Condensables_CI-APi-TOF_xx_EUPHORE
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Download all versions as JSON – optionally filtered by date range.
10 Version(s)
Version
9
current
🕒 2026-02-09 07:24:39
👤 User 1 (admin)
Name: Condensables_CI-APi-TOF_xx_EUPHORE
Status:
operational
Inlet from:
9999-01-01
{
"calibration": {
"frequency": {
"_type": "text",
"text": "When needed"
},
"method": {
"_type": "text",
"text": "Injections into chamber"
}
},
"compounds": {
"bool_compounds": {
"_type": "bool",
"value": false
},
"compounds": []
},
"data_qa_qc": {
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"_type": "bool",
"value": false
},
"bool_other": {
"_type": "bool",
"value": false
},
"bool_ratios": {
"_type": "bool",
"value": true
},
"bool_voc": {
"_type": "bool",
"value": false
}
},
"data_submission": {
"databases": [
{
"database": {
"_type": "text",
"text": "ACTRIS"
},
"submission": {
"_type": "quantity",
"dimensionality": "[time]",
"magnitude": 1.0,
"magnitude_in_base_units": 31557600.0,
"units": "years"
}
}
]
},
"date_of_full_operation": {
"_type": "datetime",
"utc_datetime": "2021-09-01 00:00:00"
},
"facility_name": {
"_type": "object_reference",
"object_id": 14
},
"inlet_system": {
"applied_from": {
"_type": "datetime",
"utc_datetime": "9999-01-01 00:00:00"
},
"applied_until": {
"_type": "datetime",
"utc_datetime": "9999-01-01 00:00:00"
},
"distance_from_nox_inlet": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 1.5,
"magnitude_in_base_units": 1.5,
"units": "m"
},
"distance_from_ozone_inlet": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 2.0,
"magnitude_in_base_units": 2.0,
"units": "m"
},
"distance_from_voc_inlet": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 1.5,
"magnitude_in_base_units": 1.5,
"units": "m"
},
"filter_inlet_material": {
"_type": "text",
"text": "None"
},
"inlet_line_heating_bool": {
"_type": "bool",
"value": false
},
"inlet_tube_material": {
"_type": "text",
"text": "PTFE"
},
"measurement_height_above_ground": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 0.2,
"magnitude_in_base_units": 0.2,
"units": "m"
},
"residence_time": {
"_type": "quantity",
"dimensionality": "[time]",
"magnitude": 1.7,
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"units": "s"
}
},
"instrument_type": {
"_type": "object_reference",
"object_id": 510
},
"mass_analyzer": {
"applied_from": {
"_type": "datetime",
"utc_datetime": "9999-01-01 00:00:00"
},
"applied_until": {
"_type": "datetime",
"utc_datetime": "9999-01-01 00:00:00"
},
"filter": {
"_type": "text",
"text": "FIGAERO"
},
"filter_bool": {
"_type": "bool",
"value": true
},
"instrument_manufacturer": {
"_type": "object_reference",
"object_id": 544
},
"mass_resolution": {
"_type": "text",
"text": {
"en": "4000-6500"
}
},
"reagent_ions": {
"_type": "text",
"text": "Iodide"
},
"sample_flow": {
"_type": "quantity",
"dimensionality": "[length] ** 3 / [time]",
"magnitude": 2.0,
"magnitude_in_base_units": 3.3333333333333335e-05,
"units": "l/min"
},
"sample_flow_treatment": {
"_type": "bool",
"value": true
},
"time_of_flight": {
"_type": "text",
"text": "L-TOF"
},
"total_air_flow": {
"_type": "quantity",
"dimensionality": "[length] ** 3 / [time]",
"magnitude": 3.3,
"magnitude_in_base_units": 5.5e-05,
"units": "l/min"
},
"type": {
"_type": "text",
"text": "Time-of-Flight"
}
},
"measurement_qa_qc": {
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"_type": "quantity",
"dimensionality": "[time]",
"magnitude": 1.0,
"magnitude_in_base_units": 86400.0,
"units": "days"
},
"instrument_log_book": {
"_type": "text",
"text": "Hard copy"
}
},
"name": {
"_type": "text",
"text": {
"en": "Condensables_CI-APi-TOF_xx_EUPHORE"
}
},
"notes": {
"data": {
"_type": "text",
"is_markdown": true,
"text": {
"en": "* Pressure in the chemical ionization region: Api\r\n* checklist: On days of experiment and previous to a campaign\r\n* Comment from CiGas-UHEL: Currently we support the measurements of condensable vapours/aerosol precursors such as sulfuric acid and highly oxygenated organics. We value the measurements of less oxidized organic acids and chemical composition of aerosols, but as a unit we do not have yet resources to support all the chemical ionization methods with mass spectrometry. As FIGAERO is measuring both aerosol and gas composition we will start discussions with aerosol-in-situ central facility about how to include it to ACTRIS.\r\n"
}
}
},
"ready": {
"_type": "bool",
"value": false
},
"status": {
"_type": "text",
"text": "operational"
}
}
▶ v 8 🕒 2026-01-08 16:44:44 👤 User 1 (admin) operational
🕒 2026-01-08 16:44:44
👤 User 1 (admin)
Name: Condensables_CI-APi-TOF_xx_EUPHORE
Status:
operational
{
"calibration": {
"frequency": {
"_type": "text",
"text": "When needed"
},
"method": {
"_type": "text",
"text": "Injections into chamber"
}
},
"compounds": {
"bool_compounds": {
"_type": "bool",
