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Pande Made Udiyani

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Author-ID : 432120

Decision Sciences, Operations Research & Management Earth & Planetary Sciences Electrical & Electronics Engineering Energy Engineering Environmental Science Industrial & Manufacturing Engineering Materials Science & Nanotechnology Social Sciences

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PRELIMINARY DEVELOPMENT OF RADIONUCLIDES RELEASE OF INDIVIDUAL DOSE CODE PROGRAM FOR RADIATION MONITORING PURPOSES Jupiter Sitorus Pane; Pande Made Udiyani; Muhammad Budi Setiawan; Surip Widodo; I Putu Susila
JURNAL TEKNOLOGI REAKTOR NUKLIR TRI DASA MEGA Vol 23, No 3 (2021): October (2021)
Publisher : Pusat Teknologi Dan Keselamatan Reaktor Nuklir (PTKRN)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.17146/tdm.2021.23.3.6240

Environmental radiation monitoring is one of the important efforts in protecting society and the environment from radiation hazards, both natural and artificial. The presence of three nuclear research reactors and plans to build a nuclear power plant reactor prompted Indonesia to prepare a radiation monitoring system for safety and security (SPRKK). The goal of the study is to provide an appropriate method for developing radiation monitoring system to support the development of nuclear power plant in the near future. For this preliminary study, the author developed a code program using Gaussian distribution model approach for predicting radionuclide release and individual dose acceptancy by human being within 16 wind directions sectors and up to 50 km distance. The model includes estimation of source term from the nuclear installation, release of radionuclides source into air following Gaussian diffusion model, some of the release deposit to the land and entering human being through inhalation, direct external exposure, and resuspension, and predicted its accepted individual dose. This model has been widely used in various code program such as SimPact and PC-Cosyma. For this study, the model will be validated using SimPact code program. The model has been successfully developed with less than 5% deviation. Further study will be done by evaluating the model with real measuring data from research reactor installation and prepare for interfacing with real time radiation data acquisition and monitoring as part of radiation monitoring system during normal and accident condition.

AKTIVITAS DAN KONSEKUENSI DISPERSI RADIOAKTIF UNTUK DAERAH KOTA DAN PEDESAAN Pande Made Udiyani; Sri Kuntjoro; Jupiter Sitorus Pane
Jurnal Pengembangan Energi Nuklir Vol 17, No 2 (2015): Desember 2015
Publisher : Pusat Kajian Sistem Energi Nuklir, Badan Tenaga Nuklir Nasional

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.17146/jpen.2015.17.2.2603

ABSTRAKAKTIVITAS DAN KONSEKUENSI DISPERSI RADIOAKTIF UNTUK DAERAH KOTA DAN PEDESAAN. Konsekuensi karena lepasan kontaminan radioaktif oleh manusia dipengaruhi oleh banyak faktor seperti besarnya aktivitas kontaminan yang tersebar dan kondisi lingkungan. Kondisi lingkungan meliputi kondisi meteorologi, kontur tapak, dan pathway kontaminan ke manusia. Tujuan penelitian ini adalah analisis aktivitas dan konsekuensi radionuklida waktu paruh panjang akibat kecelakaan di daerah perkotaan dan pedesaan. Tujuan khusus adalah menghitung aktivitas dispersi udara dan deposisi permukaan, prediksi laju dosis dan risiko yang ditimbulkan untuk daerah perkotaan dan pedesaan sebagai fungsi lokasi. Metode yang digunakan adalah simulasi estimasi konsekuensi dari dispersi produk fisi di atmosfer akibat kecelakaan terpostulasi Beyond Design Basis Accident, BDBA. Perhitungan dilakukan untuk lepasan radioaktif akibat kecelakaan PWR 1000 MWe yang disimulasikan untuk area pedesaan dan perkotaan Tapak Bojanegara-Serang. Hasil analisis aktivitas dispersi udara dan deposisi permukaan untuk area pedesaan (rural) lebih tinggi dibandingkan areal perkotaan (urban). Penerimaan dosis untuk area pedesaan lebih tinggi dibandingkan dengan penerimaaan dosis area perkotaan. Dosis invidu efektif maksimum untuk area pedesaan (rural) adalah 9,24x10-2 Sv dan daerah perkotaan (urban) adalah 5,14x10-2 Sv. Risiko total terkena kanker untuk masyarakat yang berdomisili di area perkotaan lebih tinggi dibandingkan area pedesaan. Kata kunci: aktivitas, konsekuensi, dispersi, perkotaan, pedesaan ABSTRACTTHE ACTIVITIES AND RADIOACTIVE DISPERSION CONSEQUENCES FOR URBAN AND RURAL AREA. The consequences of radioactive releases of contaminants by humans is influenced by many factors such as the amount of activity that spread contaminants and environmental conditions. Environmental conditions include meteorological conditions, the contours of the site and contaminant pathways to humans. The purpose of this research is the analysis of the consequences of radionuclide activity and long half-life time due to accidents in urban and rural areas. The specific objective is to calculate the activity of the air dispersion and surface deposition, dose rate predictions and the risks posed to urban and rural areas as a function of the location. The estimates method used is simulation of the consequences on fission products dispersion in the atmosphere due to the postulated accident Beyond Design Basis Accident, BDBA. The calculation is performed for radioactive releases from accidents in 1000 MWe PWR simulated for rural and urban areas on Bojanegara-Serang site. Results of the analysis are that the activity of air dispersion and deposition surface at rural areas higher than urban areas. The Acceptance dose is higher for rural areas compared with urban areas. The maximum effective individual dose for rural areas is 9.24x10-2 Sv and urban areas is 5.14x10-2 Sv. The total risk of cancer for people who live in urban areas is higher than rural areas. Keywords: activity, consequence, dispersion, urban, rural

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