Perhitungan berat molekul dari olivine dan katalis olivine Komponen
d. Perhitungan berat molekul dari olivine dan katalis olivine Komponen
berat BM i xi × BM i MgO 49 40,304 19,748 SiO 2 40 60,084 24,034 Fe 2 O 3 9,89 159,687 15,793 Al 2 O 3 0,4 101,961 0,408 Cr 2 O 3 0,4 151,989 0,608 CaO 0,3 56,077 0,168 NiO 0,01 74,692 0,007 Total 60,767 Komponen berat BM i xi × BM i MgO 46 40,304 18,539 SiO 2 39 60,084 23,433 Fe 2 O 3 9,2 159,687 14,691 Al 2 O 3 0,4 101,961 0,408 Cr 2 O 3 0,4 151,989 0,608 CaO 0,3 56,077 0,168 NiO 4,7 74,692 3,511 Total 61,358 Universitas Sumatera Utara Perhitungan Neraca energi gasifier R-201 a. Entalpi aliran 2 H 2 massa CKS kering F 2 = 73040 + 9960 = 83000 kg T = 30 o C = 303,150 K Komponen n mol CpdT, kJmol Hf, kJmol Hi kJ H 2 O 552869,537 0,075 -241,997 -133751326,734 CKS 434818,845 5,219 -193,634 -81926303,331 H 2 , kJ -215677630,065 b. Entalpi aliran 3, H 3 Aliran 3 adalah aliran steam low pressure. T steam = 126.667 o C Komponen n mol Cp L dT Hv Cp V dT Hf Hi kJ H 2 O 603707,967 5,672 40,683 916,144 -241,997 434973065,879 H 3 , kJ 434973065,879 c. Entalpi aliran 9, H 9 pada = 982,222 o C = 1255,372 K Aliran 9 adalah olivine yang terbawa dari Cylone S-203 F 9 olivine = 1972080 kg Komponen n mol CpdT, kJmol Hi kJ Olivine 32453084,876 69,710 2262288885,180 H 9 , kJ 2262288885,180 Universitas Sumatera Utara d. Entalpi aliran produk pada 870 o C Aliran 4 adalah gas sintesa yang terbentuk + char + olivine Diketahui : T = 870 o C = 1143,15 K Sumber : Technical Report NRELTP-510-37408 May 2005, page 8 Komponen n mol CpdT, kJmol Hi kJ H 2 1694372,096 31,121 52730136,976 CO 2 334882,249 56,163 18808011,492 CO 453260,371 33,631 15243410,871 H 2 O 2174620,180 42,862 93209134,630 CH 4 406701,109 77,580 31552002,057 C 2 H 4 14365,042 99,929 1435484,640 C 2 H 6 13401,908 131,368 1760585,872 C 3 H 8 1740,725 186,597 324814,132 C 3 H 6 2736,205 153,156 419066,672 C 4 H 10 66,032 239,174 15793,139 C 4 H 8 68,405 207,334 14182,624 Char 231651,338 106,186 24598081,880 Olivine 32453084,876 69,068 2241473616,011 H 4 2481584320,995 f. Menghitung panas reaksi Q pada gasifier Q = H 4 – H 2 – H 3 – H 9 = 2481584320,995 – –215677630,065 – 434973065,879 – 2262288885,180 = 0 kJ Universitas Sumatera Utara Tabel LB-6 Neraca Energi pada Gasifier R-201 Komponen Masuk kJ Keluar kJ H 2 H 3 H 9 H 4 H 2 52730136,976 CO 2 18808011,492 CO 15243410,871 H 2 O -133751326,734 434973065,879 93209134,630 CH 4 31552002,057 C 2 H 4 1435484,640 C 2 H 6 1760585,872 C 3 H 8 324814,132 C 3 H 6 419066,672 C 4 H 10 15793,139 C 4 H 8 14182,624 Olivine 2262288885,180 2241473616,011 Char 24598081,880 CKS -81926303,331 Jumlah -215677630,065 434973065,879 2262288885,180 2481584320,995 Sub total 2481584320,995 2481584320,995 Q 0,000 Total 2481584320,995 2481584320,995 Universitas Sumatera Utara4.49 Cyclone S-201
Parts
» Perumusan Masalah Tujuan Perancangan Ruang Lingkup Perancangan Manfaat Perancangan
» Gambaran Umum Hidrogen TINJAUAN PUSTAKA
» Kelapa Sawit Komposisi Cangkang Kelapa Sawit
» Oksidasi parsial Integrated gasification combined cycle IGCC
» Pirolisis Elektrolisis air Produksi hidrogen secara biologi
» Steam Reformer R-401 Reaktor High Temperature Shift Converter R-402
» Gasifier Cyclone S-201 Cyclone S-202 Char Combustor R-202
» Cyclone S-203 Reformer R-203 Cooler H-201 H-202
» Scrubber Gas Sintesis M-301 M-302 Quench Water Recirculation Cooler Knock Out Drum S-301
» Compressor K-301A Air-cooler H-302A Knock Out Drum S-302A Compressor K-301B
» Air-cooler H-302B Knock Out Drum S-302B Compressor K-301C Air-cooler H-302C
» Knock Out Drum S-302C Compressor K-301D Air-cooler H-302D Knock Out Drum S-302D
» Compressor K-301E Air-cooler H-302E After-cooler H-303 Post-Compressor Knock-Out S-303
» Steam Reformer R-401 NERACA ENERGI
» Air-Cooler H-408 After-cooler H-409 Pre-PSA Knock-Out 2 S-402 Pressure Swing Adsorption Unit S-403
