OBJECTIVES :

After participate in thid Training Water Flooding Basic Theory and Operation, the participants will be abble and cappable to :

  • Understand the basic concept of waterflooding processes and how to operate this technology in field application.
  • Diagnostic of reservoir performance under actual drive mecanism and future performance under waterflooding processes.
  • Analyze the production potential of reservoir under waterflooding processes and to plan the field development.
  • Understand the fundamentals of microscopic and macroscopic aspects and phenomena of reservoir under waterflooding processes.

PRE-REQUISITE:

Basic Petroleum Engineering or field experience

AUDIENCE:

No specified  (Operator/Sr. Operator/Engineer or Non Engineer)

COURSE OUT-LINE:

Introduction to  Waterflooding

Microscopic Efficiency of Immicsible Displacement

  • Fluid and Rock Interaction
  • Methods of Inferring Fluid Distribution in Porous Media
  • Multiphaseflow in Porous Media
  • Residual Saturation
  • Mobilization of Residual Oil

Macroscopic Displacement Efficiency of a Linear Waterflood

  • Development of Equations
  • Frontal Advanced for Unsteady Displacement
  • Linear Waterflood
  • Numerical Model

Waterflood Displacement in Two Dimensions-Areal

  • Development of Equations
  • Fivespot Pattern
  • Scaled Laboratory Models
  • Prediction of Areal Displacement

Vertical Displacement in Linear and Areal Models

  • Layered Models
  • Gravity Segregation and Crossplot in Linear Reservoir
  • 2D Flow With Thichness-Averaged Properties
  • Scaled Laboratory Models

Waterflooding Design

DURATION

3 Day

FASILITY

Quality training material (hardcopy and softcopy), Quality training kits: bag, block note, ballpoint, including jacket, etc, Convenient training facilities in four or five stars hotel

INFORMATION & PROMO

Call : 021 756 3091

Fax : 021 756 3291

CONTACT PERSON

0813 8280 7230, 0812 8931 1641

Email: [email protected]

Website: https://bmdstreet.co.id

 

Jadwal Training Water Flooding Basic Theory and Operation 2022:

  • 25-27 Januari 2022 Jakarta
  • 29-31 Maret 2022 Yogyakarta
  • 26-28 April 2022 Bali
  • 28-30 Juni 2022 Malang
  • 26-28 Juli 2022 Surabaya
  • 27-29 September 2022 Bandung
  • 25-27 Oktober 2022 Yogyakarta
  • 22-24 November 2022 Bogor
  • 27-29 Desember 2022 Malang

 

INVESTASI (TIDAK TERMASUK BIAYA AKOMODASI & PENGINAPAN) :

Online Class

  • Rp 5.500.000/peserta (Online Zoom Meeting)

Normal Class

  • Rp. 11.000.000,-/peserta (Jakarta)
  • Rp. 11.000.000-/peserta (Bandung)
  • Rp. 12.000.000,-/peserta (Yogyakarta)
  • Rp. 14.000.000,-/peserta (Bali)
  • Rp. 14.750.000,-/peserta (Lombok)
  • US$ 4780/peserta (Malaysia)

Kami menerima request waktu, tempat & fasilitas hubungi kami untuk informasi lebih lanjut.

TARGET & TUJUAN TRAINING :

Setelah menyelesaikan training  ini diharapkan peserta dapat :

  • Memahami prinsip-prinsip dasar perhitungan reservoir minyak bumi yang berhubungan dengan penggunaan gas-lift, sucker-rod, electric submersible, hydraulic dan jet pump.
  • Melakukan diagnosis sederhana dan memengerti pengelolaan data sumuran minyak yang diproduksi dengan, gas lift, sucker rod pumping, electric submersible, hydraulic dan jet pump.
  • Membuat analisis sederhana terhadap data sumuran minyak, melakukan perhitungan-perhitungan kinerja sumuran sebagai hasil dari pemompaan dengan berbagai metoda sesuai dengan keadaan reservoirnya.
  • Melakukan perhitungan-perhitungan kuantitatip sederhana dan melakukan optimisasi produksi untuk sumuran minyak yang diproduksi dengan gas lift, sucker rod pumping, electric submersible, hydraulic dan jet pump sesuai dengan batasan operasinya.

