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Study on differential scanning calorimetry analysis with two operation modes and organic and inorganic phase change material (PCM)

Barreneche, C., Sol¨¦, A., Mir¨®, L., Martorell, I., Fern¨˘ndez, A. I. and Cabeza, L. F.
2013
Thermochimica Acta, Volume 553, 10 February 2013, Pages 23-26
DSC analysis; Dynamic/step mode; Phase change materials (PCM); Enthalpy; Salt hydrates; Paraffin


Barreneche, C., Sol¨¦, A., Mir¨®, L., Martorell, I., Fern¨˘ndez, A. I. and Cabeza, L. F., (2013), "Study on differential scanning calorimetry analysis with two operation modes and organic and inorganic phase change material (PCM)", Thermochimica Acta, Volume 553, 10 February 2013, Pages 23-26.
Abstract:
Phase Change Materials (PCM) allow storing thermal energy as latent heat when phase change occurs. In order to characterize these materials the phase change enthalpy and temperature should be perfectly known. Differential Scanning Calorimetry (DSC) is the most used technique to determine PCM's thermophysical properties. There are mainly two DSC operation modes: dynamic and step mode. A selection of the two most common PCM materials (paraffin and salts hydrates) was performed to conduct measures with the two DSC operation modes. The main objective of this paper is to determine the most appropriate operation mode for each type of PCM. A slow dynamic mode is recommended when analyzing salt hydrates with DSC. No significant differences between the two DSC modes were observed for paraffin.

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Author Information and Other Publications Notes
Barreneche, C.
  1. Improvement of the thermal inertia of building materials incorporating PCM. Evaluation in the macroscale
  2. Materials used as PCM in thermal energy storage in buildings: A review  
Sol¨¦, A.
     
Mir¨®, L.
     
Martorell, I.
     
Fern¨˘ndez, A. I.
  1. Improvement of the thermal inertia of building materials incorporating PCM. Evaluation in the macroscale
  2. Materials used as PCM in thermal energy storage in buildings: A review  
Cabeza, L. F.
  1. An approach to the simulation of PCMs in building applications using TRNSYS
  2. Improvement of the thermal inertia of building materials incorporating PCM. Evaluation in the macroscale
  3. Materials used as PCM in thermal energy storage in buildings: A review
  4. Modeling phase change materials behavior in building applications: Comments on material characterization and model validation
  5. Review on thermal energy storage with phase change: materials, heat transfer analysis and applications  



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