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Power cutbacks as an alternative to scrams: an application of the MIT-SNL period generated minimum time control laws

A cutback is a rapid reduction in a reactor's neutronic power caused by the high-speed insertion of the control devices. The advantage of using cutbacks in lieu of scrams is that the cutback may make the reactor only slightly subcritical while still significantly decreasing the power. Thus, the...

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Published in:	IEEE transactions on nuclear science 1991-04, Vol.38 (2), p.516-524
Main Author:	Bernard, J.A.
Format:	Article
Language:	English
Subjects:	220400 - Nuclear Reactor Technology- Control Systems 220900 - Nuclear Reactor Technology- Reactor Safety CONTROL SYSTEMS DATA EQUATIONS EXPERIMENTAL DATA Fission reactors GENERAL STUDIES OF NUCLEAR REACTORS Inductors INFORMATION KINETICS Laboratories Nuclear power generation NUMERICAL DATA Power generation REACTOR CONTROL SYSTEMS Reactor instrumentation REACTOR KINETICS REACTOR SAFETY REACTOR SHUTDOWN SAFETY SCRAM Senior members SHUTDOWN STRESSES SUBCRITICALITY THERMAL STRESSES Trajectory
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container_end_page	524
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container_title	IEEE transactions on nuclear science
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creator	Bernard, J.A.
description	A cutback is a rapid reduction in a reactor's neutronic power caused by the high-speed insertion of the control devices. The advantage of using cutbacks in lieu of scrams is that the cutback may make the reactor only slightly subcritical while still significantly decreasing the power. Thus, the thermal stress associated with a complete shutdown is avoided, and a rapid return to normal operation is possible. The physical basis for cutbacks is reviewed. and possible areas of application are enumerated. At present, cutbacks are implemented by inserting the control devices at a prespecified speed. The power will decrease, but neither the profile nor the magnitude of the decrease is specified. As a result, cutbacks are not used extensively in reactor safety systems. Use of the Massachusetts Institute of Technology-Sandia National Laboratories (MIT-SNL) period-generated minimum time control laws to rectify these deficiencies is proposed.< >
doi_str_mv	10.1109/23.289351
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The advantage of using cutbacks in lieu of scrams is that the cutback may make the reactor only slightly subcritical while still significantly decreasing the power. Thus, the thermal stress associated with a complete shutdown is avoided, and a rapid return to normal operation is possible. The physical basis for cutbacks is reviewed. and possible areas of application are enumerated. At present, cutbacks are implemented by inserting the control devices at a prespecified speed. The power will decrease, but neither the profile nor the magnitude of the decrease is specified. As a result, cutbacks are not used extensively in reactor safety systems. 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The advantage of using cutbacks in lieu of scrams is that the cutback may make the reactor only slightly subcritical while still significantly decreasing the power. Thus, the thermal stress associated with a complete shutdown is avoided, and a rapid return to normal operation is possible. The physical basis for cutbacks is reviewed. and possible areas of application are enumerated. At present, cutbacks are implemented by inserting the control devices at a prespecified speed. The power will decrease, but neither the profile nor the magnitude of the decrease is specified. As a result, cutbacks are not used extensively in reactor safety systems. 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language	eng
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source	IEEE Electronic Library (IEL) Journals
subjects	220400 - Nuclear Reactor Technology- Control Systems 220900 - Nuclear Reactor Technology- Reactor Safety CONTROL SYSTEMS DATA EQUATIONS EXPERIMENTAL DATA Fission reactors GENERAL STUDIES OF NUCLEAR REACTORS Inductors INFORMATION KINETICS Laboratories Nuclear power generation NUMERICAL DATA Power generation REACTOR CONTROL SYSTEMS Reactor instrumentation REACTOR KINETICS REACTOR SAFETY REACTOR SHUTDOWN SAFETY SCRAM Senior members SHUTDOWN STRESSES SUBCRITICALITY THERMAL STRESSES Trajectory
title	Power cutbacks as an alternative to scrams: an application of the MIT-SNL period generated minimum time control laws
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