recent investigations concerning the sensitivity of OP-FTIR retrievals by Smith et al (2011) point out that using a broader spectral feature for concentration retrieval is suitable for the minimization of the effect of ILS on individual absorption lines.…”

Section: Uncertainty In Op-ftir Co 2 Measurementsmentioning

confidence: 99%

“…Infrared spectral data are mainly controlled by the environmental conditions such as pressure and temperature variations. Horrocks et al (2001) demonstrated that especially temperature has a significant impact on retrieval error and is an important parameter under consideration for subsequent data processing. The challenge in determining gas concentration using passive OP-FTIR under conditions with changing temperatures was described by Cieszczyk (2014).…”

Section: Uncertainty In Op-ftir Co 2 Measurementsmentioning

confidence: 99%

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Line-averaging measurement methods to estimate the gap in the CO<sub>2</sub> balance closure – possibilities, challenges, and uncertainties

2017

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Abstract. An imbalance of surface energy fluxes using the eddy covariance (EC) method is observed in global measurement networks although all necessary corrections and conversions are applied to the raw data. Mainly during nighttime, advection can occur, resulting in a closing gap that consequently should also affect the CO 2 balances. There is the crucial need for representative concentration and wind data to measure advective fluxes. Ground-based remote sensing techniques are an ideal tool as they provide the spatially representative CO 2 concentration together with wind components within the same voxel structure. For this purpose, the presented SQuAd (Spatially resolved Quantification of the Advection influence on the balance closure of greenhouse gases) approach applies an integrated method combination of acoustic and optical remote sensing. The innovative combination of acoustic travel-time tomography (A-TOM) and open-path Fourier-transform infrared spectroscopy (OP-FTIR) will enable an upscaling and enhancement of EC measurements. OP-FTIR instrumentation offers the significant advantage of real-time simultaneous measurements of lineaveraged concentrations for CO 2 and other greenhouse gases (GHGs). A-TOM is a scalable method to remotely resolve 3-D wind and temperature fields. The paper will give an overview about the proposed SQuAd approach and first results of experimental tests at the FLUXNET site Grillenburg in Germany.Preliminary results of the comprehensive experiments reveal a mean nighttime horizontal advection of CO 2 of about 10 µmol m −2 s −1 estimated by the spatially integrating and representative SQuAd method. Additionally, uncertainties in determining CO 2 concentrations using passive OP-FTIR and wind speed applying A-TOM are systematically quantified. The maximum uncertainty for CO 2 concentration was estimated due to environmental parameters, instrumental characteristics, and retrieval procedure with a total amount of approximately 30 % for a single measurement. Instantaneous wind components can be derived with a maximum uncertainty of 0.3 m s −1 depending on sampling, signal analysis, and environmental influences on sound propagation. Averaging over a period of 30 min, the standard error of the mean values can be decreased by a factor of at least 0.5 for OP-FTIR and 0.1 for A-TOM depending on the required spatial resolution. The presented validation of the joint application of the two independent, nonintrusive methods is in the focus of attention concerning their ability to quantify advective fluxes.

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Open‐path Fourier transform infrared spectroscopy of SO₂: An empirical error budget analysis, with implications for volcano monitoring

Cited by 41 publications

References 21 publications

Measurements of volcanic SO2 and CO2 fluxes by combined DOAS, Multi-GAS and FTIR observations: a case study from Turrialba and Telica volcanoes

Measurements of volcanic SO2 and CO2 fluxes by combined DOAS, Multi-GAS and FTIR observations: a case study from Turrialba and Telica volcanoes

Retrieval of sulfur dioxide from a ground-based thermal infrared imaging camera

Line-averaging measurement methods to estimate the gap in the CO<sub>2</sub> balance closure – possibilities, challenges, and uncertainties

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Open‐path Fourier transform infrared spectroscopy of SO2: An empirical error budget analysis, with implications for volcano monitoring

Cited by 41 publications

References 21 publications

Measurements of volcanic SO2 and CO2 fluxes by combined DOAS, Multi-GAS and FTIR observations: a case study from Turrialba and Telica volcanoes

Measurements of volcanic SO2 and CO2 fluxes by combined DOAS, Multi-GAS and FTIR observations: a case study from Turrialba and Telica volcanoes

Retrieval of sulfur dioxide from a ground-based thermal infrared imaging camera

Line-averaging measurement methods to estimate the gap in the CO&lt;sub&gt;2&lt;/sub&gt; balance closure – possibilities, challenges, and uncertainties

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Open‐path Fourier transform infrared spectroscopy of SO₂: An empirical error budget analysis, with implications for volcano monitoring

Line-averaging measurement methods to estimate the gap in the CO<sub>2</sub> balance closure – possibilities, challenges, and uncertainties