"value": false
},
"compounds": []
},
"data_qa_qc": {
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"_type": "bool",
"value": false
},
"bool_other": {
"_type": "bool",
"value": false
},
"bool_ratios": {
"_type": "bool",
"value": true
},
"bool_voc": {
"_type": "bool",
"value": false
}
},
"data_submission": {
"databases": [
{
"database": {
"_type": "text",
"text": "ACTRIS"
},
"submission": {
"_type": "quantity",
"dimensionality": "[time]",
"magnitude": 1.0,
"magnitude_in_base_units": 31557600.0,
"units": "years"
}
}
]
},
"date_of_full_operation": {
"_type": "datetime",
"utc_datetime": "2021-09-01 00:00:00"
},
"facility_name": {
"_type": "object_reference",
"object_id": 14
},
"inlet_system": {
"distance_from_nox_inlet": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 1.5,
"magnitude_in_base_units": 1.5,
"units": "m"
},
"distance_from_ozone_inlet": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 2.0,
"magnitude_in_base_units": 2.0,
"units": "m"
},
"distance_from_voc_inlet": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 1.5,
"magnitude_in_base_units": 1.5,
"units": "m"
},
"filter_inlet_material": {
"_type": "text",
"text": "None"
},
"inlet_line_heating_bool": {
"_type": "bool",
"value": false
},
"inlet_tube_material": {
"_type": "text",
"text": "PTFE"
},
"measurement_height_above_ground": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 0.2,
"magnitude_in_base_units": 0.2,
"units": "m"
},
"residence_time": {
"_type": "quantity",
"dimensionality": "[time]",
"magnitude": 1.7,
"magnitude_in_base_units": 1.7,
"units": "s"
}
},
"instrument_type": {
"_type": "object_reference",
"object_id": 510
},
"mass_analyzer": {
"filter": {
"_type": "text",
"text": "FIGAERO"
},
"filter_bool": {
"_type": "bool",
"value": true
},
"instrument_manufacturer": {
"_type": "object_reference",
"object_id": 544
},
"mass_resolution": {
"_type": "text",
"text": {
"en": "4000-6500"
}
},
"reagent_ions": {
"_type": "text",
"text": "Iodide"
},
"sample_flow": {
"_type": "quantity",
"dimensionality": "[length] ** 3 / [time]",
"magnitude": 2.0,
"magnitude_in_base_units": 3.3333333333333335e-05,
"units": "l/min"
},
"sample_flow_treatment": {
"_type": "bool",
"value": true
},
"time_of_flight": {
"_type": "text",
"text": "L-TOF"
},
"total_air_flow": {
"_type": "quantity",
"dimensionality": "[length] ** 3 / [time]",
"magnitude": 3.3,
"magnitude_in_base_units": 5.5e-05,
"units": "l/min"
},
"type": {
"_type": "text",
"text": "Time-of-Flight"
}
},
"measurement_qa_qc": {
"checklist": {
"_type": "quantity",
"dimensionality": "[time]",
"magnitude": 1.0,
"magnitude_in_base_units": 86400.0,
"units": "days"
},
"instrument_log_book": {
"_type": "text",
"text": "Hard copy"
}
},
"name": {
"_type": "text",
"text": {
"en": "Condensables_CI-APi-TOF_xx_EUPHORE"
}
},
"notes": {
"data": {
"_type": "text",
"is_markdown": true,
"text": {
"en": "* Pressure in the chemical ionization region: Api\r\n* checklist: On days of experiment and previous to a campaign\r\n* Comment from CiGas-UHEL: Currently we support the measurements of condensable vapours/aerosol precursors such as sulfuric acid and highly oxygenated organics. We value the measurements of less oxidized organic acids and chemical composition of aerosols, but as a unit we do not have yet resources to support all the chemical ionization methods with mass spectrometry. As FIGAERO is measuring both aerosol and gas composition we will start discussions with aerosol-in-situ central facility about how to include it to ACTRIS.\r\n"
}
}
},
"status": {
"_type": "text",
"text": "operational"
}
}
▶ v 7 🕒 2026-01-08 16:42:34 👤 User 1 (admin) operational
🕒 2026-01-08 16:42:34
👤 User 1 (admin)
Name: Condensables_CI-APi-TOF_xx_EUPHORE
Status:
operational
{
"calibration": {
"frequency": {
"_type": "text",
"text": "When needed"
},
"method": {
"_type": "text",
"text": "Injections into chamber"
}
},
"compounds": {
"bool_compounds": {
"_type": "bool",
"value": false
},
"compounds": []
},
"data_qa_qc": {
"bool_calibrations": {
"_type": "bool",
"value": false
},
"bool_other": {
"_type": "bool",
"value": false
},
"bool_ratios": {
"_type": "bool",
"value": true
},
"bool_voc": {
"_type": "bool",
"value": false
}
},
"data_submission": {
"databases": [
{
"database": {
"_type": "text",
"text": "ACTRIS"
},
"submission": {
"_type": "quantity",
"dimensionality": "[time]",
"magnitude": 1.0,
"magnitude_in_base_units": 31557600.0,
"units": "years"
}
}
]
},
"date_of_full_operation": {
"_type": "datetime",
"utc_datetime": "2021-09-01 00:00:00"
},
"facility_name": {
"_type": "object_reference",
"object_id": 14
},
"inlet_system": {
"distance_from_nox_inlet": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 1.5,
"magnitude_in_base_units": 1.5,
"units": "m"
},
"distance_from_ozone_inlet": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 2.0,
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"units": "m"
