Institute of Climate and Energy Systems

Institute of Climate and Energy Systems (ICE) - Troposphere (ICE-3)

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2,691 to 2,700 of 2,709 Results

Scm_xcaaba.log Apr 23, 2021 - Model output from CAABA/MECCA obtained during the development of JAMOC Plain Text - 80.9 KB - SHA-256: 10d97d1a5146e150b6f94449cb7872c0f6ca0a9dde8f78d8d137d2339b35add5 CAABA/MECCA log-file from the simulation using the minimum aqueous-phase mechanism (Scm).
Formaldehyde Comparison (CRDS, DOAS, Hantzsch) SAPHIR chamber 2019 Feb 24, 2021 Fuchs, Hendrik; Glowania, Marvin; Dorn, Hans-Peter; Rohrer, Franz, 2021, "Formaldehyde Comparison (CRDS, DOAS, Hantzsch) SAPHIR chamber 2019", https://doi.org/10.26165/JUELICH-DATA/VE2KNS, Jülich DATA, V1 Three instruments using different techniques were used to measure gaseous formaldehyde (HCHO) concentrations in experiments in the atmospheric simulation chamber SAPHIR at Forschungszentrum Jülich. One instrument detected HCHO by using the wet-chemical Hantzsch reaction for effic...
paper_HCHOComp_alldata.edf Feb 24, 2021 - Formaldehyde Comparison (CRDS, DOAS, Hantzsch) SAPHIR chamber 2019 Unknown - 7.0 MB - SHA-256: c2d383e86770ea20416e5ee52ba4cc03296b5414e2f72d15eaa360df07caaa41 Data Time synchronized ASCII file of time series of trace gases used in the comparison.
Characterization and application of a chemical modulation reactor during the JULIAC campaign Feb 23, 2021 Cho, Changmin; Hofzumahaus, Andreas; Fuchs, Hendrik; Dorn, Hans-Peter; Glowania, Marvin; Holland, Frank; Rohrer, Franz; Vardhan, Vaishali; Kiendler-Scharr, Astrid; Wahner, Andreas; Novelli, Anna, 2021, "Characterization and application of a chemical modulation reactor during the JULIAC campaign", https://doi.org/10.26165/JUELICH-DATA/GK7PJQ, Jülich DATA, V1 Laser-induced fluorescence (LIF) is a widely used technique for the measurement of ambient hydroxyl (OH) radicals and was used for the majority of field campaigns and chamber experiments. Recently, most LIF instruments in use for atmospheric measurements of OH radicals introduced...
juliac1.ALL_DATA_CMR.edf Feb 23, 2021 - Characterization and application of a chemical modulation reactor during the JULIAC campaign Unknown - 4.6 MB - SHA-256: 31ec79a692e9b9db1e173a21e4bed963e1b45a3535474a1f2bfc43a1f8cf8a57 Time synchronized time series of concentrations used for the characterization of the CMR system from the winter period of the JULIAC campaign.
juliac2.ALL_DATA_CMR.edf Feb 23, 2021 - Characterization and application of a chemical modulation reactor during the JULIAC campaign Unknown - 4.9 MB - SHA-256: 9f6805dd6dd94588d60d84c7e916ed0c6cd31c40a5be4ebcede9a782dc6043c2 Time synchronized time series of concentrations used for the characterization of the CMR system from the spring period of the JULIAC campaign.
juliac3.ALL_DATA_CMR.edf Feb 23, 2021 - Characterization and application of a chemical modulation reactor during the JULIAC campaign Unknown - 6.3 MB - SHA-256: de2283fc987b42dca8af85b2111b12b7eb679e3999ac2a6f0dae7eb48eefdc6d Time synchronized time series of concentrations used for the characterization of the CMR system from the summer period of the JULIAC campaign.
juliac4.ALL_DATA_CMR.edf Feb 23, 2021 - Characterization and application of a chemical modulation reactor during the JULIAC campaign Unknown - 5.5 MB - SHA-256: ce040943b1fbbb7e4dcef165f3ae9addc59ba981fb33a07d70e73abca22deb19 Time synchronized time series of concentrations used for the characterization of the CMR system from the fall period of the JULIAC campaign.
2016 field campaign BEST-ONE (Beijing winter fine particulate Study - Oxidation, Nucleation, and light Extinctions) Nov 3, 2020 Gkatzelis, Georgios; Dimitrios K. Papanastasiou; Vlassis A. Karydis; Thorsten Hohaus; Ying Liu; Sebastian H. Schmitt; Patrick Schlag; Hendrik Fuchs; Anna Novelli; Qi Chen; Xi Cheng; Sebastian Broch; Huabin Dong; Frank Holland; Xin Li; Yuhan Liu; Xuefei Ma; David Reimer; Franz Rohrer; Min Shao; Zhaofeng Tan; Domenico Taraborrelli; Ralf Tillmann; Haichao Wang; Yu Wang; Yusheng Wu; Zhijun Wu; Limin Zheng; Jun Zheng; Min Hu; Keding Lu; Andreas Hofzumahaus; Yuanhang Zhang; Andreas Wahner; Astrid Kiendler-Scharr, 2020, "2016 field campaign BEST-ONE (Beijing winter fine particulate Study - Oxidation, Nucleation, and light Extinctions)", https://doi.org/10.26165/JUELICH-DATA/BQOLQF, Jülich DATA, V1 This dataset is based on the 2016 field campaign BEST-ONE (Beijing winter fine particulate Study - Oxidation, Nucleation, and light Extinctions) and is a product of the International Joint Laboratory for Regional Pollution Control, Jülich, Germany, and Beijing, China. More specif...
GasPhase_GCMS_ConcentrationData_timeseries.csv Nov 3, 2020 - 2016 field campaign BEST-ONE (Beijing winter fine particulate Study - Oxidation, Nucleation, and light Extinctions) Plain Text - 465.7 KB - SHA-256: 72cc1d63c0dab342f8fee40d38720ba0c6e56a7f2d8c4a668c30aedf843ed1e9 Time-series of gas-phase compounds measured by Gas Chromatography-Mass Spectrometry (GC-MS). For each column, the naming e.g. "MethyleneChloride_ppbv", corresponds to the name of the compound (MethyleneChloride), and the measurement units (ppbv=parts per billion). The value -9999...