PESERTA YANG DIREKOMENDASIKAN :

Latar belakang  : Operator/Sr. Operator/ Jr.Engineer/Engineer

MATERI TRAINING :

SISTEM PRODUKSI LAPANGAN MINYAK BUMI

  • Sistem Produksi Alamiah
  • Sistem Produksi Dengan Pengangkatan Buatan

GAS LIFT (GL)

  • Pendahuluan
  • Gas Lift Continu dan Intermittent
  • Komponen Alat Utama Gas Lift
  • IPR dan Perancangan Gas Lift
  • Optimisasii dan Alokasi Gas untuk Gaslift
  • Sistem Produksi Dengan Pengangkatan Buatan oleh Gas Lift
  • Gas Lift Trouble shooting

SUCKER ROD PUMP (SRP)

  • Pendahuluan
  • Pump Intake Curve
  • Optimisasi Produksi
  • Rancangan Sucker Rod Pump API RP11L
  • Komponen Alat Utama
  • Faktor-faktor yang mempengaruhi gerakan rod
  • Perencanaan pompa
  • Dynagraph & Dynamometer
  • SRP Trouble shooting

PROGRESSIVE CAVITY PUMP (PCP)

  • Pendahuluan
  • Deskripsi Peralatan
  • Elastomer
  • Perancangan
  • PCP Trouble shooting

ELECTRIC SUBMERSIBLE PUMP (ESP)

  • Pendahuluan
  • Dasar-dasar perhitungan ESP
  • Konstruksi ESP
  • Karakteristik pompa SRP
  • Cara Memilih jenis pompa
  • Aplikasi di Lapangan
  • ESP Trouble shooting

POMPA HIDRAULIK

  • Alat-alat permukaan
  • Jenis-jenis unit pompa
  • Jenis-jenis unit pompa
  • Ukuran pompa
  • Langkah-langkah pada pemilihan pompa hidraulik
  • Hydraulic Pumps Trouble shooting

POMPA JET

  • Pendahuluan
  • Persoalan gas
  • Ukuran Nozzle dan throat
  • Langkah-langkah pada perhitungan Jet pump
  • Grafik Kelakuan pompa
  • Menggunakan program mesin hitung
  • Hasil lapangan
  • Jet Pump Trouble shooting

FASILITAS

Normal Class

  • Sertifikat, Modul (Soft dan Hard Copy) Flash disc, Training kit (Ballpoint Tas jinjing), Tas Ransel, Jacket, Lunch, 2x Coffe break, foto bersama dan pelatihan dilaksanakan di Hotel berbintang.

Online Class

  • Softcopy Modul dan Sertifikat

INFORMATION & PROMO

Call : 021 756 3091

Fax : 021 756 3291

CONTACT PERSON

0813 8280 7230,  0812 8931 1641

Email: [email protected]

Website: https://bmdstreet.co.id

 

Jadwal Training Well Optimization Artificial Lift, Gas Lift, Well Optimization, Troubleshooting tahun 2022:

  • 25-27 Januari 2022 Jakarta
  • 29-31 Maret 2022 Yogyakarta
  • 26-28 April 2022 Bali
  • 28-30 Juni 2022 Malang
  • 26-28 Juli 2022 Surabaya
  • 27-29 September 2022 Bandung
  • 25-27 Oktober 2022 Yogyakarta
  • 22-24 November 2022 Bogor
  • 27-29 Desember 2022 Malang

Biaya registrasi (tidak termasuk biaya akomodasi & penginapan) :

Online Class

  • Rp 5.500.000/peserta (Online Zoom Meeting)

Normal Class

  • Rp. 11.000.000,-/peserta (Jakarta)
  • Rp. 11.000.000-/peserta (Bandung)
  • Rp. 12.000.000,-/peserta (Yogyakarta)
  • Rp. 14.000.000,-/peserta (Bali)
  • Rp. 14.750.000,-/peserta (Lombok)
  • US$ 4780/peserta (Malaysia)

Kami menerima request waktu, tempat & fasilitas hubungi kami untuk informasi lebih lanjut.

