2005
DOI: 10.5194/acp-5-2787-2005
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Atmospheric methanol measurement using selective catalytic methanol to formaldehyde conversion

Abstract: Abstract.A novel atmospheric methanol measurement technique, employing selective gas-phase catalytic conversion of methanol to formaldehyde followed by detection of the formaldehyde product, has been developed and tested. The effects of temperature, gas flow rate, gas composition, reactor-bed length, and reactor-bed composition on the methanol conversion efficiency of a molybdenum-rich, ironmolybdate catalyst [Mo-Fe-O] were studied. Best results were achieved using a 1:4 mixture (w/w) of the catalyst in quartz… Show more

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Cited by 16 publications
(17 citation statements)
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“…These emission factors are based on whole ecosystem net methanol flux measurements reported by 17 studies that characterized various ecosystems including tropical forest (Geron et al, 2002;Karl et al, 2004Karl et al, , 2007Langford et al, 2010), warm conifer forest (Karl et al, 2005), cool temperate conifer forest (Schade and Goldstein, 2001;Baker et al, 2001;Karl et al, 2002), temperate broadleaf forest and plantation (Spirig et al, 2005;Karl et al, 2003a;Jardine et al, 2008), boreal forest (Rinne et al, 2007), croplands (Warneke et al, 2002;Schade and Custer, 2004) and grassland (Kirstine et al, 1998;Fukui and Doskey, 1998;Ruuskanen et al, 2010). Among these studies, Kirstine et al (1998) and Fukui and Doskey (1998) have used whole ecosystem enclosure techniques with gas chromatography analysis to quantify emissions from grasslands, Schade and Goldstein (2001), Baker et al (2001) and Geron et al (2002) used above canopy relaxed eddy accumulation with gas chromatography analysis to measure methanol fluxes above forests, whereas all the other studies used protontransfer reaction mass spectroscopy (PTR-MS) and the eddy covariance, or disjunct eddy covariance, approach (see Karl et al, 2002).…”
Section: The Meganv21 Algorithmmentioning
confidence: 99%
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“…These emission factors are based on whole ecosystem net methanol flux measurements reported by 17 studies that characterized various ecosystems including tropical forest (Geron et al, 2002;Karl et al, 2004Karl et al, , 2007Langford et al, 2010), warm conifer forest (Karl et al, 2005), cool temperate conifer forest (Schade and Goldstein, 2001;Baker et al, 2001;Karl et al, 2002), temperate broadleaf forest and plantation (Spirig et al, 2005;Karl et al, 2003a;Jardine et al, 2008), boreal forest (Rinne et al, 2007), croplands (Warneke et al, 2002;Schade and Custer, 2004) and grassland (Kirstine et al, 1998;Fukui and Doskey, 1998;Ruuskanen et al, 2010). Among these studies, Kirstine et al (1998) and Fukui and Doskey (1998) have used whole ecosystem enclosure techniques with gas chromatography analysis to quantify emissions from grasslands, Schade and Goldstein (2001), Baker et al (2001) and Geron et al (2002) used above canopy relaxed eddy accumulation with gas chromatography analysis to measure methanol fluxes above forests, whereas all the other studies used protontransfer reaction mass spectroscopy (PTR-MS) and the eddy covariance, or disjunct eddy covariance, approach (see Karl et al, 2002).…”
Section: The Meganv21 Algorithmmentioning
confidence: 99%
“…Long-term BVOC ecosystem-scale flux measurements were performed from a 52 m high tower by the disjunct eddycovariance technique (see e.g. Spirig et al, 2005) (Senten et al, 2008;Vigouroux et al, 2009). For this work we focus on the period between June and December 2009.…”
Section: Inverse Modelling Approachmentioning
confidence: 99%
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“…The aqueous HCHO then reacts with NH + 4 and acetyl acetone (Hantzsch reaction) inside the liquid reactor forming a fluorescent product, 3,5-diacetyl-1,4-dihydrolutidine (DDL), which is continuously monitored. For the experiments presented here a two-way inlet system was used to allow semi-continuous measurements of HCHO and methanol (Solomon et al, 2005). Air was sampled at a constant flow rate of 1.7 l min −1 (STP) from the glass manifold via a Teflon PFA tube (OD=6.35 mm), passed through a Teflon pump (KNF Neuberger Inc., Model N86 KTDC B, Trenton, New Jersey, USA) and directed into a 3-way PFA Teflon valve (Metron Technologies, Unterschleissheim, Germany) where it was either diverted through a catalytic methanol-to-formaldehyde converter for methanol measurements or directly led to the instrument for HCHO measurements (Solomon et al, 2005).…”
Section: Hantzsch Ma-100 (Iup-ub)mentioning
confidence: 99%
“…For the experiments presented here a two-way inlet system was used to allow semi-continuous measurements of HCHO and methanol (Solomon et al, 2005). Air was sampled at a constant flow rate of 1.7 l min −1 (STP) from the glass manifold via a Teflon PFA tube (OD=6.35 mm), passed through a Teflon pump (KNF Neuberger Inc., Model N86 KTDC B, Trenton, New Jersey, USA) and directed into a 3-way PFA Teflon valve (Metron Technologies, Unterschleissheim, Germany) where it was either diverted through a catalytic methanol-to-formaldehyde converter for methanol measurements or directly led to the instrument for HCHO measurements (Solomon et al, 2005). Gas phase HCHO calibration was performed using a permeation tube-based gas standard generator (KIN-TEK, Model 491 MB, LaMarque, Texas, USA) providing an accuracy of 8%.…”
Section: Hantzsch Ma-100 (Iup-ub)mentioning
confidence: 99%