},
"distance_from_voc_inlet": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 1.5,
"magnitude_in_base_units": 1.5,
"units": "m"
},
"filter_inlet_material": {
"_type": "text",
"text": "None"
},
"inlet_line_heating_bool": {
"_type": "bool",
"value": false
},
"inlet_tube_material": {
"_type": "text",
"text": "PTFE"
},
"measurement_height_above_ground": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 0.2,
"magnitude_in_base_units": 0.2,
"units": "m"
},
"residence_time": {
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"units": "s"
}
},
"instrument_type": {
"_type": "object_reference",
"object_id": 510
},
"mass_analyzer": {
"filter": {
"_type": "text",
"text": "FIGAERO"
},
"filter_bool": {
"_type": "bool",
"value": true
},
"instrument_manufacturer": {
"_type": "object_reference",
"object_id": 544
},
"mass_resolution": {
"_type": "text",
"text": {
"en": "4000-6500"
}
},
"reagent_ions": {
"_type": "text",
"text": "Iodide"
},
"sample_flow": {
"_type": "quantity",
"dimensionality": "[length] ** 3 / [time]",
"magnitude": 2.0,
"magnitude_in_base_units": 3.3333333333333335e-05,
"units": "l/min"
},
"sample_flow_treatment": {
"_type": "bool",
"value": true
},
"time_of_flight": {
"_type": "text",
"text": "L-TOF"
},
"total_air_flow": {
"_type": "quantity",
"dimensionality": "[length] ** 3 / [time]",
"magnitude": 3.3,
"magnitude_in_base_units": 5.5e-05,
"units": "l/min"
},
"type": {
"_type": "text",
"text": "Time-of-Flight"
}
},
"measurement_qa_qc": {
"checklist": {
"_type": "quantity",
"dimensionality": "[time]",
"magnitude": 1.0,
"magnitude_in_base_units": 86400.0,
"units": "days"
},
"instrument_log_book": {
"_type": "text",
"text": "Hard copy"
}
},
"name": {
"_type": "text",
"text": {
"en": "Condensables_CI-APi-TOF_xx_EUPHORE"
}
},
"notes": {
"data": {
"_type": "text",
"is_markdown": true,
"text": {
"en": "* Pressure in the chemical ionization region: Api\r\n* checklist: On days of experiment and previous to a campaign\r\n* Comment from CiGas-UHEL: Currently we support the measurements of condensable vapours/aerosol precursors such as sulfuric acid and highly oxygenated organics. We value the measurements of less oxidized organic acids and chemical composition of aerosols, but as a unit we do not have yet resources to support all the chemical ionization methods with mass spectrometry. As FIGAERO is measuring both aerosol and gas composition we will start discussions with aerosol-in-situ central facility about how to include it to ACTRIS.\r\n"
}
}
},
"status": {
"_type": "text",
"text": "operational"
}
}
▶ v 6 🕒 2025-12-22 09:02:18 👤 User 1 (admin) operational
🕒 2025-12-22 09:02:18
👤 User 1 (admin)
Name: Condensables_CI-APi-TOF_EUPHORE
Status:
operational
{
"calibration": {
"frequency": {
"_type": "text",
"text": "When needed"
},
"method": {
"_type": "text",
"text": "Injections into chamber"
}
},
"compounds": {
"bool_compounds": {
"_type": "bool",
"value": false
},
"compounds": []
},
"data_qa_qc": {
"bool_calibrations": {
"_type": "bool",
"value": false
},
"bool_other": {
"_type": "bool",
"value": false
},
"bool_ratios": {
"_type": "bool",
"value": true
},
"bool_voc": {
"_type": "bool",
"value": false
}
},
"data_submission": {
"databases": [
{
"database": {
"_type": "text",
"text": "ACTRIS"
},
"submission": {
"_type": "quantity",
"dimensionality": "[time]",
"magnitude": 1.0,
"magnitude_in_base_units": 31557600.0,
"units": "years"
}
}
]
},
"date_of_full_operation": {
"_type": "datetime",
"utc_datetime": "2021-09-01 00:00:00"
},
"facility_name": {
"_type": "object_reference",
"object_id": 14
},
"inlet_system": {
"distance_from_nox_inlet": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 1.5,
"magnitude_in_base_units": 1.5,
"units": "m"
},
"distance_from_ozone_inlet": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 2.0,
"magnitude_in_base_units": 2.0,
"units": "m"
},
"distance_from_voc_inlet": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 1.5,
"magnitude_in_base_units": 1.5,
"units": "m"
},
"filter_inlet_material": {
"_type": "text",
"text": "None"
},
"inlet_line_heating_bool": {
"_type": "bool",
"value": false
},
"inlet_tube_material": {
"_type": "text",
"text": "PTFE"
},
"measurement_height_above_ground": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 0.2,
"magnitude_in_base_units": 0.2,
"units": "m"
},
"residence_time": {
"_type": "quantity",
"dimensionality": "[time]",
"magnitude": 1.7,
"magnitude_in_base_units": 1.7,
"units": "s"
}
},
"instrument_type": {
"_type": "object_reference",
"object_id": 510
},
"mass_analyzer": {
"filter": {
"_type": "text",
"text": "FIGAERO"
},
"filter_bool": {
"_type": "bool",
"value": true
},
"instrument_manufacturer": {
"_type": "object_reference",
"object_id": 544
},
"mass_resolution": {
"_type": "text",
"text": {
"en": "4000-6500"
}
},
"reagent_ions": {
"_type": "text",
"text": "Iodide"
},
