Sabtu, 23 Januari 2010

Blow Out Prevention and Well Control

Blow Out Prevention and Well Control



Jayakarta Hotel, Bandung  | Feb 22, 2010 - Feb 25, 2010 | Rp.  7.250.000,-



BACKGROUND



  • Merupakan salah satu masalah lubang sumur di operasi pemboran

  • Menyebabkan timbulnya biaya ekstra yang cukup besar

  • Berpotensi menyebabkan hilangnya sebagian atau semua fasilitas pemboran di lapangan karena kick dan blow out yang tidak terkontrol

  • Menunda waktu produksi sumur (POP)


OBJECTIVES



  • Mengetahui gejala kejadian kick dan blow out.

  • Mengetahui kerugian akibat kick yang tidak terkontrol atau blow out.

  • Mengetahui usaha pencegahan terjadinya blow out.

  • Mengetahui cara mengidentifikasi mekanisme kick yang terjadi.

  • Mengetahui kronologi terjadinya kick dan blow out dan cara penanggulangannya dengan Well Control.


PRE-REQUISITE



  • Operator/ Sr. Operator/ Jr. Engineer/ Non Engineer

  • Petroleum Engineers, Reservoir Engineers, Production Engineers

  • Well Service Engineers

  • Everybody or professionals who wants to better understanding and broaden their knowledge from the course subject


COURSE OUTLINE



1. Well Control Introduction




  • Introduction to course

  • Basic Concepts

  • Liquid Hydrostatics



2. Gas Behavior and Hydrostatics




  • Ideal Gases

  • Effect of Temperature

  • Real Gases

  • Critical Temperature & Pressure

  • Pseudo-Critical Temp. and Press.

  • Gas Compressibility

  • Gas Migration



3. Kick and Gas Migration




  • Density of real gasses

  • Equivalent Mud Weight (EMW)

  • Wellbore pressure before and after kick

  • Gas migration rate - first order approx.

  • Gas migration rate - w/mud compressibility



4. Gas Solubility




  • Solubility of Hydrocarbon Gasses in Oil

  • Solubility of Non-Hydrocarbon Gasses in Oil

  • Solution Volume Factors

  • Oil Mud Recommendations



5. Pore Pressure Prediction




  • Mud Weight and Pore Pressure

  • Mud Weight and Fracture Gradient

  • Normal Pore Pressure

  • Subnormal Pore Pressure

  • Abnormal Pore Pressure

  • Origins of Pore Pressure

  • Bulk Density and Porosity vs. Depth



6. Drilling Rate and Pore Pressure




  • Forces on Subsurface Rock

  • d-exponent

  • dc-exponent

  • Rehm and McClendon

  • Zamora

  • Comb's Method

  • Bourgoyne and Young's Method



7. Other Indicators of Abnormal Pore Pressure




  • Moore's Equation - Drilling rate

  • Gas in the Drilling Fluid

  • Rock Sample Characteristics

  • Use of Surge and Swab Pressure to determine Overbalance

  • Changes in Drilling Fluid Properties

  • Temperature Indications

  • Hole Conditions



8. Logging While Drilling




  • Sonic Travel Time

  • Resistivity and Conductivity

  • Eaton's Equations (R, C, Dt, dc)

  • Natural Gamma Ray



9. Fracture Gradients 1




  • Allowable Wellbore Pressures

  • Rock Mechanics Principles

  • Hooke's Law, Young's Mudulus, Poisson's Ratio

  • Volumetric Strain, Bulk Modulus, Compressibility

  • Triaxial Tests

  • Rock Mechanics Principles (con't.)

  • Rock Properties from Sound Speed in Rocks'

  • Mohr's Circle

  • Mohr-Coulomb Failure Criteria



10. Fracture Gradients 2




  • Radial and Tangential Stresses near the Wellbore

  • Stresses in Rock near Wellbore

  • Effect of Anisotropic Stresses

  • Onshore vs. Offshore Fracture Gradients

  • Fracture Gradients in Inclined Wellbores

  • Oil Based and Water Based Drilling Fluids



11. Fracture Gradients Determination




  • Hubbert and Willis

  • Matthews and Kelly

  • Ben Eaton

  • Christman

  • Leak-Off Test (experimental)



12. Kick Detection and Control




  • Primary and Secondary Well Control

  • What Constitutes a Kick

  • Why Kicks Occur

  • Kick Detection Methods

  • Shut-in Procedures

  • Soft and Hard Shut-in

  • Water Hammer



13. Off Bottom Kick




  • Slugging of drillpipe

  • Hole fill during trips

  • Surge and Swab pressures

  • Kick detection during trips

  • Shut-In Procedures

  • Blowout Case History



14. Control Pressures and Circulation Kill Techniques 1




  • Shut-In Pressures

  • Weighting Up the Mud

  • Driller's Method

  • Wait & Weight Method



15. Control Pressures and Circulation Kill Techniques 2




  • Wait & Weight Method

  • Concurrent Method

  • Annulus Pressure Profiles

  • Kicks in Oil-Based Mud



16. Secondary Well Control Complications




  • Volumetric Well Control

  • Lubrication

  • Complications During Conventional Kill

  • Techniques to Reduce Annular Friction



17. Special Well Control Applications




  • Underbalanced Drilling

  • Well Control in Unconventional Hole Programs

  • Casing and Cementing Operations



18. Equipments




  • High Pressure Equipment

  • Control System Equipment and Design

  • BOP Inspection and Test Considerations

  • Low-Pressure Equipment

  • Equipment Arrangement: Design and Philosophy

  • Casing

  • Casing Heads and Spools

  • Stack Equipment

  • Choke and Kill Line Equipment

  • Drillstem Control Equipment



19. Offshore Operations




  • Equipment Used in Floating Drilling

  • Operational Considerations in Floating Well Contr

  • Shallow Gas Hazards

  • Trends in Deepwater Drilling



 



Instructor
Dr. Ir. Sudjati Rachmat, DEA



DR. Ir. Sudjati Rachmat, DEA is General Manager of Program Development Department of ITB. He was an extreme dedicated consultant and researcher with countless hands-on expertise in analytical methods, engineering mathematics, computer simulation, fluid mechanic, mass and heat transfer. Mr. Sudjati has published numerous articles regarding of researches and analyses in France, Australia, USA and Singapore.