Scm_xcaaba.log

Apr 23, 2021 - Model output from CAABA/MECCA obtained during the development of JAMOC

Plain Text - 80.9 KB - SHA-256: 10d97d1a5146e150b6f94449cb7872c0f6ca0a9dde8f78d8d137d2339b35add5

CAABA/MECCA log-file from the simulation using the minimum aqueous-phase mechanism (Scm).

Formaldehyde Comparison (CRDS, DOAS, Hantzsch) SAPHIR chamber 2019

Feb 24, 2021

Fuchs, Hendrik; Glowania, Marvin; Dorn, Hans-Peter; Rohrer, Franz, 2021, "Formaldehyde Comparison (CRDS, DOAS, Hantzsch) SAPHIR chamber 2019", https://doi.org/10.26165/JUELICH-DATA/VE2KNS, Jülich DATA, V1

Three instruments using different techniques were used to measure gaseous formaldehyde (HCHO) concentrations in experiments in the atmospheric simulation chamber SAPHIR at Forschungszentrum Jülich. One instrument detected HCHO by using the wet-chemical Hantzsch reaction for effic...

paper_HCHOComp_alldata.edf

Feb 24, 2021 - Formaldehyde Comparison (CRDS, DOAS, Hantzsch) SAPHIR chamber 2019

Unknown - 7.0 MB - SHA-256: c2d383e86770ea20416e5ee52ba4cc03296b5414e2f72d15eaa360df07caaa41

Data

Time synchronized ASCII file of time series of trace gases used in the comparison.

