Mechanism of Hydrogen Formation in Solar Parabolic Trough Receivers

Luc Moens

Research output: Contribution to conferencePaper

Abstract

Solar parabolic trough systems for electricity production are receiving renewed attention, and new solar plants are under construction to help meet the growing demands of the power market in the Western United States. The growing solar trough industry will rely on operating experience it has gained over the last two decades. Recently, researchers found that trough plants that use organic heattransfer fluids (HTF) such as Therminol VP-1 are experiencing significant heat losses in the receiver tubes. The cause has been traced back to the accumulation of excess hydrogen gas in the vacuum annulus that surrounds the steel receiver tube, thus compromising the thermal insulation of the receiver. The hydrogen gas is formed during the thermal decomposition of the organic HTF that circulatesinside the receiver loop, and the installation of hydrogen getters inside the annulus has proven to be insufficient for controlling the hydrogen build-up over the lifetime of the receivers. This paper will provide an overview of the chemical literature dealing with the thermal decomposition of diphenyl oxide and biphenyl, the two constituents of Therminol VP-1.
Original languageAmerican English
Number of pages8
StatePublished - 2008
Event2008 14th Biennial CSP SolarPACES (Solar Power and Chemical Energy Systems) Symposium - Las Vegas, Nevada
Duration: 4 Mar 20087 Mar 2008

Conference

Conference2008 14th Biennial CSP SolarPACES (Solar Power and Chemical Energy Systems) Symposium
CityLas Vegas, Nevada
Period4/03/087/03/08

NREL Publication Number

  • NREL/CP-510-42881

Keywords

  • concentrating solar power (CSP)
  • SolarPACES 2008

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