Add to ORKGThis paper describes the operation of a forced two phase cooling system on a two meter diameter superconducting solenoid. The magnet is a thin high current density superconducting solenoid which is cooled by forced two phase helium in tubes around the coil. The magnet, which is 2.18 meters in diameter and 3.4 meters long, has a cold mass of 1700 kg. The two phase cooling system contains less than 300 liters of liquid helium, most of which is contained in a control dewar. This paper describes the operating characteristics of the LBL two phase forced cooling system during cooldown and warm up. The paper presents experimental data on operations of the magnet using either a helium pump or the refrigerator compressor to circulate two phase heliu...
The double acting reciprocating bellows liquid helium pump built and tested at the Lawrence Berkeley...
The MICE cooling channel consists of alternating three absorber focus coil module (AFC) and two RF ...
This thesis explores a new design for a portable "permanent " superconducting magnet syste...
The g-2 muon storage nng magnet system consists of four large superconducting solenoids that are up ...
The g-2 muon storage ring magnet system consists of four large superconducting solenoids that are up...
A closed circuit tubular cooling system for superconducting magnets offers advantages of limiting bo...
The Time Projection Chamber (TPC) magnet at LBL and its compensation solenoids are adiabatically sta...
The cooling of the superconducting magnet cold masses with superfluid helium (He II) is a well-estab...
A cryogenic cooling system using a two-stage cryocooler for a superconducting magnet has been design...
Cryogenics is now widely present in large accelerator projects using applied superconductivity. Econ...
The heart of the absorber focus coil (AFC) module for the muon ionization cooling experiment (MICE) ...
The MICE cooling channel consists of alternating threeabsorber focus coil module (AFC) and two RF co...
This paper describes an all helium, low heat leak cryogenic system for the testing of a superconduct...
Superconducting magnets cooled by supercritical helium flowing through internal conductor passages a...
Through a technology transfer program CERN is involved in the R&D; of a compact superconducting cycl...
The double acting reciprocating bellows liquid helium pump built and tested at the Lawrence Berkeley...
The MICE cooling channel consists of alternating three absorber focus coil module (AFC) and two RF ...
This thesis explores a new design for a portable "permanent " superconducting magnet syste...
The g-2 muon storage nng magnet system consists of four large superconducting solenoids that are up ...
The g-2 muon storage ring magnet system consists of four large superconducting solenoids that are up...
A closed circuit tubular cooling system for superconducting magnets offers advantages of limiting bo...
The Time Projection Chamber (TPC) magnet at LBL and its compensation solenoids are adiabatically sta...
The cooling of the superconducting magnet cold masses with superfluid helium (He II) is a well-estab...
A cryogenic cooling system using a two-stage cryocooler for a superconducting magnet has been design...
Cryogenics is now widely present in large accelerator projects using applied superconductivity. Econ...
The heart of the absorber focus coil (AFC) module for the muon ionization cooling experiment (MICE) ...
The MICE cooling channel consists of alternating threeabsorber focus coil module (AFC) and two RF co...
This paper describes an all helium, low heat leak cryogenic system for the testing of a superconduct...
Superconducting magnets cooled by supercritical helium flowing through internal conductor passages a...
Through a technology transfer program CERN is involved in the R&D; of a compact superconducting cycl...
The double acting reciprocating bellows liquid helium pump built and tested at the Lawrence Berkeley...
The MICE cooling channel consists of alternating three absorber focus coil module (AFC) and two RF ...
This thesis explores a new design for a portable "permanent " superconducting magnet syste...