Abstract
The Muon Campus (MC) is able to measure Muon g-2 with high precision and comparing its value to the theoretical prediction. The MC has four 300 KW screw compressors and four liquid helium refrigerators. The centerpiece of the Muon g-2 experiment at Fermilab is a large, 50-foot-diameter superconducting muon storage ring. This one-of-a-kind ring, made of steel, aluminum and superconducting wire, was built for the previous g-2 experiment at Brookhaven. Because each subsystem has to be far away from each other and be placed in the distant location, Siemens Process Control System PCS7-400, Automation Direct DL205 & DL05 PLC, Synoptic and Fermilab ACNET HMI are the ideal choices as the MC g-2 cryogenic distribution real-time and on-Line remote control system.This paper presents a method which has been successfully used by many Fermilab distribution cryogenic real-time and On-Line remote control systems.
Highlights
Fermilab Muon g-2 experiments will examine the precession of muons that are subjected to a magnetic field
This paper presents a method which has been successfully used by many Fermilab distribution cryogenic real-time and On-Line remote control systems
The cryogenic test facility is composed of A0 compressor room and Muon Campus experiments 1 (MC1) helium cryogenic refrigeration, which is provided by four onsite Tevatron style of cryogenic plants
Summary
Fermilab Muon g-2 experiments will examine the precession of muons that are subjected to a magnetic field. This paper presents a method which has been successfully used by many Fermilab distribution cryogenic real-time and On-Line remote control systems. A cryogenic system to provide these services consists of four Tevatron Satellite refrigerators, four compressors, a cryogenic distribution system, and an axillary system necessary for the cryogenic system operation. One of the buildings (A0), will house the noisy vibrating equipment (four compressors) needed to operate the cryogenic plant.
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