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Monitoring electric impedance during freezing and thawing of saline and de-ionized water

Sisay Mebre Abie
Sisay Mebre Abie
, 
Daniel Münch
Daniel Münch
 und 
Joakim Bergli
Joakim Bergli
   | 31. Dez. 2020
Journal of Electrical Bioimpedance's Cover Image
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Online veröffentlicht: 31. Dez. 2020
Seitenbereich: 106 - 111
Eingereicht: 08. Dez. 2020
DOI: https://doi.org/10.2478/joeb-2020-0016
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© 2020 Sisay Mebre Abie et al., published by Sciendo
This work is licensed under the Creative Commons Attribution 4.0 International License.

Figure 1

De-ionized water impedance at selected frequencies as a function of temperature measured during freezing.
De-ionized water impedance at selected frequencies as a function of temperature measured during freezing.

Figure 2

De-ionized water impedance as a function of frequency for different temperatures measured during freezing.
De-ionized water impedance as a function of frequency for different temperatures measured during freezing.

Figure 3

De-ionized water ice impedance of six selected frequencies as a function of temperature measured during heating (thawing).
De-ionized water ice impedance of six selected frequencies as a function of temperature measured during heating (thawing).

Figure 4

Physiological saline (0.9% NaCl salt solution) impedance of selected frequencies as a function of temperature measured during freezing.
Physiological saline (0.9% NaCl salt solution) impedance of selected frequencies as a function of temperature measured during freezing.

Figure 5

Typical freezing curves of 500 ml saline and de-ionized water. A) during freezing and B) during melting.
Typical freezing curves of 500 ml saline and de-ionized water. A) during freezing and B) during melting.

Figure 6

Physiological saline (0.9% NaCL salt solution) ice impedance of selected frequencies as a function of temperature measured during heating (unfrozen process)
Physiological saline (0.9% NaCL salt solution) ice impedance of selected frequencies as a function of temperature measured during heating (unfrozen process)
eISSN:
1891-5469
Sprache:
Englisch
Zeitrahmen der Veröffentlichung:
Volume Open
Fachgebiete der Zeitschrift:
Technik, Bioingenieurwesen, Biomedizinische Elektronik, Biologie, Biophysik, Medizin, Biomedizinische Technik, Physik, Spektroskopie und Metrologie
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