Irradiation Characteristic of Natural Uo2 Pin PHWR Target at PRTF of RSG – Gas Core

Susilo, Jati; Sembiring, Tagor Malem; Dewayatna, WD Winter

doi:10.17146/tdm.2017.19.2.3306

Cited by 3 publications

(2 citation statements)

References 6 publications

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“…Sebelum dilakukan uji iradiasi terhadap pelet UO 2 , perlu dilakukan terlebih dahulu pemodelan dan simulasi iradiasi pelet UO 2 untuk memprediksi prilaku termomekanik pelet UO 2 pada burn-up (fraksi bakar) tertentu yang akan menentukan umur pakainya dalam rangka pengoperasian bahan bakar yang selamat dan ekonomis di reaktor pengguna [1][2][3][4][5][6][7][8]. Hasil simulasi tersebut dapat memberikan gambaran unjuk kerja (keandalan) pelet UO 2 [4,[8][9] dan menjadi panduan bagi eksperimen iradiasi pin uji bahan bakarPWR pada parameter kondisi iradiasi di reaktor uji [1,3,10].…”

Section: Pendahuluanunclassified

Pemodelan Dan Simulasi Kinerja Pin Uji Bahan Bakar PWR Dengan Uo2 Diperkaya

Mutiara

Dewayatna

Yulianto

2019

urania

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PEMODELAN DAN SIMULASI KINERJA PIN UJI BAHAN BAKAR PWR DENGAN UO2 DIPERKAYA. Pemodelan dan simulasi pin uji bahan bakar PWR telah dilakukan menggunakan kode komputer termomekanik FEMAXI-6. Simulasi dilakukan untuk memprediksi kinerja pin uji dengan variasi pengayaan pelet UO2. Dari simulasi ini diharapkan akan diperoleh data mengenai pengaruh tingkat pengayaan bahan bakar, fluks netron yang diterima pin uji, durasi iradiasi dan tingkat pencapaian burn-up pada awal terjadinya kontak antara pelet UO2 dengan kelongsong zircaloy (pellet cladding mechanical interaction, PCMI) pada pin uji. Data tersebut selanjutnya akan digunakan sebagai panduan pada perencanaan eksperimen iradiasi di reaktor RSG GAS Batan Serpong. Data masukan yang diterima kode FEMAXI-6 adalah geometri dan jenis material yang akan diiradiasi serta parameter kondisi iradiasi seperti flux neutron atau linear heat rate. Selanjutnya dilakukan perhitungan perpindahan panas, distribusi temperatur, lepasan gas hasil fisi serta tekanan di dalam pin bahan bakar untuk seluruh panjang bahan-bakar dalam pin uji. Distribusi temperatur yang dihasilkan dari modul analisis termal digunakan pada modul analisis mekanik rinci (PCMI, lebar gap). Hasil simulasi menunjukan kecenderungan bahwa semakin besar tingkat pengayaan uranium dalam pelet UO2, semakin cepat kontak pelet-kelongsong terjadi pada penggunaan tingkat pembangkitan daya yang relatif sama, tetapi dengan masukan Linear Heat Rate yang tinggi. PCMI belum terjadi pada iradiasi uranium alam untuk pencapaian 100% burn-up dengan daya penuh sedangkan pada pelet UO2 diperkaya 5%, PCMI telah terjadi pada 900 jam iradiasi meskipun tingkat dayanya sudah diturunkan menjadi separuhnya dengan pencapaian burn-up sekitar 4%.Kata kunci: PRTF, simulasi, pin PWR, FEMAXI, unjuk kerja.

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Section: Pendahuluanunclassified

Pemodelan Dan Simulasi Kinerja Pin Uji Bahan Bakar PWR Dengan Uo2 Diperkaya

Mutiara

Dewayatna

Yulianto

2019

urania

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“…1, 2023 Nuclear reactors that have been operated have consequences from their use which are radioactive waste in the form of fission products and actinides as unavoidable by-products. Various solutions to the used fuel are increasing yearly by reprocessing the used fuel to be processed into new nuclear fuel (Susilo, 2000). The fuel produced annually is 10,000 tHM (tons of Heavy Metals), and currently, the accumulation reaches 225,000 tHM.…”

Section: Introductionmentioning

confidence: 99%

Burn-Up Analysis of Plutonium and Minor Actinide Recycling on Gas Cooled Fast Reactor (GCFR) Using SRAC COREBN

Munir

Yulianti²,

Suprihatin³

et al. 2023

J. Energy Mater. Instrum. Technol.

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Research on the analysis of recycling, plutonium, and minor actinides in the Gas Cooled Fast Reactor (GFCR) using SRAC COREBN has been done. This research uses a fuel mixture of uranium, plutonium, and minor actinides. The analysis was conducted with computational simulation using the COREBN code, an additional code to SRAC. The purpose of this research is to find out the influence of the addition of plutonium and actinide on the composition of nuclear fuel at the end of reactor operation and the limitation of the value of the multiplication factor (keff at the end of the reactor burn up period). Found in this research is the final value, the multiplication factor (keff) of 1.19964, and the conversion ratio value of 0.766813 in the burn-up period of 1515 days as well as the maximum power density value of 125.85 watts/cm³, the relative power density value at the radius y of 1,230263 and radius x equal to 1.19737 the atomic density value experienced a change in the number of nuclides in the types of nuclides U235, U238, Pu239, Pu241, Np237, and Am243 at the end of the burn-up period.

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Safety Analysis of Indonesia's Multipurpose Reactor During Irradiation of Natural UO2 Pin Target at Power Ramp Test Facility

Fadli

Khakim

Suharyana

et al. 2021

Journal of Nuclear Engineering and Radiation Science

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In order to support the utilization of Power Ramp Test Facility (PRTF) at RSG-GAS reactor, the investigation of safety parameters both on the target and the reactor during the irradiation of natural UO2 has been conducted. The PARET/ANL and MCNP6 codes are integrated for thermal-hydraulic and neutronic analysis under the reactivity insertion phenomenon. In the MCNP6 code, the reactivity insertion and Linear Heat Rate (LHR) are analyzed to confirm that the maximum value is still below the safety limits. In addition, the code computes kinetic parameters to provide inputs for the PARET/ANL code to evaluate the reactor response due to the target movement at the PRTF. The target moves from the farthest position to the nearest one traveling 440 mm, and then moves back to the original position. The result of the irradiation target simulation is satisfying, both maximum reactivity insertion and LHR values do not exceed the safety limit allowed. The pin target induces maximum reactivity insertion of 0.023%dk/k and produces the maximum LHR of 137.27 watt/cm and 274.54 watt/cm; when the reactor operates at 15 MW and 30 MW, respectively. In addition, the PARET/ANL simulation indicates that the reactor power oscillates due to the target movement. In order to avoid the reactor scram, the recommended pin target maximum velocities are 170 mm/s and 80 mm/s for reactor power of 15 MW and 30 MW, respectively.

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Irradiation Characteristic of Natural Uo2 Pin PHWR Target at PRTF of RSG – Gas Core

Cited by 3 publications

References 6 publications

Pemodelan Dan Simulasi Kinerja Pin Uji Bahan Bakar PWR Dengan Uo2 Diperkaya

Pemodelan Dan Simulasi Kinerja Pin Uji Bahan Bakar PWR Dengan Uo2 Diperkaya

Burn-Up Analysis of Plutonium and Minor Actinide Recycling on Gas Cooled Fast Reactor (GCFR) Using SRAC COREBN

Safety Analysis of Indonesia's Multipurpose Reactor During Irradiation of Natural UO2 Pin Target at Power Ramp Test Facility

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