"sample_flow": {
"_type": "quantity",
"dimensionality": "[length] ** 3 / [time]",
"magnitude": 2.0,
"magnitude_in_base_units": 3.3333333333333335e-05,
"units": "l/min"
},
"sample_flow_treatment": {
"_type": "bool",
"value": true
},
"time_of_flight": {
"_type": "text",
"text": "L-TOF"
},
"total_air_flow": {
"_type": "quantity",
"dimensionality": "[length] ** 3 / [time]",
"magnitude": 3.3,
"magnitude_in_base_units": 5.5e-05,
"units": "l/min"
},
"type": {
"_type": "text",
"text": "Time-of-Flight"
}
},
"measurement_qa_qc": {
"checklist": {
"_type": "quantity",
"dimensionality": "[time]",
"magnitude": 1.0,
"magnitude_in_base_units": 86400.0,
"units": "days"
},
"instrument_log_book": {
"_type": "text",
"text": "Hard copy"
}
},
"name": {
"_type": "text",
"text": {
"en": "Condensables_CI-APi-TOF_EUPHORE"
}
},
"notes": {
"data": {
"_type": "text",
"is_markdown": true,
"text": {
"en": "* Pressure in the chemical ionization region: Api\r\n* checklist: On days of experiment and previous to a campaign\r\n* Comment from CiGas-UHEL: Currently we support the measurements of condensable vapours/aerosol precursors such as sulfuric acid and highly oxygenated organics. We value the measurements of less oxidized organic acids and chemical composition of aerosols, but as a unit we do not have yet resources to support all the chemical ionization methods with mass spectrometry. As FIGAERO is measuring both aerosol and gas composition we will start discussions with aerosol-in-situ central facility about how to include it to ACTRIS.\r\n"
}
}
},
"status": {
"_type": "text",
"text": "operational"
}
}
▶ v 5 🕒 2025-12-18 10:45:27 👤 User 1 (admin) operational
🕒 2025-12-18 10:45:27
👤 User 1 (admin)
Name: Condensables_CI-APi-TOF_EUPHORE
Status:
operational
{
"calibration": {
"frequency": {
"_type": "text",
"text": "When needed"
},
"method": {
"_type": "text",
"text": "Injections into chamber"
}
},
"compounds": {
"bool_compounds": {
"_type": "bool",
"value": false
},
"compounds": []
},
"data_qa_qc": {
"bool_calibrations": {
"_type": "bool",
"value": false
},
"bool_other": {
"_type": "bool",
"value": false
},
"bool_ratios": {
"_type": "bool",
"value": true
},
"bool_voc": {
"_type": "bool",
"value": false
}
},
"data_submission": {
"databases": [
{
"database": {
"_type": "text",
"text": "ACTRIS"
},
"submission": {
"_type": "quantity",
"dimensionality": "[time]",
"magnitude": 1.0,
"magnitude_in_base_units": 31557600.0,
"units": "years"
}
}
]
},
"date_of_full_operation": {
"_type": "datetime",
"utc_datetime": "2021-09-01 00:00:00"
},
"facility_name": {
"_type": "object_reference",
"object_id": 14
},
"inlet_system": {
"distance_from_nox_inlet": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 1.5,
"magnitude_in_base_units": 1.5,
"units": "m"
},
"distance_from_ozone_inlet": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 2.0,
"magnitude_in_base_units": 2.0,
"units": "m"
},
"distance_from_voc_inlet": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 1.5,
"magnitude_in_base_units": 1.5,
"units": "m"
},
"filter_inlet_material": {
"_type": "text",
"text": "None"
},
"inlet_line_heating_bool": {
"_type": "bool",
"value": false
},
"inlet_tube_material": {
"_type": "text",
"text": "PTFE"
},
"measurement_height_above_ground": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 0.2,
"magnitude_in_base_units": 0.2,
"units": "m"
},
"residence_time": {
"_type": "quantity",
"dimensionality": "[time]",
"magnitude": 1.7,
"magnitude_in_base_units": 1.7,
"units": "s"
}
},
"instrument_type": {
"_type": "object_reference",
"object_id": 510
},
"mass_analyzer": {
"filter": {
"_type": "text",
"text": "FIGAERO"
},
"filter_bool": {
"_type": "bool",
"value": true
},
"instrument_manufacturer": {
"_type": "object_reference",
"object_id": 544
},
"mass_resolution": {
"_type": "text",
"text": {
"en": "4000-6500"
}
},
"reagent_ions": {
"_type": "text",
"text": "Iodide"
},
"sample_flow": {
"_type": "quantity",
"dimensionality": "[length] ** 3 / [time]",
"magnitude": 2.0,
"magnitude_in_base_units": 3.3333333333333335e-05,
"units": "l/min"
},
"sample_flow_treatment": {
"_type": "bool",
"value": true
},
"time_of_flight": {
"_type": "text",
"text": "L-TOF"
},
"total_air_flow": {
"_type": "quantity",
"dimensionality": "[length] ** 3 / [time]",
"magnitude": 3.3,
"magnitude_in_base_units": 5.5e-05,
"units": "l/min"
},
"type": {
"_type": "text",
"text": "Time-of-Flight"
}
},
"measurement_qa_qc": {
"checklist": {
"_type": "quantity",
"dimensionality": "[time]",
"magnitude": 1.0,
"magnitude_in_base_units": 86400.0,
"units": "days"
},
"instrument_log_book": {
"_type": "text",
"text": "Hard copy"
}
},
"name": {
"_type": "text",
"text": {
"en": "Condensables_CI-APi-TOF_EUPHORE"
}
},
"notes": {
"data": {
"_type": "text",
"is_markdown": true,
"text": {
