Overview of the Po valley fog experiment 1994 (CHEMDROP)

Sandro Fuzzi; Paolo Laj; Loretta Ricci; Giordano Orsi; Jost Heintzenberg; Manfred Wendisch; Brett Yuskiewicz; Stephan Mertes; Douglas Orsini; Marina Schwanz; Alfred Wiedensohler; Frank Stratmann; Olle H. Berg; Erik Swietlicki; Göran Frank; Bengt G. Martinsson; Armin Günther; Jens Peter Dierssen; Dieter Schell; Wolfgang Jaeschke; Axel Berner; Ulrike Dusek; Zsuzsanna Galambos; Christian Kruisz; Nigatu S. Mesfin; Wolfram Wobrock; Beate Arends; H. Ten Brink

Overview of the Po valley fog experiment 1994 (CHEMDROP)

Sandro Fuzzi, Paolo Laj, Loretta Ricci, Giordano Orsi, Jost Heintzenberg, Manfred Wendisch, Brett Yuskiewicz, Stephan Mertes, Douglas Orsini, Marina Schwanz, Alfred Wiedensohler, Frank Stratmann, Olle H. Berg, Erik Swietlicki, Göran Frank, Bengt G. Martinsson, Armin Günther, Jens Peter Dierssen, Dieter Schell, Wolfgang JaeschkeAxel Berner, Ulrike Dusek, Zsuzsanna Galambos, Christian Kruisz, Nigatu S. Mesfin, Wolfram Wobrock, Beate Arends, H. Ten Brink

Research output: Contribution to journal › Review article › peer-review

Abstract

The paper presents an outline of the CHEMDROP field experiment, carried out in November 1994 at the field station of S. Pietro Capofiume in the Po Valley, Italy. The main objective of the project was to address the issue of the size-dependent chemical composition of fog droplets, by experimentally investigating the following processes, which are expected to affect (or be affected by) the chemical composition of fog droplets as a function of size: a) the connection of the size-dependent chemical composition of CCN to the size-dependent composition of fog droplets; b) the gas/liquid partitioning of the gaseous species NH₃, SO₂, HCHO, HNO₃ in fog; c) the Fe(II)/Fe(III) redox cycle in fog water. Some general results and overall conclusions of the experiment are reported in this paper, while more specific scientific questions are discussed in other companion papers in this issue. CHEMDROP results show that several processes concur in determining the size-dependence of fog droplets chemical composition: nucleation scavenging of pre-existing CCN, fog dynamical evolution and gas/liquid exchange between interstitial air and fog droplets. Chemical transformations in the liquid phase can cause further changes in the chemical composition of the droplets. Only by taking into account the combination of all these processes, is it possible to explain the inhomogeneities in fog droplet chemical composition.

Original language	English
Pages (from-to)	3-19
Number of pages	17
Journal	Contributions to Atmospheric Physics
Volume	71
Issue number	1
Publication status	Published - 1998 Feb 1

Subject classification (UKÄ)

Meteorology and Atmospheric Sciences

Cite this

Fuzzi, S., Laj, P., Ricci, L., Orsi, G., Heintzenberg, J., Wendisch, M., Yuskiewicz, B., Mertes, S., Orsini, D., Schwanz, M., Wiedensohler, A., Stratmann, F., Berg, O. H., Swietlicki, E., Frank, G., Martinsson, B. G., Günther, A., Dierssen, J. P., Schell, D., ... Brink, H. T. (1998). Overview of the Po valley fog experiment 1994 (CHEMDROP). Contributions to Atmospheric Physics, 71(1), 3-19.

@article{b1bfe05768bc4b1bbb34006c83cf7d84,

title = "Overview of the Po valley fog experiment 1994 (CHEMDROP)",

abstract = "The paper presents an outline of the CHEMDROP field experiment, carried out in November 1994 at the field station of S. Pietro Capofiume in the Po Valley, Italy. The main objective of the project was to address the issue of the size-dependent chemical composition of fog droplets, by experimentally investigating the following processes, which are expected to affect (or be affected by) the chemical composition of fog droplets as a function of size: a) the connection of the size-dependent chemical composition of CCN to the size-dependent composition of fog droplets; b) the gas/liquid partitioning of the gaseous species NH3, SO2, HCHO, HNO3 in fog; c) the Fe(II)/Fe(III) redox cycle in fog water. Some general results and overall conclusions of the experiment are reported in this paper, while more specific scientific questions are discussed in other companion papers in this issue. CHEMDROP results show that several processes concur in determining the size-dependence of fog droplets chemical composition: nucleation scavenging of pre-existing CCN, fog dynamical evolution and gas/liquid exchange between interstitial air and fog droplets. Chemical transformations in the liquid phase can cause further changes in the chemical composition of the droplets. Only by taking into account the combination of all these processes, is it possible to explain the inhomogeneities in fog droplet chemical composition.",

