Mégapoles – Affi ner les modèles pour répondre aux besoins des clients

Bulletin, Vol. 64(1). Zilitinkevich Sergej; Kulmala M.; Esau Igor - OMM, 2016

L’urbanisation galopante, la détérioration de l’environnement et le changement climatique rendent les personnes, les organisations et les entreprises plus vulnérables aux dangers météorologiques et environnementaux. La vie moderne nous oblige à rester à tout moment intimement conscients de l’état de notre environnement personnel – conditions météorologiques et climatiques, et qualité de l’air, de l’eau et du sol – au travail, au foyer ou pendant nos loisirs, à l’intérieur ou à l’extérieur.1234

French

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Mégapoles – Affi ner les modèles pour répondre aux besoins des clients

Sergej Zilitinkevich ; M. Kulmala ; Igor Esau

in Bulletin > Vol. 64(1) (2015) . - p. 20-22

L’urbanisation galopante, la détérioration de l’environnement et le changement climatique rendent les personnes, les organisations et les entreprises plus vulnérables aux dangers météorologiques et environnementaux. La vie moderne nous oblige à rester à tout moment intimement conscients de l’état de notre environnement personnel – conditions météorologiques et climatiques, et qualité de l’air, de l’eau et du sol – au travail, au foyer ou pendant nos loisirs, à l’intérieur ou à l’extérieur.1234

Language(s): French; Other Languages: English, Russian, Spanish

Format: Digital (Free), Hard copy

Tags: Environment and landscape ; Air quality ; Urban zone Add tag

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Megacities – Refining Models to Client Environment

Bulletin, Vol. 64(1). Zilitinkevich Sergej; Kulmala M.; Esau Igor - WMO, 2015

Fast-growing urbanisation, environmental deterioration and climate change are making individuals, organisations and businesses more vulnerable to meteorological and environmental hazards. Modern life requires detailed knowledge about our immediate personal environment – the climate and weather as well as the air, water and soil quality – at work, home or play, may we be indoors or out.

English

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Megacities – Refining Models to Client Environment

  Available online: Full text

Sergej Zilitinkevich ; M. Kulmala ; Igor Esau

in Bulletin > Vol. 64(1) (2015) . - p.20-22

Fast-growing urbanisation, environmental deterioration and climate change are making individuals, organisations and businesses more vulnerable to meteorological and environmental hazards. Modern life requires detailed knowledge about our immediate personal environment – the climate and weather as well as the air, water and soil quality – at work, home or play, may we be indoors or out.

Language(s): English; Other Languages: French, Russian, Spanish

Format: Digital (Free), Hard copy

Tags: Environment and landscape ; Urban zone ; Air quality Add tag

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New particle formation events in semi-clean South African savannah

Atmospheric Chemistry and Physics (ACP), Vol. 11. N° 7. Vakkari V.; Laakso H.; Kulmala M.; et al. - Copernicus GmbH, 2011

This study is based on 18 months (20 July 2006–5 February 2008) of continuous measurements of aerosol particle size distributions, air ion size distributions, trace gas concentrations and basic meteorology in a semi-clean savannah environment in Republic of South Africa. New particle formation and growth was observed on 69% of the days and bursts of non-growing ions/sub-10 nm particles on additional 14% of the days. This new particle formation frequency is the highest reported from boundary layer so far. Also the new particle formation and growth rates were among the highest reported in the li ...