His expertise has brought him to one of the top-notch expert hired among UNOCAL, MOBIL OIL Indonesia, PPTM Migas, PT. CALTEX Pacific Indonesia, LEMIGAS, PT. LNG Bontang, VICO Indonesia, GULF, ARCO and PERTAMINA. He is an active member of SPE [Society of Petroleum Engineers] and Fine Particles Society, US. He holds Diplome d'Etude Approfondie and Docteur en Mecanique de Fluide in Methode Numerique from UCB, France.



 



Tuition Fee
Rp.  7.250.000,-   per participant, excluding accomodation & tax.



Studi Kelayakan Investasi menggunakan Microsoft Excel

INVESTMENT FEASIBILITIES STUDY WITH MS EXCEL APPLICATION



Studi Kelayakan Investasi menggunakan Aplikasi Microsoft Excel



Harris Hotel Tebet / The Park Lane Hotel Casablanca, Jakarta | Kamis, 18-02-2010 - Jum'at, 19-02-2010 | Rp 2.950.000,-






Training Description :



Banyaknya perusahaan yang melakukan ekspansi dengan berinvestasi dalam berbagai proyek mengalami kegagalan, baik pada tahap perencanaan maupun tahap aktualisasi. Dikarenakan sering terjadinya kegagalan, perusahaan perlu melakukan analisa yang tepat dan teliti dalam setiap tahap studi kelayakan investasi agar risiko kegagalan seperti itu di kemudian hari dapat dikurangi.



Dalam pelatihan ini diharapkan para peserta dapat melakukan analisa yang tepat dan lebih teliti dalam investasi. Dan dalam proses penganalisaannya dipermudah dengan menggunakan program ms-excel.



Dikarenakan pelatihan ini akan dilakukan proses instalasi program aplikasi MS Excel diwajibkan peserta membawa notebook (laptop) dengan spesifikasi Pentium 4 dengan Windows Operating System atau spesifikasi sejenis lainnya seperti Pentium-M.



Bonus Aplikasi Investment Feasibility Studies using excel



 



MANFAAT APA YANG ANDA PEROLEH?
Setelah mengikuti pelatihan Aspek Keuangan Studi Kelayakan Investasi, maka diharapkan para peserta mampu:




  1. menjelaskan pengertian dan arti penting investasi serta bentuk - bentuk investasi pada aktiva tetap;

  2. melihat konsekuensi - konsekuensi dalam setiap investasi;

  3. menentukan kebutuhan dan sumber dana investasi;

  4. menentukan sumber dana / modal yang akan digunakan dalam investasi;

  5. menentukan konsep Proceeds atau Cash Inflows dalam investasi;

  6. membuat laporan Perhitungan Rugi Laba dan menghitung depresiasi investasi;

  7. menjelaskan dan menghitung biaya penggunaan modal investasi;

  8. menilai kelayakan suatu investasi dengan metode - metode yang digunakannya;

  9. memecahkan kasus untuk menentukan dan mengambil keputusan apakah suatu investasi layak atau tidak layak.



 



METODE PELATIHAN:
Pelatihan ini akan menggunakan gabungan metode kuliah klasik, tanya jawab, studi kasus, dan latihan soal sehingga diharapkan peserta tidak hanya mendapatkan pengetahuan terbaru tetapi juga keterampilan praktis dalam Investment Management.






Materi




  1. PENGERTIAN INVESTASI

  2. INVESTASI PADA AKTIVA TETAP

  3. ARTI PENTING INVESTASI PADA AKTIVA TETAP

  4. BENTUK - BENTUK USUL INVESTASI 5. KONSEKUENSI - KONSEKUENSI DALAM SETIAP INVESTASI

  5. KEBUTUHAN DANA INVESTASI

  6. SUMBER DANA INVESTASI

  7. KONSEP PENGGUNAAN MODAL

  8. METODE PENILAIAN KELAYAKAN INVESTASI



 



KUSNADI, SE, MM
dengan spesialisasi sebagai master dalam bidang keuangan dipercaya beberapa lembaga pendidikan untuk memberikan pengalamannya dalam bidang Manajemen Keuangan. Beberapa analisanya mengenai Laporan Keuangan di berbagai departemen menambah pengalaman sebagai seorang praktisi dalam bidang keuangan. Pengalaman yang pernah dilakukannya sebagai instruktur di bidang keuangan dengan topik antara lain: Finance Management with Application Excel Program, Operation Research with QM Program for Windows, Corporate Finance - Modelling with Excel, Finance Management for Non - Profit Organization, Meeting Building Management based on Finance Management Aspect, dan lain - lain.



 



Jadual & Lokasi :
Kamis, 18-02-2010 - Jum'at, 19-02-2010
Harris Hotel Tebet / The Park Lane Hotel Casablanca






Fee/Investasi :




  • Rp 2.950.000,- (Full Fare)

  • Early Bird Rp 2.800.000 untuk pembayaran sebelum tanggal 10 Februari 2010

  • Untuk pendaftaran Group sebesar Rp 5.400.000 untuk pendaftaran  2 orang peserta

  • BONUS ! ! ORGANIZER BOOK









 




Kamis, 14 Januari 2010

CONTRACT FOR CONTRACTOR (PASTI JALAN)

CONTRACT FOR CONTRACTOR
Estubizi Business Center, Jakarta |  4 Maret  2010 | Pukul : 08.30 – 16.30 WIB | Rp 1.500..000,-



MANFAAT :


  • Memiliki pengetahuan Kelengkapan Dokumentasi hukum dan prosedur perolehannya.

