?url_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rft.title=DESAIN+REAKTOR+AIR+SUPERKRITIS+(SUPERCRITICAL+WATER%0D%0AREACTOR)+MODEL+TERAS+SILINDER+(r%2Cz)+MENGGUNAKAN+BAHAN%0D%0ABAKAR+URANIUM-THORIUM&rft.creator=+IZDIHA+ROLINA+SOFAA+%2C+1217041022&rft.subject=Q+Science+(General)&rft.description=Telah+dilakukan+penelitian+mengenai+desain+reaktor+air+superkritis+(SCWR)+model%0D%0Ateras+silinder+menggunakan+bahan+bakar+Uranium-Thorium.+Analisis+neutronik%0D%0Adilakukan+menggunakan+program+System+Reactor+Atomic+Code+(SRAC)+yang%0D%0Adikembangkan+oleh+Japan+Atomic+Energy+Research+Institute+(JAERI).+Parameter%0D%0Aneutronik+yang+dianalisis+pada+penelitian+ini+meliputi+persentase+pengayaan+bahan%0D%0Abakar%2C+ukuran+teras+reaktor%2C+dan+konfigurasi+teras+reaktor+yang+memenuhi+standar%0D%0Akekritisan.+Analisis+dilakukan+menggunakan+CITATION+pada+SRAC+dengan+teras%0D%0Areaktor+berbentuk+silinder+dua+dimensi+(r%2Cz)+pada+1%2F4+bagian+teras.+Input+pada%0D%0Apenelitian+ini+berupa+densitas+atom%2C+fraksi+volume%2C+dan+daya+termal.+Hasil+yang%0D%0Adiperoleh+berupa+faktor+multiplikasi+dan+distribusi+rapat+daya+yang+telah%0D%0Adihomogenisasi+dan+collapsing+sesuai+dengan+grup+yang+telah+ditentukan.+Bahan%0D%0Abakar+yang+digunakan+pada+penelitian+ini+adalah+Uranium-233+dan+Thorium-232%2C%0D%0Astainless+steel+sebagai+selonsong%2C+air+ringan+sebagai+moderator+dan+pendingin.%0D%0AHasil+simulasi+menunjukkan+desain+teras+reaktor+dengan+ukuran+baris+(r)+%3D+130%0D%0Acm+dan+kolom+(z)+%3D+180+cm%2C+pengayaan+pada+inner+fuel+sebesar+1%2C7805%25%2C+dan%0D%0Apada+outer+fuel+sebesar+2%2C5%25+mempunyai+nilai+faktor+mulplikasi+dan+distribusi%0D%0Arapat+daya+yang+paling+optimal.+Desain+ini+menghasilkan+daya+termal+3000%0D%0AMWth%2C+rapat+daya+maksimal+sebesar+199%2C6577+Watt%2Fcm3%2C+dan+nilai+k-efektif%0D%0A1%2C000008.%0D%0AKata+kunci%3A+Analisis+neutronik+%2C+desain+inti%2C+rapat+daya%2C+SCWR%2C+thorium%2C%0D%0Auranium.%0D%0A%0D%0AABSTRACT%0D%0A%0D%0AThe+research+of+design+of+supercritical+water+reactor+(SCWR)+with+cell+core%0D%0ACillynder+(r%2Cz)+model+using+Uranium-Thorium+fueled+has+been+done.+Neutronic%0D%0Aanalysis+on+SCWR+by+using+computer+simulation+SRAC+program+were+developed%0D%0Aby+JAERI.+Neutronic+parameters+for+reactor+critical+condition+were+fuel+core%0D%0Aenrichment%2C+reactor+size%2C+and+core+configurations.+The+analysis+two+dimensional%0D%0A(r%2Cz)+are+achieved+by+CITATION.+Input+programs+of+this+research+were+atom%0D%0Adensity%2C+volume+fraction%2C+and+size+reactor+as+input+program.+The+results+of+this%0D%0Aresearch+were+multification+factors+and+power+density+after+homogenized+and%0D%0Acollapsed+based+on+the+determined+grup.+This+research+used+Uranium-233+and%0D%0AThorium-232+as+fuel%2C+Stainless+steel+as+cladding%2C+and+light+water+as+moderator%0D%0Aand+coolant.+The+results+has+optimal+multiplication+factors+and+power+density%0D%0Adistributions+on+core+design+with+size+r%3D130+cm%2C+z%3D180cm%2C+inner+fuel%0D%0Aenrichment%3D1%2C7805%25+and+outer+fuel+enrichment%3D2%2C5%25.+The+reactor+has+3000%0D%0AMWth+thermal+power%2C+199%2C6577+Watt%2Fcc+maximum+power+density%2C+and+1%2C000008%0D%0Ak-eff.%0D%0AKeywords%3A+Neutronic+analysis%2C+core+design%2C+power+density%2C+SCWR%2C+thorium%2C%0D%0Auranium.&rft.publisher=FAKULTAS+MATEMATIKA+DAN+ILMU+PENGETAHUAN+ALAM&rft.date=2016-08-19&rft.type=Skripsi&rft.type=NonPeerReviewed&rft.format=text&rft.identifier=http%3A%2F%2Fdigilib.unila.ac.id%2F23674%2F1%2FABSTRAK%2520%2528ABSTRACT%2529.pdf&rft.format=text&rft.identifier=http%3A%2F%2Fdigilib.unila.ac.id%2F23674%2F2%2FSKRIPSI%2520FULL.pdf&rft.format=text&rft.identifier=http%3A%2F%2Fdigilib.unila.ac.id%2F23674%2F3%2FSKRIPSI%2520TANPA%2520BAB%2520PEMBAHASAN.pdf&rft.identifier=+++IZDIHA+ROLINA+SOFAA+%2C+1217041022++(2016)+DESAIN+REAKTOR+AIR+SUPERKRITIS+(SUPERCRITICAL+WATER+REACTOR)+MODEL+TERAS+SILINDER+(r%2Cz)+MENGGUNAKAN+BAHAN+BAKAR+URANIUM-THORIUM.++FAKULTAS+MATEMATIKA+DAN+ILMU+PENGETAHUAN+ALAM%2C+UNIVERSITAS+LAMPUNG.+++++&rft.relation=http%3A%2F%2Fdigilib.unila.ac.id%2F23674%2F