INTRODUCTION

Hydrocarbon systems found in petroleum reservoirs are known to display multi-phase behavior over wide ranges of pressure and temperatures. The most important phases which is occur in petroleum reservoirs are: liquid phase (crude oil or condensates) and gas phase (natural gases).  This course will explain the fundamentals of hydrocarbon phase behavior and practical application in reservoir and production engineering. Firstly it will reviews the principles of phase behavior and ilustrate the use of phase diagram in describing the volumetric behavior of single-component, two-component, and multi-component system.

Also it will present numerous mathematical and graphical correlation for estimating physical and critical properties of the undefined petroleum fraction, evaluation of properties of natural gases and introduces their application in Darcy’s equation and material balance equation.  A complete and cohesive independent unit on methods of determining the crude oil physical properties , presents the concept and application of  vapor-liquid phase equilibria, developments and advanced in the field of empirical cubic equation of state and application in petroleum engineering. Details sceheme of splitting and lumping of petroleum-fraction.

Properly understanding the reservoir fluid properties is very significant and are very importance steps  during the entire life of the oil and reservoir developments and operations. This five-day training will provide a comprehensive knowledge and understanding of reservoir fluid properties and application to reservoir and production engineering to keep exellent reservoir and production performance as long as possible.

OBJECTIVES

  • Refresh the knowledge of the participants on reservoir fluid properties.
  • Understand the basic principles of hydrocarbon phase behavior and it’s application in petroleum engineering.
  • Learn the numerous mathematical and graphical correlation for estimating physical and critical properties of the undefined petroleum fraction
  • Enhance the knowledge on hydrocarbon phase behavior , freservoir fluid properties and application.
  • Gain additional knowledge on reasent technology in reservoir fluid properties calculation and correlation.
  • Knowledge sharing among the participants and instructors

FEATURING THE FOLLOWING SUBEJCTS :

Basic Phase Behavior

  • Single Component  Systems
  • Two Component  Systems
  • Multy Component  Systems
  • Classification of Reservoir and Reservoir Fluids

Pure Component Physical Properties and Characterizing Undefined Petroleum Fraction

  • General Correlation for Estimating Physical Properties of Hydrocarbon Fraction
  • Critical Compressibility Factors
  • Characterizing Hydrocarbon Heavy Fractions
  • Determining of Physical Properties of Heavy Petroleum Fraction from Correlation

Properties of Natural Gases

  • Behavior of Ideal Gases
  • Ideal Gas Mixtures
  • Properties of Ideal Gas Mixtures
  • Behavior of Real Gases
  • Effect of Non Hydrocarbon Components on the Z-Factor
  • Correction for Non Hydrocarbons
  • Correction for High-Molecular-Weight Gases
  • Direct Calculation of Compressibilty Factors
  • Compressibility of Natural Gases
  • Gas Formation Volume Factor
  • Gas Viscosity
  • Engineering Application of natural gases PVT Properties

Phase Behavior of Crude Oils

  • Crude Oil Density and Specific Gravity
  • Methods for Determining Density of Crude Oils as Unknown Composition
  • Methods for Determining Density of Liquids as Unknown Composition
  • Isothermal Compressibility Coefficient of Undersaturated Crude Oils
  • Density of Undersarurated Crude Oils
  • Gas Solubility
  • Oil Formation Factor of Undersaturated Crude Oils
  • Total Formation Volume Factor
  • Total System Isothermal Compressibility Coefficient
  • Crude Oil Viscosity
  • Bubble Point and Surface Tension
  • Application of the Crude Oil PVT P
  • The Material Balance Equation for Oil Reservoirs

Vapor-Liquid Phase Equilibria

  • Equilibrium Ratio
  • Flash Calculation
  • Application of Equilibrium Ratio in Petroleum Engineering

Equation of State

  • The General ized Form of Equation of State
  • Application of Equation of State for Petroleum Engineering
  • Three-Phase Equilibrium Calculation

Splitting Lumping Schemes of Petroleum Fraction

  • Splitting Schemes
  • Lumping Schemes
  • Simulation of Laboratory PVT Data by Equation of State

DURATION

3 Day

FASILITY

Normal Class

  • Sertifikat, Modul (Soft dan Hard Copy) Flash disc, Training kit (Ballpoint Tas jinjing), Tas Ransel, Jacket, Lunch, 2x Coffe break, foto bersama dan pelatihan dilaksanakan di Hotel berbintang.