  • Mampu memahami pengertian umum mengenai MOU, persetujuan, kesepakatan perjanjian dan perikatan.

  • Memberikan pemahaman tentang komersial dari sisi kepentingan bisnis.Mampu menyelesaikan sengketa dengan baik dan sesuai hukum dan juga memahami UU Jasa Konstruksi.





Siapa harus hadir :

Direktur, Komisaris ,Legal manager / Staff , Finance, Corporate Secretary




PROGRAM OUTLINE:
Sesi I

  • Perikatan-Perjanjian dan Pertanggungjawaban Perdata

  • Konsep dan Pengertian Perikatan

  • Konsep Pertanggungjawaban perdata dalam perikatan

  • Konsep jaminan dalam hubungannya dengan pertanggungjawaban perdata

  • Konsep dan Pengertian Perjanjian

  • Hubungan antara perikatan dan perjanjian

  • Azas-azas dalam perjanjian

  • Syarat sahnya perjanjian

  • Hapusnya Perikatan


Sesi II

  • Perjanjian/ Kontrak Konstruksi

  • Isi Perjanjian Konstruksi

  • Hak dan Kewajiban Pemberi Kerja – perspektif KUHPerdata dan UU Jasa Konstruksi

  • Hak dan Kewajiban Kontraktor – perspektif KUHPerdata dan UU Jasa Konstruksi

  • FIDIC sebagai aturan hukum



Instructor :

DR. GUNAWANWIDJAJA,SH,MH,MM
( Widjaja and Partners)
Senior Praktisi Hukum Bisnis & Pasar modal




INVESTASI :

  • Rp. 1.500.000,- / peserta.

  • Peserta Non-Residential.

  • Sudah termasuk Meeting Package, Training Kits, Modul Pelatihan dan Sertifikat.





VENUE

Estubizi Business Center, Setiabudi Building 2 Lantai 1
Jl. HR.Rasuna Said ,
Kuningan, Jakarta selatan




    Rabu, 13 Januari 2010

    GAS TURBINE

    GAS TURBINE



    Bandung | February 16-19, 2010 | USD 917,-/ Person






    Training Objectives:




    • Understanding the basic principles of operation and maintenance of gas turbine

    • Understanding the secret of gas turbine performance improvements



     



    Training Participants:




    • Operator

    • Technician

    • Maintenance






    Syllabus




    1. Basic Concept and Gas Turbine Theory

    2. Gas turbine components

    3. Energy Conversion Gas turbine

    4. Fluids flow in gas turbine

    5. Gas turbine performance

    6. Operation and Maintenance of Gas turbine

    7. Gas turbine simulation






    Instructor:



    This course will be conducted by Ir. Hendy Riyanto, M.Sc. He is well experienced in Thermodynamic Engineering. He began his career as Lecturer of Machine Element, Numerical Analysis at Universitas Pasundan. He gained post-graduate on Mechanical Engineering from Colorado State University and practiced and shared his knowledge by becoming tutor in the same university for ten years. During his career he exposed to various jobs and responsibilities such as Geothermal Steam Turbine Analyst, Maintenance Management at PT Badak LNG and CNOOC, Mini Hydro Electric Generation, Natural Gas Vehicle Bus for Jakarta Busway Project, etc He has been delivering training course since 2005.






    General Information



    Certificate of Appreciation



    All attendees will receive a certificate of appreciation attesting to their participant in the training. This certificate will be providing in exchange for a completed training questionnaire.






    Documentation




    • Quality training material kits will be on registration, additional papers, & handouts assignment by Our Partner.

    • Note-taking by participants is encourage. However, to ensure free and open discussions, no formal records will be kept.

    • Casual clothing is recommended. The training atmosphere is informal.






    Facilities




    • Quality training material (hardcopy and softcopy)

    • Quality training kits included calculator, T-shirt or jacket, cap, ect.

    • Interactive presentation with discussion

    • Convenient training facilities with five star quality

    • Lunch per day

    • Morning and afternoon coffee / tea breaks for along the training

    • Certificate of Completion

    • Half day city tour at the end of training session following by dinner with entertainment  (Optional)

    • Exclusive flash disk.






    Tuition Fee & Registration  Deadline




    • USD 917,-/ Person,

    • discount 10 % if register three or more persons from one company.

    • Registration deadline a weeks before training held.






    Minimum Participant



    This training will be conducted if we receive registration letter from 3 (three) participants (Minimum)








    H2S and CO2 Removal in the Upstream Gas Sweetening

    H2S and CO2 Removal in the Upstream Gas Sweetening



    Bandung | February 16-19, 2010 | USD 972,-/ Person



     



    Course Description and Benefits




    • With increasing demands to natural gas in Indonesia, sour gases are being tapped for utilization after purification. But, the natural gas that is transported to the fuel market must meet legal and safety requirements; it must be non-toxic, non-corrosive and safe to environment. For that reasons, H2S, and CO2 are removed to certain level through a gas sweetening process. The amines (MEA, DEA, MDEA) are the most popular solutions and thus commonly used in many gas fields.

    • This course is designed as an effective practical shortcut to understand the amine sweetening process and all features and problems encountered in amine plant operations for engineers, operators, technicians, and anyone who involve or responsible  in H2S and CO2 removal.

    • The course content and approach are designed to suit participants of different background and different position. It will be delivered as a to-the-point explanation by a professional instructor, utilizing an easy-to-understand examples and illustrations, especially the actual findings in Indonesia.

    • By attending this course, participants are able to broaden or reshape their knowledge on the related subjects of his or her area of responsibility, learn more about the principles of amine sweetening, identify and discuss the function of each component used in the process, and trace process flow through a typical amine unit, discuss and consult their specific problems they are about to bring to the class, and share experiences with others.

    • After completion of this course, participants will understand how each component in the unit operates, the effects of process variables, what and how to monitor the unit and make necessary adjustments, what and how to perform routine maintenance, and trobleshooting common problems affecting proper operation of the unit, in order to achieve the goals of gas sweetening.