"en": "* Pressure in the chemical ionization region: Api\r\n* checklist: On days of experiment and previous to a campaign\r\n* Comment from CiGas-UHEL: Currently we support the measurements of condensable vapours/aerosol precursors such as sulfuric acid and highly oxygenated organics. We value the measurements of less oxidized organic acids and chemical composition of aerosols, but as a unit we do not have yet resources to support all the chemical ionization methods with mass spectrometry. As FIGAERO is measuring both aerosol and gas composition we will start discussions with aerosol-in-situ central facility about how to include it to ACTRIS.\r\n"
}
}
},
"status": {
"_type": "text",
"text": "operational"
}
}
▶ v 4 🕒 2025-12-18 09:39:29 👤 User 1 (admin) operational
🕒 2025-12-18 09:39:29
👤 User 1 (admin)
Name: Condensables_APi-TOF_EUPHORE
Status:
operational
{
"calibration": {
"frequency": {
"_type": "text",
"text": "When needed"
},
"method": {
"_type": "text",
"text": "Injections into chamber"
}
},
"compounds": {
"bool_compounds": {
"_type": "bool",
"value": false
},
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},
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"value": false
},
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},
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"value": true
},
"bool_voc": {
"_type": "bool",
"value": false
}
},
"data_submission": {
"databases": [
{
"database": {
"_type": "text",
"text": "ACTRIS"
},
"submission": {
"_type": "quantity",
"dimensionality": "[time]",
"magnitude": 1.0,
"magnitude_in_base_units": 31557600.0,
"units": "years"
}
}
]
},
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"_type": "datetime",
"utc_datetime": "2021-09-01 00:00:00"
},
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"_type": "object_reference",
"object_id": 14
},
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},
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"units": "m"
},
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"dimensionality": "[length]",
"magnitude": 1.5,
"magnitude_in_base_units": 1.5,
"units": "m"
},
"filter_inlet_material": {
"_type": "text",
"text": "None"
},
"inlet_line_heating_bool": {
"_type": "bool",
"value": false
},
"inlet_tube_material": {
"_type": "text",
"text": "PTFE"
},
"measurement_height_above_ground": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 0.2,
"magnitude_in_base_units": 0.2,
"units": "m"
},
"residence_time": {
"_type": "quantity",
"dimensionality": "[time]",
"magnitude": 1.7,
"magnitude_in_base_units": 1.7,
"units": "s"
}
},
"instrument_type": {
"_type": "object_reference",
"object_id": 510
},
"mass_analyzer": {
"filter": {
"_type": "text",
"text": "FIGAERO"
},
"filter_bool": {
"_type": "bool",
"value": true
},
"instrument_manufacturer": {
"_type": "object_reference",
"object_id": 544
},
"mass_resolution": {
"_type": "text",
"text": {
"en": "4000-6500"
}
},
"reagent_ions": {
"_type": "text",
"text": "Iodide"
},
"sample_flow": {
"_type": "quantity",
"dimensionality": "[length] ** 3 / [time]",
"magnitude": 2.0,
"magnitude_in_base_units": 3.3333333333333335e-05,
"units": "l/min"
},
"sample_flow_treatment": {
"_type": "bool",
"value": true
},
"time_of_flight": {
"_type": "text",
"text": "L-TOF"
},
"total_air_flow": {
"_type": "quantity",
"dimensionality": "[length] ** 3 / [time]",
"magnitude": 3.3,
"magnitude_in_base_units": 5.5e-05,
"units": "l/min"
},
"type": {
"_type": "text",
"text": "Time-of-Flight"
}
},
"measurement_qa_qc": {
"checklist": {
"_type": "quantity",
"dimensionality": "[time]",
"magnitude": 1.0,
"magnitude_in_base_units": 86400.0,
"units": "days"
},
"instrument_log_book": {
"_type": "text",
"text": "Hard copy"
}
},
"name": {
"_type": "text",
"text": {
"en": "Condensables_APi-TOF_EUPHORE"
}
},
"notes": {
"data": {
"_type": "text",
"is_markdown": true,
"text": {
"en": "* Pressure in the chemical ionization region: Api\r\n* checklist: On days of experiment and previous to a campaign\r\n* Comment from CiGas-UHEL: Currently we support the measurements of condensable vapours/aerosol precursors such as sulfuric acid and highly oxygenated organics. We value the measurements of less oxidized organic acids and chemical composition of aerosols, but as a unit we do not have yet resources to support all the chemical ionization methods with mass spectrometry. As FIGAERO is measuring both aerosol and gas composition we will start discussions with aerosol-in-situ central facility about how to include it to ACTRIS.\r\n"
}
}
},
"status": {
"_type": "text",
"text": "operational"
}
}
▶ v 3 🕒 2025-11-24 15:53:27 👤 User 1 (admin) operational
🕒 2025-11-24 15:53:27
👤 User 1 (admin)
Name: Condensables_CIMS_EUPHORE
Status:
operational
{
"calibration": {
"frequency": {
"_type": "text",
"text": "When needed"
},
"method": {
"_type": "text",
"text": "Injections into chamber"
}
},
"compounds": {
"bool_compounds": {
"_type": "bool",
"value": false
},
"compounds": []
},
"data_qa_qc": {