Online Class

  • Softcopy Modul dan Sertifikat

INFORMATION & PROMO

Call : 021 756 3091

Fax : 021 756 3291

CONTACT PERSON

0813 8280 7230, 0812 8931 1641

Email: [email protected]

Website: https://bmdstreet.co.id

 

Schedule Training Reservoir Fluid Analysis Year 2022:

  • 04-06 Januari 2022 Malang
  • 08-10 Februari 2022 Jakarta
  • 08-10 Maret 2022 Surabaya
  • 05-07 April 2022 Bali
  • 10-12 Mei 2022 Bandung
  • 07-09 Juni 2022 Malang
  • 05-07 Juli 2022 Surabaya
  • 02-04 Agustus 2022 Yogyakarta
  • 06-08 September 2022 Surabaya
  • 04-06 Oktober 2022 Bogor
  • 01-03 November 2022 Bali
  • 06-08 Desember 2022 Surabaya

Investation (Not Include Hotel Acomodation) :

Online Class

  • Rp 5.500.000/peserta (Online Zoom Meeting)

Normal Class

  • Rp. 11.000.000,-/peserta (Jakarta)
  • Rp. 11.000.000-/peserta (Bandung)
  • Rp. 12.000.000,-/peserta (Yogyakarta)
  • Rp. 14.000.000,-/peserta (Bali)
  • Rp. 14.750.000,-/peserta (Lombok)
  • US$ 4780/peserta (Malaysia)

Available on request for time, place and facilities call us for more information

LATAR BELAKANG :

  • Merupakan salah satu masalah lubang sumur di operasi pemboran
  • Menyebabkan timbulnya biaya ekstra yang cukup besar
  • Berpotensi menyebabkan hilangnya sebagian drillstring di dalam lubang sumur
  • Menunda waktu produksi sumur (pop)

SASARAN :

  • Mengetahui jam kejadian pipa terjepit.
  • Mengetahui kerugian akibat penundaan POP.
  • Mengetahui usaha pencegahan terjadinya pipa terjepit.
  • Mengetahui cara mengidentifikasi mekanisme pipa terjepit yang terjadi.
  • Mengetahui kronologi terjadinya pipa terjepit.

PESERTA YANG DIREKOMENDASIKAN :

Latar belakang  : Operator/ Sr. Operator/ Jr. Engineer/Non Engineer

MATERI TRAINING  :

TEORI DASAR STUCK PIPE

Pengertian stuck pipe
Mekanisme/jenis-jenis stuck pipe

  • Hole pack off
  • Bridge
  • Differential stuck pipe
  • Wellbore geometry

PENGERTIAN STUCK PIPE

  • Ada Gaya yang Menahan
  • Drillstring Tidak Bisa Ditarik
  • Operasi Pemboran Terhenti

TIGHT HOLE:

  • Ada Gaya yang Menahan
  • Drillstring Agak Sulit Ditarik
  • Operasi Pemboran Tetap jalan
  • Berpotensi menyebabkan Pipa Terjepit

HOLE PACK OFF

  • Pembersihan Lubang yang Tidak Bagus
  • Mengendapnya Partikel Solid (Cutting, Caving, LCM) Di Annulus
  • Tidak Bisa Sirkulasi Lumpur

Terdiri Dari:

  •  Cutting yang Mengendap
  •  Shale yang Tidak Stabil
  •  Formasi yang Tidak Terkonsolidasi
  •  Formasi yang Banyak Mengandung Rekahan
  •  Faktor Semen

CUTTING YANG MENGENDAP

Faktor-faktor yang mempengaruhi pembersihan lubang yaitu:

