Turkish Journal of Nuclear Sciences » Makale » INVESTIGATION OF THE FIRST STAGE SINTERING KINETICS OF ADDITIVE FREE UO2 PELLETS

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KATIŞKISIZ UO2 YAKIT PELETLERİNİN İLK AŞAMA SİNTERLEME KİNETİĞİNİN İNCELENMESİ

Yıl 2018, Cilt: 30 Sayı: 2, 13 - 20, 25.12.2018

Sevgi Akbal Ahmet Yaylı

Öz

Bu çalışmanın amacı katışkısız UO2 yakıt peletlerinin birinci sinterleme kinetiği ve aktivasyon enerjilerinin incelenmesidir. UO2 ve U3O8 ilave edilmiş UO2 yakıt peletleri toz metalurji yöntemiyle üretilmiştir. UO2 ve U3O8 ilave edilmiş UO2 yakıt peletleri dilatometrede, Ar+%5 H2 atmosferinde sinterlenmiştir. Aktivasyon enerjilerini hesaplamak için sabit ısıtma hızı yöntemi kullanılmıştır. Ayrıca, sinterlenen peletlerin özelliklerine U3O8 etkisi incelenmiştir.

Anahtar Kelimeler

Nükleer pelet, UO2, U3O8, aktivasyon enerji, sabit ısıtma hızı

Kaynakça

1) Aybers, M. T. (1989). UO2, ThO2 ve (u,Th)O2 peletlerinin birinci safha sinterleme kinetiğinin incelenmesi. İstanbul, Türkiye: İstanbul Teknik Üniversitesi-Nükleer Enerji Enstitüsü. 2) Banerjee, J., Kutty, T., Kumar, A., Kamath, H., & Banerjee, S. (2011). Densification behaviour and sintering kinetics of ThO2-4%UO2 pellet. Journal of Nuclear Materials, pp. 224-230. 3) Dehaudt, P., Bourgeois, L., & Chevrel, H. (2001). Activation energy of UO2 and UO2+x sintering. Journal of Nuclear Materials(299), s. 250-259. 4) Ganguly, C., & Jayaraj, R. N. (2002). Characterisation and quality control of nuclear fuels. New Delhi: Alled Publishers Pvt. Limited. 5) Kang, W. K., Yang, J. H., Kim, J. H., Rhee, Y. W., Kim, D. J., Kim, K. S., & Song, K. W. (2008). Improvement of UO2 pellet Properties by Controlling the powder morphology of recycled U3O8 powder. journal of Nuclear Science and Techonology, 1150-1154. 6) Kutty, T., Khan, K., Hegde, P., Sengupta, A., Majumbar, S., & Kamatha, H. (2003). Deterrmination of activation energy of sintering of ThO2-U3O8 pellets using the master sintering curve approach. Science of Sintering, 35, 125-132. 7) Lahiri, D., Ramana Rao, S. V., & Hemanta Rao, G. V. (2006). Study on sintering kinetics and activation energy of UO2 pellets using three different methods. Journal of Nuclear Materials(357), s. 88-96. 8) Santos, L. R., & Riella, H. G. (2009). Effect of deffect of densification additive (Al (OH)and U3O8 recycle in sintering UO2-7wt%Gd2O3 fuel pellets. 2009 ınternational Nuclear Atlantic Conference-INAC 2009. Rio de Janeiro, Brazil: ABEN. May 9.5.2017, 2017 tarihinde alındı 9) Song, K. W., Kim, K. S., Kang, K. W., & Jung, Y. H. (2002). Large-grained UO2 pellets without impurity additives. CQCNF-2002. INDIA. 10) Song, K. W., Kim, K. S., Ki, W. K., Kim, Y. M., & Yang, J. H. (1999). Effect of TiO2 on sintering behavour of mixed UO2 and U3O8. Jurnal of the Korean Nuclear Society, 455-464. 11) Sökücü, A. S. (2015). SOL-GEL Prosesinin Jelleşme Tekniği İle Üretilen UO2, ThO2 ve (Th,U)O2 Peletlerinin Birinci Safha Sinterlem E Kinetiğinin İncelenmesi. İstanbul, Türkiye.

INVESTIGATION OF THE FIRST STAGE SINTERING KINETICS OF ADDITIVE FREE UO2 PELLETS

Yıl 2018, Cilt: 30 Sayı: 2, 13 - 20, 25.12.2018

Sevgi Akbal Ahmet Yaylı

Öz

The purpose of this study is to investigate the first stage sintering kinetics and to calculate activation energy of additive free UO2 pellets. UO2 pellets and U3O8 added UO2 pellets were fabricated by powder metallurgy route. Pellets were sintered in the Ar+ 5% H2 atmosphere using a dilatometer. Activation energy calculations carried out by constant heating rate. The influence of U3O8 addition on the properties of sintered UO2 pellets was also investigated.

