An Ultra-Low Temperature Transcritical R744 Refrigeration System for Future Detectors at CERN LHC

Abstract: The cooling systems of the future tracking detectors of the ATLAS and CMS experiments at the Large Hadron Collider (LHC) at CERN will be entirely based on CO2 refrigeration technology. The system is a booster refrigeration system, composed of a two stage primary part with transcritical R744 equipment and a low temperature secondary CO2 pumped loop. The primary refrigeration sub-system installed on surface provides cold R744 at −53∘C to the CO2 pumped loops installed 100 m underground and rejects the heat excha… Show more

“…Environmental sustainability in basic research the future detectors (Phase-II Upgrades) to CO 2 cooling, reducing the total Scope-1 carbon footprint of the experiments during HL-LHC exploitation significantly [225,226].…”

Environmental sustainability in basic research: a perspective from HECAP+

“…Environmental sustainability in basic research the future detectors (Phase-II Upgrades) to CO 2 cooling, reducing the total Scope-1 carbon footprint of the experiments during HL-LHC exploitation significantly [225,226].…”

Environmental sustainability in basic research: a perspective from HECAP+

A numerical study of the R744 primary cooling system for ATLAS and CMS LHC detectors

Progress in new environmental friendly low temperature detector cooling systems development for the ATLAS and CMS experiments