     



    Course Highlights




    • Production of Transportable and Salable Gas Stream

    • Overview of Natural Gas Processing and Gas Treating

    • The Principles of Reaction Type Gas Sweetening

    • Amine Sweetening Process Flow and Components

    • Amine Sweetening Plant Operation and Controls

    • Amine Conditioning and Amine Losses Control

    • Plant Maintenance and Troubleshooting



     



    Course Contents




    • Lean-rich and high-low pressure natural gas product

    • Gas-well gas and associated gas

    • Typical near well surface production operations and facility

    • Examples of gas producing schemes

    • Sales specifications, environmental requirements and economics

    • Gas sale contract and limitation of H2S and CO2 contents

    • Gas processing, conditioning and treating

    • The principles of absorption process with alkanolamines

    • Typical sweetening unit and the process variables

    • Inlet separator, contactor column and flash tank

    • The role of inlet gas temperature and inlet amine temperature

    • Filters and lean/rich heat exchanger

    • Stripper column and reflux condenser/accumulator

    • Reboiler, reclaimer, and surge tank

    • The role of reboiler, reclaimer and heat exchanger temperatures

    • Circulation pump and trim cooler

    • The role of contactor, stripper, filter and flash tank pressures

    • The problem of amine losses

    • Reducing amine losses and amine tests

    • The problem of foaming and control of foaming tendency

    • Maintenance and troubleshooting of amine unit

    • Safety for working at amine unit

    • Recommendation for startup and shutdown

    • Relative performance of alkanolamines



     



     



    Training Method, Materials and Program




    • The course will be delivered in the form of classroom exposition, case studies and open discussion. Course materials will be handed out as hard and soft copy.

    • The course will be given in Bahasa Indonesia.  In special case, upon request, it will be in English.

    • Actual field problems, which are about to bring to the course, will be presented and discussed in the class and shared to find recommendation as a specific solution. All participant documents should be treated as confidential.

    • Course itinerary, materials and program will be provided and prepared by the organizer.



     



    Instructor



    Hilman Ahmad & Associates



    This specially designed course will be conducted by Hilman Ahmad & Associates, an Independent Consultant in industrial oil and gas, member of the Society of Indonesian Petroleum Engineers, who manage the Professional Industrial Oil & Gas Education Center, and has been practicing production operation & safety and corrosion control engineering in Indonesia for more than twenty-five years. He post-graduated from Tokyo Institute of Technology (sponsored by UNESCO) in 1977. He joined in-field-practice program at Nippon Kokan Steel Company & Research Center Kawasaki, Japan for production facility design & construction and corrosion prevention & control in 1983, and collaborated with Cormon Industrial Research Center Brighton UK for on-line corrosion monitoring development in 2000. He has been delivering training course in production operation, maintenance & safety and corrosion control for personnel from Oil & Gas Company and Petrochemical Industry since 1979.



     



     



    General Information



    Certificate of Appreciation



    All attendees will receive a certificate of appreciation attesting to their participant in the training. This certificate will be providing in exchange for a completed training questionnaire.



     



    Documentation & Dress Code




    • Quality training material kits will be on registration, additional papers, & handouts assignment by Our Partner.

    • Note-taking by participants is encourage. However, to ensure free and open discussions, no formal records will be kept.

    • Casual clothing is recommended. The training atmosphere is informal.



     



    Facilities




    • Quality training material (hardcopy and softcopy)

    • Quality training kits included calculator, T-shirt or jacket, cap, ect.

    • Interactive presentation with discussion

    • Convenient training facilities with five star quality

    • Lunch per day

    • Morning and afternoon coffee / tea breaks for along the training

    • Certificate of Completion

    • Half day city tour at the end of training session following by dinner with entertainment (Optional)

    • Exclusive flash disk.



     



    Tuition Fee & Registration  Deadline




    • USD 972,-/ Person,

    • Ddiscount 10 % if register three or more persons from one company.

    • Registration deadline a weeks before training held.



     



    Minimum Participant



    This training will be conducted if we receive registration letter from 3 (three) participants (Minimum)














    Selasa, 12 Januari 2010

    Rencana Teknologi dan Sistem Informasi

    Rencana Teknologi dan Sistem Informasi



    Hotel Bumikarsa Bidakara, Jakarta | Kamis-Jumat, 4-5 Maret 2010 | Rp. 2.900.000,-





     



    Information is the gold and the fuel. (James Glieck, 2001)





    Today, meaningful, accurate information is the lifeblood of most organizations. In fact, in many cases, information is not just critical to the business –it is business. Therefore, the need to plan how data is collected, flows through the organization, and is transformed into the business can access, is vital. (Carbone, 2004)





     



    Tema Pelatihan





    Pengembangan Rencana Teknologi dan Sistem Informasi



    memadukan arsitektur bisnis, arsitektur informasi dan arsitektur teknologi dalam sebuah Arsitektur Enterprise untuk menyusun atau merancang pengembangan rencana induk teknologi dan sistem informasi



     



    Latar Belakang



    Pengembangan aplikasi teknologi dan sistem informasi seringkali dilaksanakan tanpa perencanaan dengan benar. Seringkali aplikasi dikembangkan secara lokal oleh tiap-tiap fungsi organisasi sehingga akhirnya terciptalah pulau-pulau informasi yang terpisah. Akibatnya pimpinan akan sulit memperoleh informasi yang dibutuhkan dalam pengambilan keputusan penting/critical apabila informasi dimaksud bersumber dari berbagai sistem informasi yang tidak terintegrasi yang dikembangkan berdasarkan gaya dan platform masing-masing unit fungsional.



