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LOFT Results Demonstrate Resistance of Unpressurized PWR Fuel to Loss-of-Coolant Accidents

M. L. Russell

The initial visual examination of LOFT unpressurized fuel and evaluation of data recorded during the first three LOFT large-break, loss-of-coolant experiments (LOCE's) indicated the LOFT fuel to be in a reusable condition. Since the September 1977 core load, the LOFT fuel assemblies have been exposed to three large-break loss-of-coolant experiments; LOCE L1-5 without nuclear heat and LOSE's L2-2 and L2-3 with a 26 and 39 kw/m peak fuel rod linear heat generation rate at test initiation. The LOFT power operation has resulted in a cumulative fuel burnup of 987 megawatt-days per metric ton of uranium and linear heat generation levels of up to 53 kw/m at the peak power location. (ERA citation 05:020670)

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LOFT Results Demonstrate Resistance of Unpressurized PWR Fuel to Loss-of-Coolant Accidents

M. L. Russell

The initial visual examination of LOFT unpressurized fuel and evaluation of data recorded during the first three LOFT large-break, loss-of-coolant experiments (LOCE's) indicated the LOFT fuel to be in a reusable condition. Since the September 1977 core load, the LOFT fuel assemblies have been exposed to three large-break loss-of-coolant experiments; LOCE L1-5 without nuclear heat and LOSE's L2-2 and L2-3 with a 26 and 39 kw/m peak fuel rod linear heat generation rate at test initiation. The LOFT power operation has resulted in a cumulative fuel burnup of 987 megawatt-days per metric ton of uranium and linear heat generation levels of up to 53 kw/m at the peak power location. (ERA citation 05:020670)

LOFT Results Demonstrate Resistance of Unpressurized PWR Fuel to Loss-of-Coolant Accidents

M. L. Russell

The initial visual examination of LOFT unpressurized fuel and evaluation of data recorded during the first three LOFT large-break, loss-of-coolant experiments (LOCE's) indicated the LOFT fuel to be in a reusable condition. Since the September 1977 core load, the LOFT fuel assemblies have been exposed to three large-break loss-of-coolant experiments; LOCE L1-5 without nuclear heat and LOSE's L2-2 and L2-3 with a 26 and 39 kw/m peak fuel rod linear heat generation rate at test initiation. The LOFT power operation has resulted in a cumulative fuel burnup of 987 megawatt-days per metric ton of uranium and linear heat generation levels of up to 53 kw/m at the peak power location. (ERA citation 05:020670)

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Titel:

LOFT Results Demonstrate Resistance of Unpressurized PWR Fuel to Loss-of-Coolant Accidents

Beteiligte:

M. L. Russell (Autor:in)

Erscheinungsdatum:

1980

Format / Umfang:

6 pages

Medientyp:

Report

Format:

Keine Angabe

Sprache:

Englisch

Schlagwörter:

Reactor Engineering & Nuclear Power Plants , Fuel rods , Loss of coolant , Pwr type reactors , Inspection , Loft reactor , Performance , Power distribution , Pressure gradients , Reactor safety , Thermal stresses , ERDA/220900 , ERDA/210200 , ERDA/220600

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