CO_2-based refrigeration system for the NFIRAOS optics enclosure

机译：基于CO_2的NFIRAOS光学盒的制冷系统

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Recent changes to the Montreal Protocol have led to the eventual phase-out of hydrofluorocarbon-based refrigerants due to their high global warming potential (GWP). TMT has thus transitioned from R507 (GWP - 3900) to CO_2 (GWP =1) as the primary observatory supplied refrigerant. Thus, the cooling system for NFIRAOS (TMT's first light adaptive optics system) was redesigned to work with this high pressure refrigerant. In this paper, we describe the key refrigeration requirements and present the updated design of the NFIRAOS cooling system, including its overall architecture, main components and safety related features. To de-risk aspects of the design and to assess vibration levels of the system (critical for the AO system performance) a prototype CO_2 cooling system was built and characterized. Key measurement results are presented.

机译：由于其高全球变暖潜力（GWP），最近对蒙特利尔方案的变化导致了最终淘汰的氢氟碳化制冷剂。因此，TMT从R507（GWP - 3900）转换为CO_2（GWP = 1）作为主要天文台提供的制冷剂。因此，重新设计了Nfiraos（TMT的第一光自适应光学系统）的冷却系统以使用该高压制冷剂。在本文中，我们描述了关键的制冷要求，并提出了Nfiraos冷却系统的更新设计，包括其整体架构，主要部件和安全相关功能。为了设计设计的虚空方面，并评估系统的振动水平（对于AO系统性能至关重要），构建并表征了原型CO_2冷却系统。提出了关键测量结果。

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《Conference on Ground-based and Airborne Instrumentation for Astronomy》|2020年|1144739.1-1144739.11|共11页
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Adam Densmore; Glen Herriot; Joeleff Fitzsimmons; Peter W.G. Byrnes; Ian Welle; Jarod Holma; Megan Tiedje; Jay Burbee; Calvin Winter;
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Refrigeration; carbon dioxide; adaptive optics; NFIRAOS; enclosure; cooling systems;

机译：冷藏;二氧化碳;自适应光学;nfiraos;外壳;冷却系统;

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CO_2-based refrigeration system for the NFIRAOS optics enclosure

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