    Nampak jelas bahwa segala sesuatunya akan berjalan dengan baik seandainya organisasi memiliki perencanaan yang baik, utuh dan menyeluruh untuk membangun dan mengembangkan teknologi dan sistem informasi organisasi. Arsitektur Enterprise merupakan cara mewujudkannya. Arsitektur Enterprise merupakan Pendekatan Langkah Demi Langkah yang dapat digunakan untuk mengembangkan master plan, blue print, ataupun rencana induk pengembangan teknologi dan sistem informasi bagi organisasi.



     



    Manfaat Pelatihan



    Pelatihan ini didesain untuk membekali peserta dengan pengetahuan, kemampuan dan keterampilan pembuatan Arsitektur Enterprise bagi organisasinya. Pendekatan yang digunakan bersifat praktis dan dapat langsung diterapkan. Peserta akan dapat merumuskan sebuah Standard Operating Procedure yang berguna untuk meningkatkan unjuk kinerja divisi teknologi dan sistem informasi guna mendukung pencapaian tujuan organisasi secara efektif dan efisien.



     



    Sasaran Pelatihan



    Setelah mengikuti pelatihan ini peserta diharapkan memiliki pengetahuan teoritik dan praktis (skill, keterampilan dan kompetensi) dalam pembuatan Arsitektur Enterprise.



     



    Jadwal Pelatihan



    Kamis,  4 Maret 2010


































    08.30 – 09.00

    Morning Coffee & Registration

    09.00 – 09.30

    Overview: Perkembangan, Fakta & Tantangan (1)

    09.30 – 11.30

    Memahami Arsitektur Enterprise (2)

    11.30 – 13.00

    Prayer & Luncheon

    13.00 – 14.30

    Kerangka Kerja Zachman (3)

    14.30 – 15.00

    Afternoon Coffee Break

    15.00 – 16.30

    Business System Planning (4)



     



    Jumat, 5 Maret 2010


























    08.00 – 09.30

    Perencanaan Arsitektur Enterprise (5)

    09.30 – 10.00

    Morning Coffee Break

    10.00 – 11.30

    Model Kematangan (6)

    11.30 – 14.00

    Prayer & Luncheon

    14.00 – 15.00

    Advancement & Penutup (7)



     



    Topik Bahasan




    1. Membahas tema pelatihan secara umum serta manfaatnya bagi peningkatkan kinerja perusahaan. Berbagai perkembangan teori dan praktik perencanaan teknologi dan sistem informasi diungkapkan serta arah yang seharusnya dituju oleh organisasi agar penerapan TSI dapat berdaya guna mendukung pencapaian tujuan organisasi.


    2. Membahas tema-tema terkait Arsitektur Enterprise dan hubungannya dengan konsep tata kelola organisasi lainnya (balanced scorecard, excellence model dari European Foundation for Quality Management [EFQM], ISO 9001, COBIT dari ISACA, ITIL serta CMM dan CMMI).


    3. Membahas Kerangka Kerja Zachman serta kerangka kerja lainnya (TOGAF, EAS dan BEAM) disertai perbandingan metodologi serta penerapan metodologi dimaksud dalam pengembangan Arsitektur Enterprise.


    4. Membahas tema-tema dalam area Business System Planning dengan pendekatan langkah demi langkah yang dapat diterapkan secara mudah oleh peserta di organisasinya.


    5. Membahas berbagai tema mulai dari inisialisasi perencanaan sampai dengan transisi ke implementasi.


    6. Membahas tema-tema terkait dengan titik berat pada implementasi Model Kematangan Enterprise Architecture Planning.




     



    Metode Pelatihan



    Pelatihan ini tidak sekadar ditujukan untuk berbagi visi dan ilmu namun lebih pada berbagi kompetensi dan keahlian yang dapat diterapkan untuk meningkatkan unjuk kerja organisasi. Metode yang digunakan adalah presentasi, ceramah, diskusi, tanya jawab dan studi kasus guna memastikan peserta memiliki kompetensi dan keahlian disamping pemahaman teoritik. Untuk itu, peserta diberikan kesempatan untuk mengajukan pertanyaan, pendapat dan sebagainya paska pelaksanaan workshop demi lebih memastikan kompetensi dan keahlian telah ter-delivery.



     



    Target Peserta



    Pelatihan ini didesain untuk Chief Information Officer dan pimpinan organisasi lainnya baik perusahaan maupun pemerintahan. Karena era saat ini adalah di mana information is the lifeblood of the organizations, di era di mana information is the gold and the fuel maka pimpinan tidak bisa lagi sekadar mendelegasikan. Staff dan pimpinan Divisi TSI perusahaan dan lembaga pemerintahan wajib memiliki pengetahuan, skill dan keterampilan terkait perencanaan stratejik TSI.



     



    Nara Sumber



    Dr. Kridanto Surendro



    Memiliki banyak pengalaman praktis membantu berbagai organisasi pemerintahan, BUMN dan swasta nasional maupun multinasional dalam menyusun Rencana Induk Pengembangan Teknologi dan Sistem Informasi. Berpengalaman mengajar matakuliah kerekayasaan informasi (information engineering) pada program magister Sistem Informasi Institut Teknologi Bandung. Membimbing penelitian master dan doktoral bidang Arsitektur Enterprise. Telah menulis sejumlah buku bidang teknologi dan sistem informasi.



     



    Investasi




    • Rp. 2.900.000,- / orang,

    • Rp. 5.600.000/ 2 orang

    • Sudah termasuk Coffee Break 2X, Makan siang, Seminar kit, Sertifikat & CD Aplikasi



     



    Minggu, 10 Januari 2010

    Gas Pipeline Hydraulic

    Gas Pipeline Hydraulic



    Santika Hotel, Bali | February 15-17, 2010  | Rp. 5.250.000,-



     




    COURSE OUTLINE



    • Gas properties overview, including viscosity, pressure, compressibility factor and gas laws

    • How to calculate the compressibility factor of a gas using the Standing-Katz chart

    • How to calculate the properties of a natural gas mixture

    • Calculating pressure drop due to friction in a gas pipeline using the General Flow Equation

    • Use of other gas pipeline pressure drop equations, including Panhandle A, Panhandle B, Weymouth and the IGT equation.