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"value": false
},
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"_type": "bool",
"value": false
},
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"value": true
},
"bool_voc": {
"_type": "bool",
"value": false
}
},
"data_submission": {
"databases": [
{
"database": {
"_type": "text",
"text": "ACTRIS"
},
"submission": {
"_type": "quantity",
"dimensionality": "[time]",
"magnitude": 1.0,
"magnitude_in_base_units": 31557600.0,
"units": "years"
}
}
]
},
"date_of_full_operation": {
"_type": "datetime",
"utc_datetime": "2021-09-01 00:00:00"
},
"facility_name": {
"_type": "object_reference",
"object_id": 14
},
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"magnitude": 1.5,
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"units": "m"
},
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"dimensionality": "[length]",
"magnitude": 2.0,
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"units": "m"
},
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"dimensionality": "[length]",
"magnitude": 1.5,
"magnitude_in_base_units": 1.5,
"units": "m"
},
"filter_inlet_material": {
"_type": "text",
"text": "None"
},
"inlet_line_heating_bool": {
"_type": "bool",
"value": false
},
"inlet_tube_material": {
"_type": "text",
"text": "PTFE"
},
"measurement_height_above_ground": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 0.2,
"magnitude_in_base_units": 0.2,
"units": "m"
},
"residence_time": {
"_type": "quantity",
"dimensionality": "[time]",
"magnitude": 1.7,
"magnitude_in_base_units": 1.7,
"units": "s"
}
},
"instrument_type": {
"_type": "object_reference",
"object_id": 510
},
"mass_analyzer": {
"filter": {
"_type": "text",
"text": "FIGAERO"
},
"filter_bool": {
"_type": "bool",
"value": true
},
"instrument_manufacturer": {
"_type": "object_reference",
"object_id": 544
},
"mass_resolution": {
"_type": "text",
"text": {
"en": "4000-6500"
}
},
"reagent_ions": {
"_type": "text",
"text": "Iodide"
},
"sample_flow": {
"_type": "quantity",
"dimensionality": "[length] ** 3 / [time]",
"magnitude": 2.0,
"magnitude_in_base_units": 3.3333333333333335e-05,
"units": "l/min"
},
"sample_flow_treatment": {
"_type": "bool",
"value": true
},
"time_of_flight": {
"_type": "text",
"text": "L-TOF"
},
"total_air_flow": {
"_type": "quantity",
"dimensionality": "[length] ** 3 / [time]",
"magnitude": 3.3,
"magnitude_in_base_units": 5.5e-05,
"units": "l/min"
},
"type": {
"_type": "text",
"text": "Time-of-Flight"
}
},
"measurement_qa_qc": {
"checklist": {
"_type": "quantity",
"dimensionality": "[time]",
"magnitude": 1.0,
"magnitude_in_base_units": 86400.0,
"units": "days"
},
"instrument_log_book": {
"_type": "text",
"text": "Hard copy"
}
},
"name": {
"_type": "text",
"text": {
"en": "Condensables_CIMS_EUPHORE"
}
},
"notes": {
"data": {
"_type": "text",
"is_markdown": true,
"text": {
"en": "* Pressure in the chemical ionization region: Api\r\n* checklist: On days of experiment and previous to a campaign\r\n* Comment from CiGas-UHEL: Currently we support the measurements of condensable vapours/aerosol precursors such as sulfuric acid and highly oxygenated organics. We value the measurements of less oxidized organic acids and chemical composition of aerosols, but as a unit we do not have yet resources to support all the chemical ionization methods with mass spectrometry. As FIGAERO is measuring both aerosol and gas composition we will start discussions with aerosol-in-situ central facility about how to include it to ACTRIS.\r\n"
}
}
},
"status": {
"_type": "text",
"text": "operational"
}
}
▶ v 2 🕒 2025-11-12 14:42:06 👤 User 1 (admin) operational
🕒 2025-11-12 14:42:06
👤 User 1 (admin)
Name: Condensables_CIMS_EUPHORE
Status:
operational
{
"calibration": {
"frequency": {
"_type": "text",
"text": "When needed"
},
"method": {
"_type": "text",
"text": "Injections into chamber"
}
},
"data_qa_qc": {
"bool_calibrations": {
"_type": "bool",
"value": false
},
"bool_other": {
"_type": "bool",
"value": false
},
"bool_ratios": {
"_type": "bool",
"value": true
},
"bool_voc": {
"_type": "bool",
"value": false
}
},
"data_submission": {
"databases": [
{
"database": {
"_type": "text",
"text": "ACTRIS"
},
"submission": {
"_type": "quantity",
"dimensionality": "[time]",
"magnitude": 1.0,
"magnitude_in_base_units": 31557600.0,
"units": "years"
}
}
]
},
"date_of_full_operation": {
"_type": "datetime",
"utc_datetime": "2021-09-01 00:00:00"
},
"facility_name": {
"_type": "object_reference",
"object_id": 14
},
"inlet_system": {
"distance_from_nox_inlet": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 1.5,
"magnitude_in_base_units": 1.5,
"units": "m"
},
"distance_from_ozone_inlet": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 2.0,
"magnitude_in_base_units": 2.0,
"units": "m"
},
"distance_from_voc_inlet": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 1.5,
"magnitude_in_base_units": 1.5,
"units": "m"
},
"filter_inlet_material": {
"_type": "text",
"text": "None"
},
"inlet_line_heating_bool": {
"_type": "bool",
"value": false
},
"inlet_tube_material": {
"_type": "text",
"text": "PTFE"
},
"measurement_height_above_ground": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 0.2,
"magnitude_in_base_units": 0.2,
"units": "m"
},
"residence_time": {
"_type": "quantity",
"dimensionality": "[time]",
"magnitude": 1.7,
"magnitude_in_base_units": 1.7,
"units": "s"
}
},
"mass_analyzer": {
"filter": {
"_type": "text",
"text": "FIGAERO"
},
"filter_bool": {
"_type": "bool",
"value": true
},
"instrument_manufacturer": {
"_type": "object_reference",
"object_id": 544
},
"mass_resolution": {
"_type": "text",
"text": {
"en": "4000-6500"
}
},
"reagent_ions": {
"_type": "text",
"text": "Iodide"
},
"sample_flow": {
"_type": "quantity",
"dimensionality": "[length] ** 3 / [time]",
"magnitude": 2.0,
"magnitude_in_base_units": 3.3333333333333335e-05,
"units": "l/min"
},
"sample_flow_treatment": {
"_type": "bool",
"value": true
},
"time_of_flight": {
"_type": "text",
"text": "L-TOF"
},
"total_air_flow": {
"_type": "quantity",
"dimensionality": "[length] ** 3 / [time]",
"magnitude": 3.3,
"magnitude_in_base_units": 5.5e-05,
"units": "l/min"
},
"type": {
"_type": "text",
"text": "Time-of-Flight"
}
},
"measurement_qa_qc": {
"checklist": {
"_type": "quantity",
"dimensionality": "[time]",
"magnitude": 1.0,
"magnitude_in_base_units": 86400.0,
"units": "days"
},
"instrument_log_book": {
"_type": "text",
"text": "Hard copy"
}
},
"name": {
"_type": "text",
"text": {
"en": "Condensables_CIMS_EUPHORE"
}
},
"notes": {
"data": {
"_type": "text",
"is_markdown": true,
"text": {
"en": "* Pressure in the chemical ionization region: Api\r\n* checklist: On days of experiment and previous to a campaign\r\n* Comment from CiGas-UHEL: Currently we support the measurements of condensable vapours/aerosol precursors such as sulfuric acid and highly oxygenated organics. We value the measurements of less oxidized organic acids and chemical composition of aerosols, but as a unit we do not have yet resources to support all the chemical ionization methods with mass spectrometry. As FIGAERO is measuring both aerosol and gas composition we will start discussions with aerosol-in-situ central facility about how to include it to ACTRIS.\r\n"
}
}
},
"operators": [],
"status": {
"_type": "text",
"text": "operational"
}
}
▶ v 1 🕒 2025-04-28 05:19:09 👤 User 4 (Katrin Seemeyer) operational
🕒 2025-04-28 05:19:09
👤 User 4 (Katrin Seemeyer)
Name: Condensables_CIMS_EUPHORE
Status:
operational
{
"calibration": {
"frequency": {
"_type": "text",
"text": "When needed"
},
"method": {
"_type": "text",
"text": "Injections into chamber"
}
},
"data_qa_qc": {
"select": {
"_type": "text",
"text": "Time series analysis of compound ratios"
}
},
"data_submission": {
"databases": [
{
"database": {
"_type": "text",
"text": "ACTRIS"
},
"submission": {
"_type": "quantity",
"dimensionality": "[time]",
"magnitude": 1.0,
"magnitude_in_base_units": 31557600.0,
"units": "years"
}
}
]
},
"date_of_full_operation": {
"_type": "datetime",
"utc_datetime": "2021-09-01 00:00:00"
},
"facility_name": {
"_type": "object_reference",
"object_id": 14
},
"inlet_system": {
"distance_from_nox_inlet": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 1.5,
"magnitude_in_base_units": 1.5,
"units": "m"
},
"distance_from_ozone_inlet": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 2.0,
"magnitude_in_base_units": 2.0,
"units": "m"
},
"distance_from_voc_inlet": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 1.5,
"magnitude_in_base_units": 1.5,
"units": "m"
},
"filter_inlet_material": {
"_type": "text",
"text": "None"
},
"inlet_line_heating_bool": {
"_type": "bool",
"value": false
},
"inlet_tube_material": {
"_type": "text",
"text": "PTFE"
},
"measurement_height_above_ground": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 0.2,
"magnitude_in_base_units": 0.2,
"units": "m"
},
"residence_time": {
"_type": "quantity",
"dimensionality": "[time]",
"magnitude": 1.7,
"magnitude_in_base_units": 1.7,
"units": "s"
}
},
"mass_analyzer": {
"filter": {
"_type": "text",
"text": "FIGAERO"
},
"filter_bool": {
"_type": "bool",
"value": true
},
"instrument_manufacturer": {
"_type": "text",
"text": {
"en": "Aerodyne"
}
},
"mass_resolution": {
"_type": "text",
"text": {
"en": "4000-6500"
}
},
"reagent_ions": {
"_type": "text",
"text": "Iodide"
},
"sample_flow": {
"_type": "quantity",
"dimensionality": "[length] ** 3 / [time]",
"magnitude": 2.0,
"magnitude_in_base_units": 3.3333333333333335e-05,
"units": "l/min"
},
"sample_flow_treatment": {
"_type": "bool",
"value": true
},
"time_of_flight": {
"_type": "text",
"text": "L-TOF"
},
"total_air_flow": {
"_type": "quantity",
"dimensionality": "[length] ** 3 / [time]",
"magnitude": 3.3,