author = "Sandro Fuzzi and Paolo Laj and Loretta Ricci and Giordano Orsi and Jost Heintzenberg and Manfred Wendisch and Brett Yuskiewicz and Stephan Mertes and Douglas Orsini and Marina Schwanz and Alfred Wiedensohler and Frank Stratmann and Berg, {Olle H.} and Erik Swietlicki and G{\"o}ran Frank and Martinsson, {Bengt G.} and Armin G{\"u}nther and Dierssen, {Jens Peter} and Dieter Schell and Wolfgang Jaeschke and Axel Berner and Ulrike Dusek and Zsuzsanna Galambos and Christian Kruisz and Mesfin, {Nigatu S.} and Wolfram Wobrock and Beate Arends and Brink, {H. Ten}",

year = "1998",

month = feb,

day = "1",

language = "English",

volume = "71",

pages = "3--19",

journal = "Contributions to Atmospheric Physics",

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number = "1",

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Fuzzi, S, Laj, P, Ricci, L, Orsi, G, Heintzenberg, J, Wendisch, M, Yuskiewicz, B, Mertes, S, Orsini, D, Schwanz, M, Wiedensohler, A, Stratmann, F, Berg, OH, Swietlicki, E , Frank, G , Martinsson, BG, Günther, A, Dierssen, JP, Schell, D, Jaeschke, W, Berner, A, Dusek, U, Galambos, Z, Kruisz, C, Mesfin, NS, Wobrock, W, Arends, B & Brink, HT 1998, 'Overview of the Po valley fog experiment 1994 (CHEMDROP)', Contributions to Atmospheric Physics, vol. 71, no. 1, pp. 3-19.

TY - JOUR

T1 - Overview of the Po valley fog experiment 1994 (CHEMDROP)

AU - Fuzzi, Sandro

AU - Laj, Paolo

AU - Ricci, Loretta

AU - Orsi, Giordano

AU - Heintzenberg, Jost

AU - Wendisch, Manfred

AU - Yuskiewicz, Brett

AU - Mertes, Stephan

AU - Orsini, Douglas

AU - Schwanz, Marina

AU - Wiedensohler, Alfred

AU - Stratmann, Frank

AU - Berg, Olle H.

AU - Swietlicki, Erik

AU - Frank, Göran

AU - Martinsson, Bengt G.

AU - Günther, Armin

AU - Dierssen, Jens Peter

AU - Schell, Dieter

AU - Jaeschke, Wolfgang

AU - Berner, Axel

AU - Dusek, Ulrike

AU - Galambos, Zsuzsanna

AU - Kruisz, Christian

AU - Mesfin, Nigatu S.

AU - Wobrock, Wolfram

AU - Arends, Beate

AU - Brink, H. Ten

PY - 1998/2/1

Y1 - 1998/2/1

N2 - The paper presents an outline of the CHEMDROP field experiment, carried out in November 1994 at the field station of S. Pietro Capofiume in the Po Valley, Italy. The main objective of the project was to address the issue of the size-dependent chemical composition of fog droplets, by experimentally investigating the following processes, which are expected to affect (or be affected by) the chemical composition of fog droplets as a function of size: a) the connection of the size-dependent chemical composition of CCN to the size-dependent composition of fog droplets; b) the gas/liquid partitioning of the gaseous species NH3, SO2, HCHO, HNO3 in fog; c) the Fe(II)/Fe(III) redox cycle in fog water. Some general results and overall conclusions of the experiment are reported in this paper, while more specific scientific questions are discussed in other companion papers in this issue. CHEMDROP results show that several processes concur in determining the size-dependence of fog droplets chemical composition: nucleation scavenging of pre-existing CCN, fog dynamical evolution and gas/liquid exchange between interstitial air and fog droplets. Chemical transformations in the liquid phase can cause further changes in the chemical composition of the droplets. Only by taking into account the combination of all these processes, is it possible to explain the inhomogeneities in fog droplet chemical composition.

AB - The paper presents an outline of the CHEMDROP field experiment, carried out in November 1994 at the field station of S. Pietro Capofiume in the Po Valley, Italy. The main objective of the project was to address the issue of the size-dependent chemical composition of fog droplets, by experimentally investigating the following processes, which are expected to affect (or be affected by) the chemical composition of fog droplets as a function of size: a) the connection of the size-dependent chemical composition of CCN to the size-dependent composition of fog droplets; b) the gas/liquid partitioning of the gaseous species NH3, SO2, HCHO, HNO3 in fog; c) the Fe(II)/Fe(III) redox cycle in fog water. Some general results and overall conclusions of the experiment are reported in this paper, while more specific scientific questions are discussed in other companion papers in this issue. CHEMDROP results show that several processes concur in determining the size-dependence of fog droplets chemical composition: nucleation scavenging of pre-existing CCN, fog dynamical evolution and gas/liquid exchange between interstitial air and fog droplets. Chemical transformations in the liquid phase can cause further changes in the chemical composition of the droplets. Only by taking into account the combination of all these processes, is it possible to explain the inhomogeneities in fog droplet chemical composition.

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M3 - Review article

AN - SCOPUS:0031746987

SN - 0005-8173

VL - 71

SP - 3

EP - 19

JO - Contributions to Atmospheric Physics

JF - Contributions to Atmospheric Physics

IS - 1

ER -

Overview of the Po valley fog experiment 1994 (CHEMDROP)

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