N Re = vo = 263,5656 ft 3 Jam = 0,0223 ft 3 s

i. Menghitung Clean Overall Coefficient, Uc

U C = o io o io

h h

h h

= 9219 , 358 . 1 9084 , 375 . 1 9219 , 358 . 1 9084 , 375 . 1 = 683,6812 Btuhr.ft 2 . o F

j. Menghitung Design Overall Coefficient, U

D Rd = 0,001 hr.ft 2 . o Fbtu Tabel 8. Kern, 1965 Ud 1 = Rd Uc 1 = 001 , 683,6812 1 = 0,003 Ud = 288,794 Btuhr.ft 2 . o F

k. Menghitung Tebal dan Lebar Jaket

Lebar jaket = 0,5 Dj – Dt = 0,5 5,5773 ft – 5,063 ft = 0,2574 ft = 0,0785 m = 7,8459 cm Material = Carbon Steel SA 283 Grade C Alasan = Sesuai digunakan untuk tekanan tinggi dan diameter besar. f = 12.650 psi D N re C = 0,25 in E = 0,85 r j = 2,78 ft = 33,40 in Tebal jaket tj = = 0,2957 in digunakan tebal standar 38 in

IV. Sambungan Head dengan Shell

Sambungan antara tutup bejana dengan bagian shell menggunakan sistem flange dan baut. Bahan konstruksi yang dipilih berdasarkan pada kondisi operasi. Data perancangan : Tekanan desain p = 3 atm Temperatur desain = 90 o C Material flange = ASTM-201 Grade B Brownell and Young, 1959 Bolting steel = SA –198, grade B7 Brownell and Young, 1959 Material gasket = Asbestos composition Stainless stell Gambar 12.11, Brownell and Young, 1959 Diameter luar shell B = 60,75 in Ketebalan shell = 0,375 in Diameter dalam shell = 60 in Tegangan dari material flange = 15.000 psi Tegangan dari bolting material= 20.000 psi Tipe flange = Optional loose type Gambar 12.24,8.a, Brownell and Young, 1959 Sketsa tipe flange beserta dimensinya ditunjukkan pada Gambar F.7. Gasket h G t h T H G H T G h W R h D C g o g1 g12 B Gambar F.8. Sketsa tipe flange dan dimensinya. a. Perhitungan Lebar Gasket Minimum Lebar gasket minimum, N = 2 i o d d Keterangan : d o = Diameter luar gasket, in d i = Diameter dalam gasket, in 1 pm y p.m y d d i o Pers. 12.2, Brownell and Young,1959 Keterangan : y = Yield stress, lbin 2 Fig. 12.11 p = Internal pressure m = Faktor gasket Gambar. 12.11 Digunakan Stainless steels Dari Gambar 12.11, Pers. 12.2, Brownell and Young, 1959 diperoleh : y = 26.000 lbin 2 m = 6,500 sehingga, ] 1 5 , 6 psia 9368 , 50 [ 000 . 26 psia6,5 50,9368 000 . 26 i d o d = 1,0010 Diameter dalam gasket d i sama dengan diameter luar shell = 60,7500 in, sehingga: d o = 1,00010 60,75 in = 60,8104 in Lebar gasket minimum, N = 2 di d o = 2 75 , 60 8104 , 60 = 0,0302 in Jadi, digunakan gasket dengan lebar standar 0,1875 in Gambar 12.12, Brownell and Young,1959. Diameter gasket rata - rata, G = d i + lebar gasket = 60,75 in + 0,1875 in = 60,9375 in Dari Gambar 12.12, Brownell and Young, 1959, kolom I , type 1.a : b o = 2 N = 2 0,1875 = 0,0938 in b = 2 0938 , 2 o b = 0,1531 in jika b o ≤ 0,βη in maka b = b = 0,0938 in

b. Perhitungan Beban Baut bolt Beban terhadap seal gasket

Beban terhadap seal gasket : W m2 = H y = π x b x G x y Brownell and Young, pers. 12.88, 1959 Keterangan : Hy = berat beban bolt maksimum lb b = effective gasket in G = dimensi gasket rata – rata in W m2 = 3,14 x 0,0938 in x 60,9375 in x 26.000 lbin 2 = 466.636,9557 lb Beban operasi total Beban operasi total Pers. 12.91 Brownell and Young,1959 : W m1 = H + H p Keterangan : H = Beban dari tekanan internal Hp = beban joint tight lb Beban untuk menjaga joint tight saat operasi Pers 12.90, Brownell and Young,1959 H p = β b π G m p Brownell and Young, pers. 12.90, 1959 = 2 x 0,0938 in x 3,14 x 60,9375 in x 6,5 x 50,9368 lbin 2 = 11.884,4883 lb