    • Friction factor and transmission factors used in gas pipeline pressure drop equations

    • Gas pipeline velocity and erosional velocity calculations

    • Calculation of pressure drop in long pipelines by subdividing into short segments

    • The use of compressor stations and pipeline looping to increase gas throughput

    • Compressor station fundamental calculations, including compression ratio, efficiency and horsepower

    • Calculation of allowable pipe pressure using design factors based on the location of the pipeline and its proximity to populated areas


    WHO SHOULD ATTEND




    The following selected participants should attend this course:





    • Maintenance Engineer/ Superintendent/ Supervisor

    • Rotating Engineer/ Superintendent/Supervisor

    • Power Plant Engineer/ Superintendent/ Supervisor.

    • Everybody who wants to add knowledge and interest in the above subject




     



    Instructor
    Ir. I Nengah Diasta, M.Eng



    Ir. I Nengah Diasta M.Eng. is a lecturer in Mechanical Engineering Department of Bandung Institute of Technology for more than 10 years. His expertise is on the area of fluid mechanics and pumping system. He also gives training program to the public such as Pertamina, PT. Pupuk Kaltim, PT. Telkom and some other PSC companies on this subject. On the practical aspects, Mr. Diasta was project leader in the industries such as PT. Telkom, Containers Terminal of Tanjung Priok, Juanda Airport, and Rekayasa-Sumitomo Power Plant Project at Wayang Windu Geothermal field, Bandung.

    Schedule

    February 15-17, 2010
    3 days



    Venue
    Santika Hotel, Bali



    Tuition Fee
    Rp. 5.250.000,-  per participant, excluding accommodation & tax.






    Sabtu, 09 Januari 2010

    Advance Vibration Analysis

    Advance Vibration Analysis



    Papandayan Hotel, Bandung  | February 8-12, 2010  | Rp 8.250.000,-



     




    OBJECTIVES



    • Improve Advance Vibration knowledge

    • Detect The Mechanical Component Damage Prematurely

    • Understand how to select and use instrumentation to measure vibration correctly


    COURSE OUTLINE




    1. Aspek Teknologi Perawatan Prediktif Berdasarkan Getaran Permesinan



    Getaran & Kondisi mesin: Pengukuran sinyal getaran: Perangkat analysis sinyal getaran; Pengertian dasar Technology Perawatan; Metode Perawatan Konvensional; Metode Perawatan Predikitif, Pemantauan Periodik & Permanen,
    Parameter Pengukuran.



    2. Karakteristik Getaran Kerusakan Mesin



    Ketak seimbanagan: Bantalan Gelinding; Oil Whiri; Misalignment, Mechanical looseness (kekendoran) Roda Gigi; Blade & Vane; Resonansi; Motor Listrik



    3. Metode Analisis Sinyal Getaran



    Aspek praktis dan analisis; Memanfaatkan fasa untuk analisis; Jumblah dan selisish Frekwensi; Normalisasi kecepatan; Baseline spectrum; Tabel trouble getaran, Standar getaran; evaluasi criteria getaran mesin.



    4. Analisis Data Domain Frekwensi



    Konsep analisa data domain frekwensi; frekwensi dasar, Harmonik dan fasa; Analisis data auto power, Power spectrum dan cross power; Spectrum; Analisis dan cirri sinyal getaran dalam domain frekwensi.



    5. Komputer Program Perawatan Prediktif



    Program utama: Konsep Database; Penayangan data; Diagnosis menu tampilan




    WHO SHOULD ATTEND



    • Rotating Equipment Engineer/ Superintendent/ Supervisor/ Technicians

    • Condition Monitoring and Performance Engineer/ Superintendent/ Supervisor

    • Mechanical Engineer Superintendent/ Supervisor

    • Mill Right

    • Engineer/ Superintendent/ Supervisor/ Technician

    • Asset Management Team Members

    • Maintenance Engineer/ Superintendent/ Supervisor

    • Everybody who wants to broaden the knowledge or benefit from this course




     



    Instructor
    Prof. Dr. Ir. Indra Nurhadi



    Prof. DR. Ir. Indra Nurhadi is is a lecturer at Mechanical Engineering Department of ITB since 1975 and head of Computational Mechanics Laboratory since 1988 with nearly 30 years of experience in the industries. He received his bachelor degree in 1973 from Mechanical Engineering of ITB. His master and Ph.D degree were received in 1981 and 1985 from University of Wisconsin - Madison, U.S.A.



    He regularly conduct seminars and training for the topics: Finite Element Method for Stress Analysis, Lubrication and Bearings, Selection and Design, Balancing and Alignment, Vibration Analysis for Machine Health Monitoring, Design of Machine Elements, Mechanical Design, Motorcycle Frame Analysis and Design.



     



    Schedule
    February 8-12, 2010
    5 days



    Venue
    Papandayan Hotel, Bandung



    Tuition Fee
    Rp  8.250.000,- per participant, excluding accomodation & tax.



     



    Total Productive Maintenance

    Total Productive Maintenance
    Novotel Hotel, Bandung | February 8-12, 2010  | Rp 8.250.000,-



     




    BACKGROUND & OBJECTIVES




    Total Productive Maintenance (TPM) can drastically improve maintenance strategy and efficiency achieved by industries. TPM can properly optimize the synergy between operators and plant equipment. Furthermore, TPM can also give contribution to the environmental conservation and work comfort ability. Many industries in United State of America and Japan have proven how well-implemented TPM in their industries, have given high cost saving, long lasting continuous operation, and health & safety program improvement.



    This course will present the philosophy of TPM, including on how to implement that program in the company. It is expected that the participants can absorb comprehensive a lesson-learned regarding TPM, and implement the TPM concept and knowledge in their working environment to improve maintenance management, productivity leading to maximum plant availability with good safety records.




