Design of boron carbide-shielded irradiation channel of the outer irradiation channel of the Ghana Research Reactor-1 using MCNP

The MCNP model for the Ghana Research Reactor-1 was redesigned to incorporate a boron carbide-shielded irradiation channel in one of the outer irradiation channels. Extensive investigations were made before arriving at the final design of only one boron carbide covered outer irradiation channel; as...

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Veröffentlicht in:	Applied radiation and isotopes 2011, Vol.69 (1), p.85-89
Hauptverfasser:	Abrefah, R.G., Sogbadji, R.B.M, Ampomah-Amoako, E., Birikorang, S.A., Odoi, H.C., Nyarko, B.J.B
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Sprache:	eng
Schlagworte:	Effective criticality MCNP Prompt neutron lifetime
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container_title	Applied radiation and isotopes
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creator	Abrefah, R.G. Sogbadji, R.B.M Ampomah-Amoako, E. Birikorang, S.A. Odoi, H.C. Nyarko, B.J.B
description	The MCNP model for the Ghana Research Reactor-1 was redesigned to incorporate a boron carbide-shielded irradiation channel in one of the outer irradiation channels. Extensive investigations were made before arriving at the final design of only one boron carbide covered outer irradiation channel; as all the other designs that were considered did not give desirable results of neutronic performance. The concept of redesigning a new MCNP model, which has a boron carbide-shielded channel is to equip the Ghana Research Reactor-1 with the means of performing efficient epithermal neutron activation analysis. After the simulation, a comparison of the results from the original MCNP model for the Ghana Research Reactor-1 and the new redesigned model of the boron carbide shielded channel was made. The final effective criticality of the original MCNP model for the GHARR-1 was recorded as 1.00402 while that of the new boron carbide designed model was recorded as 1.00282. Also, a final prompt neutron lifetime of 1.5245×10 −4 s was recorded for the new boron carbide designed model while a value of 1.5571×10 −7 s was recorded for the original MCNP design of the GHARR-1.
doi_str_mv	10.1016/j.apradiso.2010.06.024
format	Article
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Extensive investigations were made before arriving at the final design of only one boron carbide covered outer irradiation channel; as all the other designs that were considered did not give desirable results of neutronic performance. The concept of redesigning a new MCNP model, which has a boron carbide-shielded channel is to equip the Ghana Research Reactor-1 with the means of performing efficient epithermal neutron activation analysis. After the simulation, a comparison of the results from the original MCNP model for the Ghana Research Reactor-1 and the new redesigned model of the boron carbide shielded channel was made. The final effective criticality of the original MCNP model for the GHARR-1 was recorded as 1.00402 while that of the new boron carbide designed model was recorded as 1.00282. 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title	Design of boron carbide-shielded irradiation channel of the outer irradiation channel of the Ghana Research Reactor-1 using MCNP
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