The Sandia Pulsed Reactor Facility (SPRF)
The Sandia Pulsed Reactor Facility (SPRF)

Author: P. D. O'Brien

Publisher:

Published: 1962

Total Pages: 46

ISBN-13:

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The Sandia Pulsed Reactor Facility (SPRF) is a laboratory facility specifically designed for radiation effects experiments which require an intense pulse of fast neutrons and gamma rays.

Health Physics Aspects of the Start-up and Operation of the Sandia Pulsed Reactor Facility (SPRF)
Health Physics Aspects of the Start-up and Operation of the Sandia Pulsed Reactor Facility (SPRF)

Author:

Publisher:

Published: 1962

Total Pages: 26

ISBN-13:

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This report describes unusual health physics problems, such as shielding modifications required, encountered with start-up and operation of the Sandia pulsed reactor. Included are: integral radiation doses received from primary and scattered neutron radiation; gamma radiation doses resulting from fission products in the reactor itself; and neutron induced radioactivities in the air, walls, and floor of the reactor building. Also listed are present health physics procedures and personnel dose histories.

Sandia Pulsed Reactor Facility (SPRF) Calculator-assisted Pulse Analysis and Display System
Sandia Pulsed Reactor Facility (SPRF) Calculator-assisted Pulse Analysis and Display System

Author:

Publisher:

Published: 1980

Total Pages:

ISBN-13:

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Two solid-metal fast burst type reactors (SPR II and SPR III) are operated at the Sandia Pulsed Reactor Facility. Since startup of the reactors, oscilloscope traces have been used to record (by camera) the pulse (power) shape while log N systems have measured initial reactor period. Virtually no other pulse information is available. A decision was made to build a system that could collect the basic input data available from the reactor - fission chambers, photodiodes, and thermocouples - condition the signals and output the various parameters such as power, energy, temperature, period and lifetime on hard copy that would provide a record for operations personnel as well as the experimenter. Because the reactors operate in short time frames - pulse operation - it is convenient to utilize the classical Nordheim-Fuchs approximation of the diffusion equation to describe reactor behavior. This report describes the work performed to date in developing the calculator system and analytical models for computing the desired parameters.