Setting the scene: how to protect the
different s.c. elements and materials of each
circuit, requirements from the different circuit
elements, general overview, references to other
reviews, simulations and prior experimental
validations
(detection schemes, instrumentation to meet the requirements,
detection on each s.c. element in the circuit, protection vs monitoring of splices, redundancy and mitigation in case of
instrumentation failures, etc)
specifications, how to meet requirements (tightness, insulation, etc), what is planned in terms of procurement, tables of different variants at present and how to match using the flanges variants. Delivery planning with respect to requirements.
specifications, how to meet requirements (tightness, insulation, etc), what is planned in terms of procurement, tables of different
variants at present and how to match using the flanges variants. Delivery planning with respect to requirements.
(introduction to the splice types, risks
associated in case of failure, achievable
accuracy for splice monitoring with UQDS,
should each single splice be equipped with
taps: why or why not)
(introduction to the splice types, risks associated in case of failure, achievable accuracy for splice monitoring with UQDS, should each single splice be equipped with taps: why or why not)
Statistics on how many V-taps and feedthroughs lost, failure
modes and mitigations, benefits of instrumentation during construction, commissioning and operation.
Types, specifications and qualification.
Delivery planning with respect to requirements.