» Bin Katalis Olivine T-105 Screw Conveyor C-102 Olivine Screw Conveyor C-103 Gasifier R-201
» Cyclone S-203 Char Combustor R-202
» Blower K-201 Reformer R-203 Cooler H-201
» Cooler H-202 Quench Chamber M-301
» Venturi Scrubber M-302 Pompa P-301 Quench Water Recirculation Cooler H-301
» Knock Out Drum S-301 Compressor K-301A Air-cooler H-302A
» Knock Out Drum S-302A Compressor K-301B Air-cooler H-302B
» Knock Out Drum S-302B Compressor K-301C Air-cooler H-302C
» Knock Out Drum S-302C Compressor K-301D Air-cooler H-302D
» Knock Out Drum S-302D Compressor K-301E Air-cooler H-302E
» After-cooler H-303 Post-Compressor Knock-Out S-303 Pompa P-302
» Steam Reformer R-401 Flue Gas Reformer Feed Preheater H-401 Flue Gas CoolerSteam Superheater H-404
» Reformer Syngas CoolerSteam Generator 2 H-402 Reformer Syngas CoolerSteam Superheater 1 H-403
» PSA PrecoolerDeaerator Water Preheater 1 H-407 Pre-PSA Knock-Out 1 S-401 Air-Cooler H-408
» Aftercooler H-409 Pre-PSA Knock-Out 2 S-402 Pressure Swing Adsorption Unit S-403
» Tujuan Pengendalian Jenis-Jenis Pengendalian dan Alat Pengendali
» Syarat Perancangan Pengendalian Elemen Pengendali Akhir
» Kebutuhan air proses Kebutuhan air lainnya
» Screening Sedimentasi Klarifikasi Kebutuhan Air
» Filtrasi Demineralisasi Kebutuhan Air
» Kebutuhan Uap air Steam Kebutuhan Bahan Kimia Kebutuhan Listrik Kebutuhan Bahan Bakar
» Bak Penampungan BP Bak Pengendapan Awal BPA Bak Netralisasi BN
» Unit Pengolahan Limbah dengan Sistem Activated Sludge Lumpur Aktif
» Lokasi Pabrik LOKASI DAN TATA LETAK PABRIK
» Tata Letak Pabrik Perincian Luas Tanah
» Bentuk Organisasi Garis Bentuk Organisasi Fungsionil Bentuk Organisasi Garis dan Staf
» Manajemen Perusahaan ORGANISASI DAN MANAJEMEN PERUSAHAAN
» Dewan Komisaris Direktur Sekretaris Manajer Produksi Manajer Teknik
» Sistem Kerja Jumlah Karyawan dan Tingkat Pendidikan
» Sistem Penggajian ORGANISASI DAN MANAJEMEN PERUSAHAAN
» Tata Tertib JAMSOSTEK dan Fasilitas Tenaga Kerja
» Modal Investasi Tetap MIT Fixed Capital Investment FCI Modal Kerja Working Capital WC
» Profit Margin PM Break Even Point BEP Return on Investment ROI Pay Out Time POT
» Perhitungan berat molekul dari olivine dan katalis olivine Komponen
» Char Combustor R-202 KESIMPULAN
» Cyclone S-203 Reformer R-203
» Cooler H-201 H-202 KESIMPULAN
» Scrubber Gas Sintesis M-301 M-302
» Quench Water Recirculation Cooler Knock Out Drum S-301
» Compressor K-301A Air-cooler H-302A
» Knock Out Drum S-302A Compressor K-301B
» Air-cooler H-302B Knock Out Drum S-302B
» Compressor K-301C Air-cooler H-302C
» Knock Out Drum S-302C Compressor K-301D
» Air-cooler H-302D Knock Out Drum S-302D
» Compressor K-301E Air-cooler H-302E
» After-cooler H-303 Post-Compressor Knock-Out S-303
» Steam Reformer R-401 Entalpi aliran umpan dari S-303, H
» Reformer Syngas CoolerSteam Generator 2 H-402
» Reformer Syngas CoolerSteam Superheater 1 H-403 High Temperature Shift Reactor R-402
» Low Temperatura Shift Precooler Deaerator Water Preheater 2 Low Temperature Shift Reactor R-403
» PSA PrecoolerDeaerator Water Preheater 1 H-407
» Air-Cooler H-408 Aftercooler H-409
» Pre-PSA Knock-Out 2 S-402 Pressure Swing Adsorption Unit S-403
» Pre Hydrogen Compressor Knock Out S-501 Compressor Hydrogen 1st Interstage K-501A
» Elevator Cangkang Kelapa Sawit C-101 Landfill Umpan Cangkang Kelapa Sawit T-101
» Bin Umpan Cangkang Kelapa Sawit T-102 Bin Olivine T-103
» Bin MgO T-104 Bin Katalis Olivine
» CKS Feed Screw Conveyor C-102 Olivine Screw Conveyor C-103 Gasifier R-201
» Quench Chamber M-301 KESIMPULAN
» Venturi Scrubber M-302 KESIMPULAN
» Quench Water Recirculation Cooler H-301
» Compressor K-301A KESIMPULAN
» Air-cooler H-302A KESIMPULAN
» Compressor K-301B KESIMPULAN
» Air-cooler H-302B KESIMPULAN
» Compressor K-301C KESIMPULAN
» Air-cooler H-302C KESIMPULAN
» Compressor K-301D KESIMPULAN
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