    CRUSIAL BENEFITS




    Participants are expected to enable to:





    • Understand principles of TPM

    • Understand proper philosophy of TPM program

    • Understand implementation strategy of TPM

    • Fully understand how to implement TPM program in the company


    COURSE CONTENT




    1. TPM in Process Industry





    • History, development and definition of TPM

    • Special aspect in process industry

    • Management in process industry

    • Basic activity of TPM development




    2. Maximizing Production Effectiveness





    • Production effectiveness in the industry

    • Overall plant effectiveness

    • Maximizing effectiveness of production input

    • Continuous improvement




    3. Directive Correction





    • What is directive correction

    • Lost and six major results

    • Directive correction in practice

    • Steps in directive correction

    • Technical analysis for correction

    • P-M analysis (phenomenon-mechanism)

    • Malfunction reduction pprogram

    • Failure reduction program

    • Process simplification program




    4. Autonomous Maintenance





    • Autonomous maintenance development program

    • Un-separated Operation and Maintenance

    • Classification and alocation of maintenance activity

    • Definition of equipment base line condition

    • Implementation steps of auotonomous maintenance

    • Preparation for main plan of autonomous maintenance

    • Autonomous maintenance audit




    5. Planned Maintenance





    • Equipment management in process industry

    • Planned-maintenance in process industry

    • Planned-maintenance system

    • Improvement of maintenance effectiveness

    • Planned-maintenance implementation steps




    6. Initial Management





    • Requirement of initial management

    • Equipment life cost

    • Design of MP (maintenance prevention)

    • Initial Management system

    • Equipment initial management practice

    • Control in commissioning

    • Utilization of product design technology and MP design data




    7. Qualified of Maintenance





    • Qualified maintenance in process industry

    • Qualified maintenance in TPM

    • Initial condition of maintenance successfulness

    • Basic element maintenance quality

    • Qualified maintenance implementation

    • Who should use qualified maintenance

    • Quality improvement through initial management




    8. Skill Training of Operation and Maintenance





    • Couching and training in TPM

    • Six steps to improve maintenance and operation ability




    9. TPM at Administration and Support Section





    • Requirement of TPM at administration and support section

    • TPM implementation at administration and support section

    • TPM promotion at administration and support section

    • Job function improvement

    • Directive improvement

    • Administration of autonomous maintenance




    10. Safe and Enviromental Friendly System





    • TPM and management of safety and enviromental

    • No accident and pollution

    • Strategic key to zero accident and pollution

    • Steps to zero accident and pollution

    • Sample of audit

    • Specific strategy to zero accident and pollution




    11. Small Group Activity in TPM





    • TPM small group activity characteristic

    • Function and operation of TPM small group

    • Role of small group at each level




    12. TPM Effectiveness Measurement





    • Philosophy to define objective

    • Measure TPM effectiveness

    • Type of indicator

    • TPM Evaluation

    • Benefit Measure of TPM


    WHO SHOULD PARTICIPATE



    • Maintenance Manager/ Superintendent/ Engineer/ Supervisor/ Planner

    • Production Manager/ Superintendent/ Engineer/ Supervisor

    • Plant Manager/ Superintendent/ Engineer/ Supervisor

    • Everybody who wants to add knowledge and interest in the above subject




     



    Instructor
    DR.-Ing. Ir. Tri Yuswijayanto Z. and Team



    DR.-Ing. Ir. Tri Yuswijayanto Zaenuri is Head of Laboratory of Combustion Engine and Propulsion System at ITB. He has an extensive experience in friction technique and lubrication system. In the past 13 years of his career, Mr. Zaenuri has been involved in number of various assignments and scientific researches for industrial purposes as well as laboratory of ITB.



    He has given many short course for in-house or public course of maintenance management, lubrication system & technology to industries in the country. Also he became the presenter for his papers in national or international seminar in his related expertise.



    He received his Dr.-Ing. in Reibungstechnik und Maschinenkinetik from Technische Universitaet Clausthal, Clausthal-Zellerfeld, Germany.



     



    Schedule
    February 8-12, 2010
    5 days

    Venue

    Novotel Hotel, Bandung

    Tuition Fee

    Rp 8.250.000,-  per participant, excluding accommodation & tax.



     



    Jumat, 08 Januari 2010

    Electrical Equipment Maintenance

    Electrical Equipment Maintenance



    Papandayan Hotel, Bandung | January 25-28, 2010  | Rp 7.250.000,-



     




    COURSE OUTLINE




    Introduction to electrical equipment maintenance, testing and troubleshooting





    • Why maintain and test

    • Overview of electrical preventive maintenance and testing

    • Planning an EPM program

    • Overview of testing and troubleshooting methods

    • Review of dielectric theory and practice




    Electrical safety, switching practices and precautions





    • Introduction

    • Electrical fire emergencies

    • Effects of electrical shock

    • First aid




    Direct current voltage testing of electrical equipment





    • Direct current voltage testing of insulation

    • DC testing methods

    • Transformer

    • Cable and accessories

    • Electrical switchgear and circuit breakers

    • Motors and generators

    • Evaluation of test data readings

    • Precautions when making direct current test




    Alternating current voltage testing methods





    • Power factor and dissipation factor test methods

    • Description of the power factor test equipment

    • Basic test connections (test modes) for PF testing

    • Safety precautions with PF testing

    • PF testing of electrical apparatus insulation




    Maintenance of electrical equipment





    • Preventive maintenance of transformer

    • Transformer testing

    • Maintenance of cables

    • Cable failures and their analysis

    • Electrical switchgear maintenance and care

    • Infrared inspection of electrical equipment

    • Motor and generator maintenance

    • Testing of motor and generator


    WHO SHOULD ATTEND



    • Electric Engineer/ Supervisor/ Superintendent

    • Power Plant Maintenance Engineer/ Supervisor/ Superintendent

    • Power Plant Operation Engineer/ Supervisor/ Superintendent

    • Everybody or professional who wants to broaden knowledge or gain Benefit from this course




    Instructor
    Ir. Qamaruzzaman, MT



    Ir. Qamaruzzaman, MT graduated from Electrical Engineering, Bandung Institute Technology. He studied at Technische Universitaet Braunschweig, Federal Republic of Germany in 1979 to add has knowledge. He has been lectures and researcher at Department of Electrical Eng ITB since 1973. He has experience in PT. Sucofindo as senior Engineer for Perum Pelabuhan II Project, as senior Engineer, Feasibility study at PT. Spektra, etc. He is actives in IEEE Society Power Electronic, Industrial Engineer, ndustrial Application sine 1986.



