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Dataset

 

Freezing temperature laboratory experiments of individual droplets each contained in a well plate using InfraRed-Nucleation by Immersed Particles Instrument (IR-NIPI)

Latest Data Update: 2018-09-19
Status: Completed
Online Status: ONLINE
Publication State: Citable
Publication Date: 2018-09-19
DOI Publication Date: 2018-09-21
Download Stats: last 12 months
Dataset Size: 8 Files | 75KB
  Citations: 1
Abstract

This dataset contains freezing temperature laboratory measurements of individual droplets each contained in a well of a 96-well plate using InfraRed-Nucleation by Immersed Particles Instrument (IR-NIPI) instrument. IR-NIPI makes use of InfraRed (IR) emissions to determine the freezing temperature of individual 50μL droplets each contained in a well of a 96-well plate. Using an IR camera allows the temperature of individual aliquots to be monitored. Freezing temperatures are determined by detecting the sharp rise in well temperature associated with the release of heat caused by freezing.

Citable as:  Harrison, A.D.; Whale, T.F.; Rutledge, R.; Lamb, S.; Tarn, M.D.; Porter, G.C.E.; Adams, M.; McQuaid, J.B.; Morris, G.J.; Murray, B.J. (2018): Freezing temperature laboratory experiments of individual droplets each contained in a well plate using InfraRed-Nucleation by Immersed Particles Instrument (IR-NIPI). Centre for Environmental Data Analysis, 21 September 2018. doi:10.5285/858A4B439D7D4466B82EA5215614F135. https://dx.doi.org/10.5285/858A4B439D7D4466B82EA5215614F135
Abbreviation: Not defined
Keywords: Infrared, Freezing temperatures, IR-NIPI

Details

Previous Info:
No news update for this record
Previously used record identifiers:
No related previous identifiers.
Access rules:
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Use of these data is covered by the following licence: http://www.nationalarchives.gov.uk/doc/open-government-licence/version/3/. When using these data you must cite them correctly using the citation given on the CEDA Data Catalogue record.
Data lineage:

Data delivered from the University of Leeds for archiving at the Centre for Environmental Data Anaylsis
Data Quality:
Data are as given by the data provider, no quality control has been performed by the Centre for Environmental Data Analysis (CEDA)
File Format:
Data are BADC-CSV formatted

Related Documents

 An instrument for quantifying heterogeneous ice nucleation in multiwell plates using infrared emissions to detect freezing

Citations: 1

The following citations have been automatically harvested from external sources associated with this resource where DOI tracking is possible. As such some citations may be missing from this list whilst others may not be accurate. Please contact the helpdesk to raise any issues to help refine these citation trackings.

Harrison, A. D., Whale, T. F., Rutledge, R., Lamb, S., Tarn, M. D., Porter, G. C. E., Adams, M. P., McQuaid, J. B., Morris, G. J., & Murray, B. J. (2018). An instrument for quantifying heterogeneous ice nucleation in multiwell plates using infrared emissions to detect freezing. Atmospheric Measurement Techniques, 11(10), 5629–5641. https://doi.org/10.5194/amt-11-5629-2018

Process overview

This dataset was generated by instruments deployed on platforms as listed below.
Output Description

None
  • long_name: Blank fraction frozen (IR-NIPI experiment)
  • long_name: Blank freezing temperature (IR-NIPI experiment)
  • long_name: Chip Number
  • long_name: Compliation of blank freezing temperatures
  • long_name: Compliuation of blanks fraction frozen
  • long_name: Feldspar chip blank freezing fraction frozen
  • long_name: Feldspar chip blank freezing temperatures
  • long_name: Feldspar chip fraction frozen (IR-NIPI experiment)
  • long_name: Feldspar chip fraction frozen (ul-NIPI experiment)
  • long_name: Feldspar chip freezing temperature (IR-NIPI experiment)
  • long_name: Feldspar chip freezing temperature (ul-NIPI experiment)
  • long_name: Feldspar chip freezing temperature ordered highest to lower (IR-NIPI experiment)
  • long_name: Feldspar chip freezing temperature ordered highest to lower (ul-NIPI experiment)
  • long_name: Fields sample blank freezing fraction frozen
  • long_name: Fields sample blank freezing temperatures
  • long_name: Fraction frozen for the blank water internal to run 1
  • long_name: Fraction frozen for the blank water internal to run 2
  • long_name: Fraction frozen of NX-illite 0.01wt% suspension run 1
  • long_name: Fraction frozen of NX-illite 0.01wt% suspension run 2
  • long_name: Fraction frozen of NX-illite 0.1wt% suspension run 1
  • long_name: Fraction frozen of NX-illite 0.1wt% suspension run 2
  • long_name: Fraction frozen of NX-illite 1wt% suspension run 1
  • long_name: Fraction frozen of NX-illite 1wt% suspension run 2
  • long_name: Infrared Temperature
  • long_name: Infrared Temperature of well 1
  • long_name: Infrared Temperature of well 2
  • long_name: Infrared Temperature of well 3
  • long_name: Infrared Time
  • long_name: Infrared camera time elapsed
  • long_name: NX-illite 0.01 wt% suspension freezing temperature run 1 (IR-NIPI)
  • long_name: NX-illite 0.01 wt% suspension freezing temperature run 2 (IR-NIPI)
  • long_name: NX-illite 0.1 wt% suspension freezing temperature run 1 (IR-NIPI)
  • long_name: NX-illite 0.1 wt% suspension freezing temperature run 2 (IR-NIPI)
  • long_name: NX-illite 1 wt% suspension freezing temperature run 1 (IR-NIPI)
  • long_name: NX-illite 1 wt% suspension freezing temperature run 2 (IR-NIPI)
  • long_name: NX-illite blank 1 fraction frozen
  • long_name: NX-illite blank 1 freezing temperatures
  • long_name: NX-illite blank 2 fraction frozen
  • long_name: NX-illite blank 2 freezing temperatures
  • long_name: NX-illite freezing temperature (first run)
  • long_name: NX-illite freezing temperature (thawed then rerun)
  • long_name: Residuals Time
  • long_name: Residuals measurement 1
  • long_name: Residuals measurement 2
  • long_name: Residuals measurement 3
  • long_name: Residuals measurement 4
  • long_name: Residuals measurement 5
  • long_name: Residuals measurement 6
  • long_name: Thermocouple Temperature
  • long_name: Thermocouple Time
  • long_name: Thermocouple temperature
  • long_name: Thermocouple time elapsed
  • long_name: Time elapsed for both IR and thermocouple
  • long_name: active site density of NX-illite 0.01wt% suspension run 1
  • long_name: active site density of NX-illite 0.01wt% suspension run 2
  • long_name: active site density of NX-illite 0.1wt% suspension run 1
  • long_name: active site density of NX-illite 0.1wt% suspension run 2
  • long_name: active site density of NX-illite 1wt% suspension run 1
  • long_name: active site density of NX-illite 1wt% suspension run 2
  • long_name: freezing temperature for blank water internal to run 1
  • long_name: freezing temperature for blank water internal to run 2
  • long_name: ns (activsite density)

Co-ordinate Variables

Coverage
Temporal Range
Start time:
-
End time:
-
Non-Geographic Data
Related parties
Authors (10)
Publishers (1)
Funders (1)
Principal Investigators (1)