Anahtar Kelimeler

Nuclear fuel pellet, UO2, U3O8, activation energy, constant heating rate

Kaynakça

1) Aybers, M. T. (1989). UO2, ThO2 ve (u,Th)O2 peletlerinin birinci safha sinterleme kinetiğinin incelenmesi. İstanbul, Türkiye: İstanbul Teknik Üniversitesi-Nükleer Enerji Enstitüsü. 2) Banerjee, J., Kutty, T., Kumar, A., Kamath, H., & Banerjee, S. (2011). Densification behaviour and sintering kinetics of ThO2-4%UO2 pellet. Journal of Nuclear Materials, pp. 224-230. 3) Dehaudt, P., Bourgeois, L., & Chevrel, H. (2001). Activation energy of UO2 and UO2+x sintering. Journal of Nuclear Materials(299), s. 250-259. 4) Ganguly, C., & Jayaraj, R. N. (2002). Characterisation and quality control of nuclear fuels. New Delhi: Alled Publishers Pvt. Limited. 5) Kang, W. K., Yang, J. H., Kim, J. H., Rhee, Y. W., Kim, D. J., Kim, K. S., & Song, K. W. (2008). Improvement of UO2 pellet Properties by Controlling the powder morphology of recycled U3O8 powder. journal of Nuclear Science and Techonology, 1150-1154. 6) Kutty, T., Khan, K., Hegde, P., Sengupta, A., Majumbar, S., & Kamatha, H. (2003). Deterrmination of activation energy of sintering of ThO2-U3O8 pellets using the master sintering curve approach. Science of Sintering, 35, 125-132. 7) Lahiri, D., Ramana Rao, S. V., & Hemanta Rao, G. V. (2006). Study on sintering kinetics and activation energy of UO2 pellets using three different methods. Journal of Nuclear Materials(357), s. 88-96. 8) Santos, L. R., & Riella, H. G. (2009). Effect of deffect of densification additive (Al (OH)and U3O8 recycle in sintering UO2-7wt%Gd2O3 fuel pellets. 2009 ınternational Nuclear Atlantic Conference-INAC 2009. Rio de Janeiro, Brazil: ABEN. May 9.5.2017, 2017 tarihinde alındı 9) Song, K. W., Kim, K. S., Kang, K. W., & Jung, Y. H. (2002). Large-grained UO2 pellets without impurity additives. CQCNF-2002. INDIA. 10) Song, K. W., Kim, K. S., Ki, W. K., Kim, Y. M., & Yang, J. H. (1999). Effect of TiO2 on sintering behavour of mixed UO2 and U3O8. Jurnal of the Korean Nuclear Society, 455-464. 11) Sökücü, A. S. (2015). SOL-GEL Prosesinin Jelleşme Tekniği İle Üretilen UO2, ThO2 ve (Th,U)O2 Peletlerinin Birinci Safha Sinterlem E Kinetiğinin İncelenmesi. İstanbul, Türkiye.

Toplam 1 adet kaynakça vardır.

Ayrıntılar

Birincil Dil	İngilizce
Bölüm	Articles
Yazarlar	Sevgi Akbal Bu kişi benim Ahmet Yaylı Bu kişi benim
Yayımlanma Tarihi	25 Aralık 2018
Yayımlandığı Sayı	Yıl 2018 Cilt: 30 Sayı: 2

Kaynak Göster

APA	Akbal, S., & Yaylı, A. (2018). INVESTIGATION OF THE FIRST STAGE SINTERING KINETICS OF ADDITIVE FREE UO2 PELLETS. Turkish Journal of Nuclear Sciences, 30(2), 13-20.
AMA	Akbal S, Yaylı A. INVESTIGATION OF THE FIRST STAGE SINTERING KINETICS OF ADDITIVE FREE UO2 PELLETS. Turkish Journal of Nuclear Sciences. Aralık 2018;30(2):13-20.
Chicago	Akbal, Sevgi, ve Ahmet Yaylı. “INVESTIGATION OF THE FIRST STAGE SINTERING KINETICS OF ADDITIVE FREE UO2 PELLETS”. Turkish Journal of Nuclear Sciences 30, sy. 2 (Aralık 2018): 13-20.
EndNote	Akbal S, Yaylı A (01 Aralık 2018) INVESTIGATION OF THE FIRST STAGE SINTERING KINETICS OF ADDITIVE FREE UO2 PELLETS. Turkish Journal of Nuclear Sciences 30 2 13–20.
IEEE	S. Akbal ve A. Yaylı, “INVESTIGATION OF THE FIRST STAGE SINTERING KINETICS OF ADDITIVE FREE UO2 PELLETS”, Turkish Journal of Nuclear Sciences, c. 30, sy. 2, ss. 13–20, 2018.
ISNAD	Akbal, Sevgi - Yaylı, Ahmet. “INVESTIGATION OF THE FIRST STAGE SINTERING KINETICS OF ADDITIVE FREE UO2 PELLETS”. Turkish Journal of Nuclear Sciences 30/2 (Aralık 2018), 13-20.
JAMA	Akbal S, Yaylı A. INVESTIGATION OF THE FIRST STAGE SINTERING KINETICS OF ADDITIVE FREE UO2 PELLETS. Turkish Journal of Nuclear Sciences. 2018;30:13–20.
MLA	Akbal, Sevgi ve Ahmet Yaylı. “INVESTIGATION OF THE FIRST STAGE SINTERING KINETICS OF ADDITIVE FREE UO2 PELLETS”. Turkish Journal of Nuclear Sciences, c. 30, sy. 2, 2018, ss. 13-20.
Vancouver	Akbal S, Yaylı A. INVESTIGATION OF THE FIRST STAGE SINTERING KINETICS OF ADDITIVE FREE UO2 PELLETS. Turkish Journal of Nuclear Sciences. 2018;30(2):13-20.

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