Characterization and application of a chemical modulation reactor during the JULIAC campaign

Feb 23, 2021

Cho, Changmin; Hofzumahaus, Andreas; Fuchs, Hendrik; Dorn, Hans-Peter; Glowania, Marvin; Holland, Frank; Rohrer, Franz; Vardhan, Vaishali; Kiendler-Scharr, Astrid; Wahner, Andreas; Novelli, Anna, 2021, "Characterization and application of a chemical modulation reactor during the JULIAC campaign", https://doi.org/10.26165/JUELICH-DATA/GK7PJQ, Jülich DATA, V1

Laser-induced fluorescence (LIF) is a widely used technique for the measurement of ambient hydroxyl (OH) radicals and was used for the majority of field campaigns and chamber experiments. Recently, most LIF instruments in use for atmospheric measurements of OH radicals introduced...

juliac1.ALL_DATA_CMR.edf

Feb 23, 2021 - Characterization and application of a chemical modulation reactor during the JULIAC campaign

Unknown - 4.6 MB - SHA-256: 31ec79a692e9b9db1e173a21e4bed963e1b45a3535474a1f2bfc43a1f8cf8a57

Time synchronized time series of concentrations used for the characterization of the CMR system from the winter period of the JULIAC campaign.

juliac2.ALL_DATA_CMR.edf

Feb 23, 2021 - Characterization and application of a chemical modulation reactor during the JULIAC campaign

Unknown - 4.9 MB - SHA-256: 9f6805dd6dd94588d60d84c7e916ed0c6cd31c40a5be4ebcede9a782dc6043c2

Time synchronized time series of concentrations used for the characterization of the CMR system from the spring period of the JULIAC campaign.

juliac3.ALL_DATA_CMR.edf

Feb 23, 2021 - Characterization and application of a chemical modulation reactor during the JULIAC campaign

Unknown - 6.3 MB - SHA-256: de2283fc987b42dca8af85b2111b12b7eb679e3999ac2a6f0dae7eb48eefdc6d

Time synchronized time series of concentrations used for the characterization of the CMR system from the summer period of the JULIAC campaign.

juliac4.ALL_DATA_CMR.edf

Feb 23, 2021 - Characterization and application of a chemical modulation reactor during the JULIAC campaign

Unknown - 5.5 MB - SHA-256: ce040943b1fbbb7e4dcef165f3ae9addc59ba981fb33a07d70e73abca22deb19

Time synchronized time series of concentrations used for the characterization of the CMR system from the fall period of the JULIAC campaign.

2016 field campaign BEST-ONE (Beijing winter fine particulate Study - Oxidation, Nucleation, and light Extinctions)

Nov 3, 2020

Gkatzelis, Georgios; Dimitrios K. Papanastasiou; Vlassis A. Karydis; Thorsten Hohaus; Ying Liu; Sebastian H. Schmitt; Patrick Schlag; Hendrik Fuchs; Anna Novelli; Qi Chen; Xi Cheng; Sebastian Broch; Huabin Dong; Frank Holland; Xin Li; Yuhan Liu; Xuefei Ma; David Reimer; Franz Rohrer; Min Shao; Zhaofeng Tan; Domenico Taraborrelli; Ralf Tillmann; Haichao Wang; Yu Wang; Yusheng Wu; Zhijun Wu; Limin Zheng; Jun Zheng; Min Hu; Keding Lu; Andreas Hofzumahaus; Yuanhang Zhang; Andreas Wahner; Astrid Kiendler-Scharr, 2020, "2016 field campaign BEST-ONE (Beijing winter fine particulate Study - Oxidation, Nucleation, and light Extinctions)", https://doi.org/10.26165/JUELICH-DATA/BQOLQF, Jülich DATA, V1

This dataset is based on the 2016 field campaign BEST-ONE (Beijing winter fine particulate Study - Oxidation, Nucleation, and light Extinctions) and is a product of the International Joint Laboratory for Regional Pollution Control, Jülich, Germany, and Beijing, China. More specif...

GasPhase_GCMS_ConcentrationData_timeseries.csv

Nov 3, 2020 - 2016 field campaign BEST-ONE (Beijing winter fine particulate Study - Oxidation, Nucleation, and light Extinctions)

Plain Text - 465.7 KB - SHA-256: 72cc1d63c0dab342f8fee40d38720ba0c6e56a7f2d8c4a668c30aedf843ed1e9

Time-series of gas-phase compounds measured by Gas Chromatography-Mass Spectrometry (GC-MS). For each column, the naming e.g. "MethyleneChloride_ppbv", corresponds to the name of the compound (MethyleneChloride), and the measurement units (ppbv=parts per billion). The value -9999...

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