DETAIL KOLEKSI

Evaluasi Dan Optimasi Penggunaan Elictric Submersible Pump Pada Sumur Rs Da Su Di Lapngan Dsa


Oleh : Dimas Samudro Arianto

Info Katalog

Nomor Panggil : 558/TP/2016

Penerbit : FTKE - Usakti

Kota Terbit : Jakarta

Tahun Terbit : 2016

Pembimbing 1 : Djoko Sulistyanto

Subyek : Teknik Produksi

Kata Kunci : Teknik Produksi


File Repositori
No. Nama File Ukuran (KB) Status
1. 2016_TA_TM_07111105_HALAMAN-DEPAN.pdf 1271.78
2. 2016_TA_TM_07111105_BAB-I.pdf 85.54
3. 2016_TA_TM_07111105_BAB-II.pdf 429.03
4. 2016_TA_TM_07111105_BAB-III.pdf 794.49
5. 2016_TA_TM_07111105_BAB-IV.pdf 974.61
6. 2016_TA_TM_07111105_BAB-V.pdf 92.23
7. 2016_TA_TM_07111105_BAB-VI.pdf 86.49
8. 2016_TA_TM_07111105_DAFTAR-PUSTAKA.pdf 241.03
9. 2016_TA_TM_07111105_LAMPIRAN.pdf 2389.12
10. PAPER.pdf 172.9

T Teknik pengangkatan buatan merupakan salah satu upaya primary recovery yang digunakan untuk mengangkat fluida pada sumur-sumur produksi yang sudah tidak ekonomis apabila diproduksikan atau tidak dapat berproduksi secara alami (natural flow). Seiring dengan berjalannya waktu maka pada umumnya Tekanan Reservoir pada suatu sumur akan berkurang. Hal ini akan memicu terjadinya penurunan produksi. Maka dari itu digunakan metode Artificial Lift untuk menaikkan produksi suatu sumur menggunakan tenaga tambahan dari luar sumur. Salah satu metode Artificial Lift yang dibahas dalam Tugas Akhir ini adalah Electric Submersible Pump (ESP). Dalam Tugas Akhir ini, penulis akan melakukan analisa produksi sumur menggunakan kurva IPR, kemudian melakukan optimasi pada pompa ESP yang telah dipilih pada Sumur RSU-1 dan RSU-2 di Lapangan RSU. Sumur-sumur pada Lapangan RSU ini belum sepenuhnya berproduksi secara optimum. Optimasi yang akan dilakukan pada Tugas Akhir kali ini adalah dengan merubah nilai FAP kedua Sumur menjadi 500 Ft, sehingga didapat nilai Qtarget baru untuk sumur RSU-1 sebesar 1774 Bfpd dan Sumur RSU-2 sebesar 4701 Bfpd. Untuk Sumur RSU-1 menggunakan pompa SN2600 126 stages dan RSU-2 menggunakan pompa S6000N 105 stages.

A Artificial lift is one of primary recovery method that used to lift fluids on producing wells that no longer economic to produce or cannot produce in natural flow. Because some reason, as time goes by, in every well the pressure in a reservoir declined and it can caused oil production declined. To overcome the pressure in a reservoir it need artificial from the outside of the well with a method known as Artificial Lift. The Artificial Lift method that have been choosen and will discussed in this Final Assignment is Electric Submersible Pump ( ESP ) . In this Final Assignment, the author will analize the performance of the well using Inflow Performance Relationship,then do optimization for ESP pump which being used for RSU-1 and RSU-2 Well. ESP wells in RSU Field have not produced in optimum rate yet. Optimization that will be count in this Final Assignment is to change FAP value of both well to 500 Ft, so the new Qtarget value is obtained for RSU-1 well is 1774 Bfpd and for RSU-2 is 4701 Bfpd. RSU-1 well use SN2600 pump 126 stages and RSU-2 well use S6000N pump 105 stages.

A Artificial lift is one of primary recovery method that used to lift fluids on producing wells that no longer economic to produce or cannot produce in natural flow. Because some reason, as time goes by, in every well the pressure in a reservoir declined and it can caused oil production declined. To overcome the pressure in a reservoir it need artificial from the outside of the well with a method known as Artificial Lift. The Artificial Lift method that have been choosen and will discussed in this Final Assignment is Electric Submersible Pump ( ESP ) . In this Final Assignment, the author will analize the performance of the well using Inflow Performance Relationship,then do optimization for ESP pump which being used for RSU-1 and RSU-2 Well. ESP wells in RSU Field have not produced in optimum rate yet. Optimization that will be count in this Final Assignment is to change FAP value of both well to 500 Ft, so the new Qtarget value is obtained for RSU-1 well is 1774 Bfpd and for RSU-2 is 4701 Bfpd. RSU-1 well use SN2600 pump 126 stages and RSU-2 well use S6000N pump 105 stages.

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