  • Kecepatan pemboran / Rate of Penetration (ROP)
  • Kestabilan lubang
  • Kecepatan anular
  • Rheologi lumpur
  • Waktu sirkulasi
  • Besarnya sudut / kemiringan sumur

BRIDGE

  • Sirkulasi masih bisa dilakukan
  • Hampir sama dengan Hole Pack Off
  • Contoh: Junk, blok semen, dll

DIFFERENTIAL STUCK PIPE

  • Sebab
  • Syarat
  • Ciri2

WELLBORE GEOMETRY

  • Stiff Assembly
  • Keyseat
  • Micro Dogleg
  • Ledges
  • Mobile Formation
  • Undergauge Hole

KEYSEAT

  • Terjadi akibat dogleg yang terlalu besar
  • Tensi pipa yang tinggi + putaran pipa menggerus ke formasi
  • Dari atas penampangnya terlihat seperti lubang kunci
  • BHA dengan OD lebih besar tersangkut

SHALE YANG TIDAK STABIL

  • Shale yang reaktif
  • Geo-pressured shale
  • Hydro-pressured shale
  • Overburden shale
  • Tectonic stress

UNCONSOLIDATED FORMATION

  • Filter cake tidak ada atau tipis
  • Derajat sementasi antar butir rendah
  • Tekanan hidrostatis tidak mampu menahannya

FRACTURED FORMATION

  • Terjadi pada NFR (limestone)
  • Pecahan formasi jatuh dan menyumbat annulus drillstring

MOBILE FORMATION

  • Formasi mudah bergerak /bersifat plastis (garam, shale)
  • Tekanan overburden menekan formasi
  • BHA terjepit di formasi yang mengecil

STIFF ASSEMBLY

  • Adanya dogleg di dalam lubang sumur
  • OD BHA (stabilizer, dll) mengecil

UNDERGAUGE HOLE

  • Pemboran pada batuan keras dan abrasif
  • Diameter bit mengecil
  • Bit baru dengan diameter lebih besar terjepit

FAKTOR SEMEN

  • Semen belum mengering dengan sempurna
  • Tekanan pompa mempercepat semen mengeras
  • Semen yang tidak stabil di sekitar kaki casing/di area squeeze plug

DURASI

3 Hari

FASILITAS

Normal Class

  • Sertifikat, Modul (Soft dan Hard Copy) Flash disc, Training kit (Ballpoint Tas jinjing), Tas Ransel, Jacket, Lunch, 2x Coffe break, foto bersama dan pelatihan dilaksanakan di Hotel berbintang.

Normal Class

  • Softcopy Modul dan Sertifikat

INFORMATION & PROMO

Call : 021 756 3091

Fax : 021 756 3291

CONTACT PERSON

0813 8280 7230, 0812 8931 1641

Email: [email protected]

Website: https://bmdstreet.co.id

 

Jadwal Training Stuck Pipe tahun 2022:

  • 11-13 Januari 2022 Bandung
  • 15-17 Februari 2022 Bali
  • 15-17 Maret 2022 Yogyakarta
  • 12-14 April 2022 Malang
  • 17-19 Mei 2022 Bogor
  • 14-16 Juni 2022 Yogyakarta
  • 12-14 Juli 2022 Bali
  • 09-11 Agustus 2022 Jakarta
  • 13-15 September 2022 Yogyakarta
  • 11-13 Oktober 2022 Bandung
  • 08-10 November 2022 Bogor
  • 13-15 Desember 2022 Bali

 

Biaya registrasi (tidak termasuk biaya akomodasi & penginapan) :

Online Class

  • Rp 5.500.000/peserta (Online Zoom Meeting)

Normal Class

  • Rp. 11.000.000,-/peserta (Jakarta)
  • Rp. 11.000.000-/peserta (Bandung)
  • Rp. 12.000.000,-/peserta (Yogyakarta)
  • Rp. 14.000.000,-/peserta (Bali)
  • Rp. 14.750.000,-/peserta (Lombok)
  • US$ 4780/peserta (Malaysia)

Kami menerima request waktu, tempat & fasilitas hubungi kami untuk informasi lebih lanjut.