    Schedule
    January 25-28, 2010
    4 days



    Venue
    Papandayan Hotel, Bandung



    Tuition Fee
    7.250.000,- per participant, excluding accommodation & tax.



    Selasa, 05 Januari 2010

    BASIC PRODUCTION ENGINEERING

    BASIC PRODUCTION ENGINEERING



    The Jayakarta Suite Hotel & Spa, Bandung | January 26-29, 2010 | USD 770,-/ person



     



    After completing this course you will be expected to:





    • Understand the basic principles of optimization calculation of production oil wells, gas and geothermal reservoirs, the development of the implementation of production optimization is to improve the performance of well and field production.

    • Conduct simple diagnosis and understand production optimization solutions with nodal analysis.

    • Create a simple analysis of the oil gas and geothermal well data, forecasting and its planning development.

    • Make a quantitative simple calculations from all data acquisition data tubing, flowline, choke, perforated, gravel?packs, sub?surface safety valve in wells, plan the development with taking into account the ability of each well.

    • Use knowledge of optimization for the applications of artificial lift with gas?lift, submersible?pump, sucker rod pump and hydraulic pump.




     



    Who Will Be Attending?



    This comprehensive training is suitable for:





    • Operator

    • Senior Operator

    • Engineer

    • Non Engineer




     



    Course Material





    • Production System Analysis

      • Nodal System Analysis Model

      • Nodal System Analysis Application



    • Reservoir Performance

      • Equations and Inflow Performance Relationship

      • Real?Time Performance of Oil Wells

      • Performnace Prediction of Oil Wells

      • Real?Time Performance of Gas Wells

      • Performnace Prediction of Gas Wells

      • Effect of Water Production



    • Pressure Drop of Fluid Flow in Pipes

      • General Equations and Concepts

      • Fluid Properties : Density,Compressibility Factor etc.

      • Well?Flow Correlations

      • Pipeline Flow Correlations

      • Chokes and Valves Pressure Drop

      • Effect of Velocity



    • Total System Analysis

      • Tubing Design

      • Flowline Size

      • Effect of Stimulation

      • Chokes and Valves

      • Effect of Completion



    • Artificial Lift Method

      • Gas Lift

      • Submersible Pump

      • Succker Rod Pump

      • Hydraulic Pump



    • Nodal Analysis in Specific Field Application

      • Pressure Drop Calculation in Steam Line

      • Pressure Calculation in Injection Wells

      • Pressure Calculation in Production Wells

      • Total Analysis Approach






     



    Instructor?



    Dr. Ir. Sudjati Rachmat, DEA was graduated from Petroleum Engineering Department of ITB in 1979 and hold Doctorate Degree with honored in 1987 from Ecole Centrale de Lyon I, France. The topic of his thesis is Modelisation Numerique d?Ecoulements Polyphasiques en Milieux Poreux. Application au Cas de Calcul des Champs de Pressions et de Saturations dans un Gisement de Petrole.



    For the time being, he became a lecturer in Petroleum Engineering Department of ITB. His subjects are Analysis and Numerical Method, Engineering Mathematics, Computer Simulation, Fluid Mechanic, Artificial Intelligence for Petroleum Engineering.



    He also gave many courses to the community, such as: basic reservoir engineering and reservoir simulation, basic production engineering, down hole well testing, statistic and numerical method for petroleum engineering, basic log interpretation, etc. He is a member of some profession organization such as: IATMI, SPE/EIME, IMA, HAIAI, FPS­USA, INAGA, and IGA.



     



    GENERAL INFORMATION



    DOCUMENTATION





    • Integrated Quality Training Material (HARDCOPY AND SOFTCOPY) & Quality Training Kits will be delivered on registration, additional papers & handouts assignment by Our Partner.

    • Note?taking by participants is encouraged. However, to ensure free and open discussions, no formal records will be kept.




     



    CERTIFICATE OF APPRECIATION



    All attendees will receive a Certificate of Appreciation attesting to their participation in the Training. This certificate will be providing in exchange for a completed Training Questionnaire.



     



    TRAINING VENUE



    The Jayakarta Suite Hotel & Spa, Bandung



     



    DRESS CODE:



    Casual Clothing is recommended. The Training atmosphere is informal



     



    TUITION FEE & REGISTRATION DEADLINE:



    Registration Deadline: January 18, 2010



    UUSD 770,-/ person



     



    Fee includes the following:





    • Four?day registration fee for all Training sessions;

    • Lunch per day

    • Daily coffee/tea breaks

    • Integrated Quality Training Materials (SOFTCOPY AND HARDCOPY)

    • Quality Training Kits,

    • Convenient Training Facilites,

    • Certifícate of Compleción




     



    REGISTRATION POLICY:





    • Registration Form MUST be return in advance for attending the Training

    • Full fixed fee is charged regardless of the length of time that registrant attends the Training

    • Attendees are expected to attend all Training sessions and are not permitted to attend on a partial basis.




     



    CANCELLATION & REFUND POLICY





    • Cancellation received after the registration deadline, October 27, 2009 entitles the registrant to received 25% refund.

    • Cancellation on the date will be recharged 100% from the fee No refund will be issued, if a registrant fails to show up at the Training on?site.




    For additional course dates, locations, and registration please contact us with fill in the form below: