info:eu-repo/semantics/article
Design and implementation of an improved chilled water glycol system for GeMS - CANOPUS thermal enclosures
Fecha
2010-07Registro en:
Gausachs, Gaston; Bec, Matthieu; Galvez, Ramon; Cavedoni, Chas; Vergara, Vicente; et al.; Design and implementation of an improved chilled water glycol system for GeMS - CANOPUS thermal enclosures; Society of Photo-Optical Instrumentation Engineers; Spie; 7735; PART 1; 7-2010; 1-19
0277-786X
CONICET Digital
CONICET
Autor
Gausachs, Gaston
Bec, Matthieu
Galvez, Ramon
Cavedoni, Chas
Vergara, Vicente
Diaz, Herman
Fernandez, German Enzo Leonel
Resumen
CANOPUS is the facility instrument for the Gemini Multi Conjugate Adaptive Optics System (GeMS) wherein all the adaptive optics mechanisms and associated electronic are tightly packed. At an early stage in the pre-commissioning phase Gemini undertook the redesign and implementation of its chilled Ethylene Glycol Water (EGW) cooling system to remove the heat generated by the electronic hardware. The electronic boards associated with the Deformable Mirrors (DM) represent the highest density heat yielding components in CANOPUS and they are also quite sensitive to overheating. The limited size of the two electronic thermal enclosures (TE) requires the use of highly efficient heat exchangers (HX) coupled with powerful yet compact DC fans. A systematic approach to comply with all the various design requirements brought about a thorough and robust solution that, in addition to the core elements (HXs and fan), makes use of features such as high performance vacuum insulated panels, vibration mitigation elements and several environment sensors. This paper describes the design and implementation of the solution in the lab prior to delivering CANOPUS for commissioning. © 2010 Copyright SPIE - The International Society for Optical Engineering.