English

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New particle formation events in semi-clean South African savannah

  Available online: http://dx.doi.org/10.5194/acp-11-3333-2011

V. Vakkari ; H. Laakso ; M. Kulmala ; A. Laaksonen ; D. Mabaso ; M. Molefe ; N. Kgabi ; L. Laakso

in Atmospheric Chemistry and Physics (ACP) > Vol. 11. N° 7 [04/01/2011] . - p.3333-3346

This study is based on 18 months (20 July 2006–5 February 2008) of continuous measurements of aerosol particle size distributions, air ion size distributions, trace gas concentrations and basic meteorology in a semi-clean savannah environment in Republic of South Africa. New particle formation and growth was observed on 69% of the days and bursts of non-growing ions/sub-10 nm particles on additional 14% of the days. This new particle formation frequency is the highest reported from boundary layer so far. Also the new particle formation and growth rates were among the highest reported in the literature for continental boundary layer locations; median 10 nm formation rate was 2.2 cm−3 s−1 and median 10–30 nm growth rate 8.9 nm h−1. The median 2 nm ion formation rate was 0.5 cm−3 s−1 and the median ion growth rates were 6.2, 8.0 and 8.1 nm h−1 for size ranges 1.5–3 nm, 3–7 nm and 7–20 nm, respectively. The growth rates had a clear seasonal dependency with minimum during winter and maxima in spring and late summer. The relative contribution of estimated sulphuric acid to the growth rate was decreasing with increasing particle size and could explain more than 20% of the observed growth rate only for the 1.5–3 nm size range. Also the air mass history analysis indicated the highest formation and growth rates to be associated with the area of highest VOC (Volatile Organic Compounds) emissions following from biological activity rather than the highest estimated sulphuric acid concentrations. The frequency of new particle formation, however, increased nearly monotonously with the estimated sulphuric acid reaching 100% at H2SO4 concentration of 6 · 107 cm−3, which suggests the formation and growth to be independent of each other.

Language(s): English

Format: Digital (Free)

Tags: Aerosols ; Atmosphere ; Research ; Region I - Africa ; Sahara Add tag

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The effect of H2SO4 – amine clustering on chemical ionization mass spectrometry (CIMS) measurements of gas-phase sulfuric acid

Atmospheric Chemistry and Physics (ACP), Vol. 11. N° 3. Kurtén T.; Petäjä T.; Smith J.; et al. - Copernicus GmbH, 2011

The state-of-the art method for measuring atmospheric gas-phase sulfuric acid is chemical ionization mass spectrometry (CIMS) based on nitrate reagent ions. We have assessed the possible effect of the sulfuric acid molecules clustering with base molecules on CIMS measurements using computational chemistry. From the computational data, three conclusions can be drawn. First, a significant fraction of the gas-phase sulfuric acid molecules are very likely clustered with amines if the amine concentration is around or above a few ppt. Second, some fraction of these acid-amine clusters may not be cha ...

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The effect of H2SO4 – amine clustering on chemical ionization mass spectrometry (CIMS) measurements of gas-phase sulfuric acid

  Available online: http://dx.doi.org/10.5194/acp-11-3007-2011

T. Kurtén ; T. Petäjä ; J. Smith ; I.K. Ortega ; M. Sipilä ; H. Junninen ; M. Ehn ; H. Vehkamäki ; L. Mauldin ; D.R. Worsnop ; M. Kulmala

in Atmospheric Chemistry and Physics (ACP) > Vol. 11. N° 3 [03/01/2011] . - p.3007-3019

The state-of-the art method for measuring atmospheric gas-phase sulfuric acid is chemical ionization mass spectrometry (CIMS) based on nitrate reagent ions. We have assessed the possible effect of the sulfuric acid molecules clustering with base molecules on CIMS measurements using computational chemistry. From the computational data, three conclusions can be drawn. First, a significant fraction of the gas-phase sulfuric acid molecules are very likely clustered with amines if the amine concentration is around or above a few ppt. Second, some fraction of these acid-amine clusters may not be charged by the CIMS instrument, though the most reliable computational methods employed predict this fraction to be small; on the order of ten percent or less. Third, the amine molecules will evaporate practically immediately after charging, thus evading detection. These effects may need to be taken into account in the interpretation of atmospheric measurement data obtained using chemical ionization methods. The purpose of this study is not to criticize the CIMS method, but to help understand the implications of the measured results.

Language(s): English

Format: Digital (Free)

Tags: Atmosphere ; Environment and landscape ; Measure ; Observations ; Air pollution ; Research Add tag

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