"magnitude_in_base_units": 5.5e-05,
"units": "l/min"
},
"type": {
"_type": "text",
"text": "Time-of-Flight"
}
},
"measurement_qa_qc": {
"checklist": {
"_type": "quantity",
"dimensionality": "[time]",
"magnitude": 1.0,
"magnitude_in_base_units": 86400.0,
"units": "days"
},
"instrument_log_book": {
"_type": "text",
"text": "Hard copy"
}
},
"name": {
"_type": "text",
"text": {
"en": "Condensables_CIMS_EUPHORE"
}
},
"notes": {
"data": {
"_type": "text",
"is_markdown": true,
"text": {
"en": "* Pressure in the chemical ionization region: Api\r\n* checklist: On days of experiment and previous to a campaign\r\n* Comment from CiGas-UHEL: Currently we support the measurements of condensable vapours/aerosol precursors such as sulfuric acid and highly oxygenated organics. We value the measurements of less oxidized organic acids and chemical composition of aerosols, but as a unit we do not have yet resources to support all the chemical ionization methods with mass spectrometry. As FIGAERO is measuring both aerosol and gas composition we will start discussions with aerosol-in-situ central facility about how to include it to ACTRIS.\r\n"
}
}
},
"operators": [],
"status": {
"_type": "text",
"text": "operational"
}
}
▶ v 0 🕒 2025-02-07 09:00:31 👤 User 4 (Katrin Seemeyer) operational
🕒 2025-02-07 09:00:31
👤 User 4 (Katrin Seemeyer)
Name: condensables_CIMS_EUPHORE
Status:
operational
{
"calibration": {
"frequency": {
"_type": "text",
"text": "When needed"
},
"method": {
"_type": "text",
"text": "Injections into chamber"
}
},
"data_qa_qc": {
"select": {
"_type": "text",
"text": "Time series analysis of compound ratios"
}
},
"data_submission": {
"databases": [
{
"database": {
"_type": "text",
"text": "ACTRIS"
},
"submission": {
"_type": "quantity",
"dimensionality": "[time]",
"magnitude": 1.0,
"magnitude_in_base_units": 31557600.0,
"units": "years"
}
}
]
},
"date_of_full_operation": {
"_type": "datetime",
"utc_datetime": "2021-09-01 00:00:00"
},
"facility_name": {
"_type": "object_reference",
"object_id": 14
},
"inlet_system": {
"distance_from_nox_inlet": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 1.5,
"magnitude_in_base_units": 1.5,
"units": "m"
},
"distance_from_ozone_inlet": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 2.0,
"magnitude_in_base_units": 2.0,
"units": "m"
},
"distance_from_voc_inlet": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 1.5,
"magnitude_in_base_units": 1.5,
"units": "m"
},
"filter_inlet_material": {
"_type": "text",
"text": "None"
},
"inlet_line_heating_bool": {
"_type": "bool",
"value": false
},
"inlet_tube_material": {
"_type": "text",
"text": "PTFE"
},
"measurement_height_above_ground": {
"_type": "quantity",
"dimensionality": "[length]",
"magnitude": 0.2,
"magnitude_in_base_units": 0.2,
"units": "m"
},
"residence_time": {
"_type": "quantity",
"dimensionality": "[time]",
"magnitude": 1.7,
"magnitude_in_base_units": 1.7,
"units": "s"
}
},
"mass_analyzer": {
"filter": {
"_type": "text",
"text": "FIGAERO"
},
"filter_bool": {
"_type": "bool",
"value": true
},
"instrument_manufacturer": {
"_type": "text",
"text": {
"en": "Aerodyne"
}
},
"mass_resolution": {
"_type": "text",
"text": {
"en": "4000-6500"
}
},
"reagent_ions": {
"_type": "text",
"text": "Iodide"
},
"sample_flow": {
"_type": "quantity",
"dimensionality": "[length] ** 3 / [time]",
"magnitude": 2.0,
"magnitude_in_base_units": 3.3333333333333335e-05,
"units": "l/min"
},
"sample_flow_treatment": {
"_type": "bool",
"value": true
},
"time_of_flight": {
"_type": "text",
"text": "L-TOF"
},
"total_air_flow": {
"_type": "quantity",
"dimensionality": "[length] ** 3 / [time]",
"magnitude": 3.3,
"magnitude_in_base_units": 5.5e-05,
"units": "l/min"
},
"type": {
"_type": "text",
"text": "Time-of-Flight"
}
},
"measurement_qa_qc": {
"checklist": {
"_type": "quantity",
"dimensionality": "[time]",
"magnitude": 1.0,
"magnitude_in_base_units": 86400.0,
"units": "days"
},
"instrument_log_book": {
"_type": "text",
"text": "Hard copy"
}
},
"name": {
"_type": "text",
"text": {
"en": "condensables_CIMS_EUPHORE"
}
},
"notes": {
"data": {
"_type": "text",
"is_markdown": true,
"text": {
"en": "* Pressure in the chemical ionization region: Api\r\n* checklist: On days of experiment and previous to a campaign\r\n* Comment from CiGas-UHEL: Currently we support the measurements of condensable vapours/aerosol precursors such as sulfuric acid and highly oxygenated organics. We value the measurements of less oxidized organic acids and chemical composition of aerosols, but as a unit we do not have yet resources to support all the chemical ionization methods with mass spectrometry. As FIGAERO is measuring both aerosol and gas composition we will start discussions with aerosol-in-situ central facility about how to include it to ACTRIS.\r\n"
}
}
},
"operators": [],
"status": {
"_type": "text",
"text": "operational"
}
}