Branched siloxanes as possible new heat transfer fluids for application in parabolic through solar thermal power plants

S. U.H. Heidsieck; S. Dörrich; R. Weidner; B. Rieger

doi:10.1016/j.solmat.2016.12.011

Branched siloxanes as possible new heat transfer fluids for application in parabolic through solar thermal power plants

S. U.H. Heidsieck, S. Dörrich, R. Weidner, B. Rieger

Wacker-Chair of Macromolecular Chemistry

Research output: Contribution to journal › Article › peer-review

18 Scopus citations

Abstract

Concentrating solar power is a promising technique for future energy supply. The currently used heat transfer fluid in those power plants is a eutectic mixture of biphenyl and diphenylether. This mixture limits the maximum operating temperature of a concentration solar power plant due to occurring degradation. Polysiloxanes are a promising substitution as heat transfer fluid due to their good resistance towards high temperatures. Nevertheless, those polymers are subjected to a thermally induced equilibration reaction which leads to an alternation in the physical properties. In our study we could demonstrate, based on chosen model compounds, that branched siloxanes have a remarkable resistance against thermal equilibration reaction.

Original language	English
Pages (from-to)	278-284
Number of pages	7
Journal	Solar Energy Materials and Solar Cells
Volume	161
DOIs	https://doi.org/10.1016/j.solmat.2016.12.011
State	Published - 1 Mar 2017

Keywords

Branched siloxanes
Heat transfer fluid
Thermal equilibration

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.solmat.2016.12.011

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title = "Branched siloxanes as possible new heat transfer fluids for application in parabolic through solar thermal power plants",

abstract = "Concentrating solar power is a promising technique for future energy supply. The currently used heat transfer fluid in those power plants is a eutectic mixture of biphenyl and diphenylether. This mixture limits the maximum operating temperature of a concentration solar power plant due to occurring degradation. Polysiloxanes are a promising substitution as heat transfer fluid due to their good resistance towards high temperatures. Nevertheless, those polymers are subjected to a thermally induced equilibration reaction which leads to an alternation in the physical properties. In our study we could demonstrate, based on chosen model compounds, that branched siloxanes have a remarkable resistance against thermal equilibration reaction.",

keywords = "Branched siloxanes, Heat transfer fluid, Thermal equilibration",

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year = "2017",

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T1 - Branched siloxanes as possible new heat transfer fluids for application in parabolic through solar thermal power plants

AU - Heidsieck, S. U.H.

AU - Dörrich, S.

AU - Weidner, R.

AU - Rieger, B.

PY - 2017/3/1

Y1 - 2017/3/1

N2 - Concentrating solar power is a promising technique for future energy supply. The currently used heat transfer fluid in those power plants is a eutectic mixture of biphenyl and diphenylether. This mixture limits the maximum operating temperature of a concentration solar power plant due to occurring degradation. Polysiloxanes are a promising substitution as heat transfer fluid due to their good resistance towards high temperatures. Nevertheless, those polymers are subjected to a thermally induced equilibration reaction which leads to an alternation in the physical properties. In our study we could demonstrate, based on chosen model compounds, that branched siloxanes have a remarkable resistance against thermal equilibration reaction.

AB - Concentrating solar power is a promising technique for future energy supply. The currently used heat transfer fluid in those power plants is a eutectic mixture of biphenyl and diphenylether. This mixture limits the maximum operating temperature of a concentration solar power plant due to occurring degradation. Polysiloxanes are a promising substitution as heat transfer fluid due to their good resistance towards high temperatures. Nevertheless, those polymers are subjected to a thermally induced equilibration reaction which leads to an alternation in the physical properties. In our study we could demonstrate, based on chosen model compounds, that branched siloxanes have a remarkable resistance against thermal equilibration reaction.

KW - Branched siloxanes

KW - Heat transfer fluid

KW - Thermal equilibration

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DO - 10.1016/j.solmat.2016.12.011

M3 - Article

AN - SCOPUS:85003876245

SN - 0927-0248

VL - 161

SP - 278

EP - 284

JO - Solar Energy Materials and Solar Cells

JF - Solar Energy Materials and Solar Cells

ER -

Branched siloxanes as possible new heat transfer fluids for application in parabolic through solar thermal power plants

Abstract

Keywords

UN SDGs

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