V metodologi metodologi yang digunakan dalam

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V. METODOLOGI Metodologi yang digunakan dalam penyusunan dan penulisan komprehensif ini adalah studi pustaka dan diskusi. Studi pustaka dilakukan dengan bahan-bahan yang diperoleh dari literatur-literatur, jurnal maupun karya tulis lain yang berhubungan dengan judul komprehensif ini. Diskusi dilakukan terutama dengan dosen pembimbing baik mengenai pemahaman, aspek teknologi, keteraturan penuturan maupun tata cara penulisan.
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VI. RENCANA DAFTAR ISI HALAMAN JUDUL HALAMAN PENGESAHAN HALAMAN PERSEMBAHAN KATA PENGANTAR DAFTAR ISI DAFTAR GAMBAR DAFTAR TABEL DAFTAR LAMPIRAN BAB I. PENDAHULUAN BAB II. KARAKTERISTIK RESERVOIR 2.1. Jenis Batuan Reservoir 2.1.1. Batuan Beku 2.1.2. Batuan Sedimen 2.1.2.1 Batuan Sedimen Klastik 2.1.2.2 Batuan Sedimen Non-Klastik 2.1.3. Batuan Metamorf 2.2. Karakteristik Batuan Reservoir 2.2.1. Porositas 2.2.2. Wettabilitas 2.2.3. Saturasi Fluida 2.2.4. Permeabilitas 2.3. Karakteristik Fluida Reservoir 2.3.1. Sifat Fisik Gas 2.3.1.1. Densitas Gas 2.3.1.2. Viskositas Gas 2.3.1.3. Faktor Volume Formasi Gas 2.3.1.4. Kompresibilitas Gas 2.3.2. Sifat Fisik Minyak 2.3.2.1. Densitas Minyak
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2.3.2.2. Viskositas Minyak 2.3.2.3. Kelarutan Gas dalam Minyak 2.3.2.4. Faktor Volume Formasi Minyak 2.3.2.5. Kompresibilitas Minyak 2.3.3. Sifat Fisik Air Formasi 2.3.3.1. Densitas Air Formasi 2.3.3.2. Viskositas Air Formasi 2.3.3.3. Kelarutan Gas dalam Air Formasi 2.3.3.4. Faktor Volume Formasi Air Formasi 2.3.3.5. Kompresibilitas Air Formasi 2.4. Kondisi Reservoir 2.4.1. Tekanan Reservoir 2.4.2. Temperatur Reservoir 2.5. Jenis – jenis Reservoir 2.5.1. Berdasarkan Perangkap Reservoir 2.5.1.1. Perangkap Struktur 2.5.1.2. Perangkap Stratigrafi 2.5.1.3. Perangkap Kombinasi 2.5.2. Berdasarkan Kelakuan Fasa Fluida Hidrokarbon 2.5.2.1. Reservoir Minyak Berat 2.5.2.2. Reservoir Minyak Ringan 2.5.2.3. Reservoir Gas Kondensat 2.5.2.4. Reservoir Gas Basah 2.5.2.5. Reservoir Gas Kering 2.5.3. Berdasarkan Mekanisme Pendorong 2.5.3.1. Solution Gas Drive Reservoir 2.5.3.2. Gas Cap Drive Reservoir 2.5.3.3. Water Drive Reservoir 2.5.3.4. Gravitational Segregation Drive Reservoir 2.5.3.5. Combination Drive Reservoir
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BAB III. PEROLEHAN DATA DAN PERKIRAAN CADANGAN MINYAK 3.1. Perolehan Data Reservoir 3.2. Perolehan Data Produksi 3.2.1. Metode Well Testing 3.2.2. PVT Analysis 3.3. Metode Volumetrik 3.3.1. Perkiraan Original Oil In Place 3.3.2. Recovery Factor 3.4. Metode Material Balance 3.4.1. Persamaan Material Balance untuk Berbagai Reservoir 3.4.2. Persamaan Linier Material Balance-Havlena Odeh 3.5. Metode Decline Curve BAB IV. PERENCANAAN CO 2 MISCIBLE FLOODING 4.1. .Pengertian CO 2 Miscible Flooding 4.2. Konsep Dasar CO 2 Miscible Flooding 4.2.1. Karakteristik Gas CO 2 4.2.2. Proses Pendesakan Minyak – CO 2 Tercampur 4.3. Mekanisme Pendorongan Gas CO 2 4.3.1 Pemilihan Reservoir untuk Aplikasi 4.3.2 Jenis-Jenis Injeksi CO 2 4.3. Mobilitas Fluida 4.4. Efisiensi Pendesakan 4.4.1. Pendesakan Tak Tercampur 4.4.2. Pendesakan Tercampur 4.4.3. Persediaan Gas CO 2 4.4.4 Studi Awal Aplikasi Lapangan 4.4.5 Problem Operasi Lapangan BAB V. STUDI KASUS INJEKSI MISCIBLE CO2 BAB VI. PEMBAHASAN BAB VII. KESIMPULAN BAB VIII.DAFTAR PUSTAKA
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4.2 RENCANA DAFTAR PUSTAKA 1. Néstor L. Sanchez. , 1999, “Management of Water Alternating Gas (WAG) Injection Projects”, The 1999 SPE Latin American And Caribbean Petroleum Engineering Conference, SPE 53714, Caracas.
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