?url_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rft.title=STUDI+DESAIN+HIGH+TEMPERATURE+GAS-COOLED+REACTOR%0D%0A(HTGR)+BERPENDINGIN+GAS+HIDROGEN+MENGGUNAKAN+BAHAN%0D%0A%0D%0ABAKAR+THORIUM&rft.creator=Dika+Riyan+Saputra%2C+1417041019&rft.subject=500+ilmu+pengetahuan+alam+dan+matematika&rft.subject=530+Fisika&rft.description=Telah+dilakukan+penelitian+mengenai+desain+teras+reaktor+suhu+tinggi+(HTGR)%0D%0Aberpendingin+gas+hidrogen+dengan+bahan+bakar+thorium+menggunakan+program%0D%0ASRAC.+Reaktor+didesain+untuk+menghasilkan+daya+termal+yang+maksimal+dan%0D%0Akondisi+kritis.+Parameter+yang+dianalisis+pada+penelitian+ini+adalah+pengayaan%0D%0Abahan+bakar%2C+densitas+atom%2C+ukuran+teras+reaktor%2C+konfigurasi+teras+reaktor%2C%0D%0Akekritisan%2C+dan+distribusi+rapat+daya.+Perhitungan+pada+teras+reaktor+dilakukan%0D%0Asecara+dua+dimensi+(x%2Cy)+pada+1%0D%0A%0D%0A%2F6+bagian+teras+reaktor+dengan+mesh+berbentuk%0D%0Atriangular.+Bahan+bakar+yang+digunakan+adalah+Th232+dan+U233%2C+serta+gas+hidrogen%0D%0Asebagai+pendingin.+Pada+penelitian+ini+diperoleh+desain+teras+reaktor+yang+ideal%0D%0Adengan+ukuran+panjang+(x)+%3D+428+cm+dan+lebar+(y)+%3D+214+cm%2C+pengayaan+pada%0D%0Abahan+bakar+bagian+pertama+6%2C037%25+dan+bahan+bakar+bagian+kedua+8%25.+Desain%0D%0ATeras+reaktor+pada+penelitian+ini+menghasilkan+daya+termal+sebesar+60+MWth%2C%0D%0Adengan+nilai+rapat+daya+maksimal+sebesar+179%2C6747+Watt%2Fcm3+yang+terletak+pada%0D%0Atitik+x%3D1%2C+y%3D18+dan+nilai+faktor+multiplikasi+efektif+(keff)+sebesar+1%2C000005.%0D%0A%0D%0AKata+kunci%3A+Desain+teras+reaktor%2C+hidrogen%2C+HTGR%2C+rapat+daya%2C+thorium%0D%0ATheResearch+of+design+reactor+HTGR+cell+core+with+thorium+fuel+and+hydrogen%0D%0Agas+cooled+using+SRAC+program+has+been+done.+The+reactor+was+designed+to%0D%0Agenerate+maximum+thermal+power+and+critical+conditions.+The+parameters+on+this%0D%0Astudy+are+fuel+enrichment%2C+atomic+density%2C+size+and+configuration+of+reactor+core%2C%0D%0Acriticality+and+the+distribution+of+power+density.+Reactor+core+calculation+was%0D%0Adone+in+two+dimensional+core+(x%2Cy)+at+1%2F6+part+of+the+reactor+core+with+a%0D%0Atriangular+mesh.The+fuelwas+Th232+and+U233%2C+and+hydrogen+as+coolant.+In+this%0D%0Astudy%2C+the+ideal+reactor+core+design+was+length+(x)+was+428+cm+and+width+(y)+was%0D%0A214+cm%2C+the+first+fuel+enrichment+was+6%2C037%25+and+second+fuel+enrichment+was+8%25.%0D%0AReactor+core+design+in+this+study+generated+60+MWth+thermal+power+with%0D%0Amaximum+power+density+was+179%2C6747+Watt%2Fcm3+which+is+located+at+x%3D1%2C+y%3D18%0D%0Apoint+and+effective+multiplication+(keff)+is+1%2C000005.%0D%0AKeywords%3ACore+design+reactor%2C+hidrogen%2C+HTGR%2C+power+density%2C+thorium&rft.publisher=FAKULTAS+MATEMATIKA+DAN+ILMU+PENGETAHUAN+ALAM&rft.date=2019&rft.type=Skripsi&rft.type=NonPeerReviewed&rft.format=text&rft.identifier=http%3A%2F%2Fdigilib.unila.ac.id%2F57449%2F1%2FABSTRAK.pdf&rft.format=text&rft.identifier=http%3A%2F%2Fdigilib.unila.ac.id%2F57449%2F2%2FSKRIPSI%2520FULL.pdf&rft.format=text&rft.identifier=http%3A%2F%2Fdigilib.unila.ac.id%2F57449%2F3%2FSKRIPSI%2520TANPA%2520BAB%2520PEMBAHASAN.pdf&rft.identifier=++Dika+Riyan+Saputra%2C+1417041019++(2019)+STUDI+DESAIN+HIGH+TEMPERATURE+GAS-COOLED+REACTOR+(HTGR)+BERPENDINGIN+GAS+HIDROGEN+MENGGUNAKAN+BAHAN+BAKAR+THORIUM.++FAKULTAS+MATEMATIKA+DAN+ILMU+PENGETAHUAN+ALAM%2C+UNIVERSITAS+LAMPUNG.+++++&rft.relation=http%3A%2F%2Fdigilib.unila.ac.id%2F57449%2F