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BEGIN:VTIMEZONE
TZID:Asia/Krasnoyarsk
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TZOFFSETFROM:+0700
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DTSTART:20250101T000000
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BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260617T083000
DTEND;TZID=Asia/Krasnoyarsk:20260619T160000
DTSTAMP:20260519T140118
CREATED:20240924T031242Z
LAST-MODIFIED:20260325T105322Z
UID:350-1781685000-1781884800@smart-training-center.com
SUMMARY:Turbo Machineries Operation & Maintenance
DESCRIPTION:BACKGROUND: \nTurbomachinery merupakan mesin yang berhubungan dengan transfer energi antara fluida (termasuk liquid & gases ) & rotor (rotating shaft ). Turbomachinery yang menyerap energi (add energy) dikategorikan sebagai: \n\npumps family (pumps\, compressor\, \nfan\, blower\ndan yang melepas energi (extract energy) dikategorikan turbine.\n\nMesin yang berfungsi untuk memindahkan energi antara poros dengan fluida (liquid atau gas) sering disebut dengan Turbomachinery). Ini merupakan peralatan yang canggih dan kompleks banyak sekali dipakai untuk memenuhi kebutuhan proses industri migas\, petrokimia & industri berat lainnya\, secara ekonomis. Dengan fungsinya yang vital dan selalu menjadi tulang punggung sebuah plant\, maka perlu untuk terus mengetahui kondisi mesin untuk melindungi dari shutdown\, kerugian\, dan kerusakan serta agar mesin mesin tersebut dapat bekerja secara optimal. \nOleh karena itu\, untuk mendukung semua itu diperlukan tenaga pelaksana yang mumpunni dibidangnya\, minimal dalam skala operasional sehari-hari. \nOBJECTIVES: \nDiharapkan setelah pelatihan turbomachinery\, peserta: \n\nMampu mengidentifikasi bagian bagian utama dari turbo machinery\nMemahami prinsip kerja turbomachinery\nMengetahui prosedur operasi yang efektif\nMengetahui instrumentasi dan kontrol pada turbomachinery\nMemahami peralatan pendukung turbomachinery\nMampu menganalisis problem seperti kavitasi\, surging\, vibrasi\nMampu mengatasi problem yang terjadi\nMengetahui prosedur perawatan\n\nCOURSE OUTLINE: \n Turbin gas\n\nPrinsip kerja turbin gas\nKomponen komponen utama (kompresor\, ruang bakar\, turbin gas\, rotor\, sudu rotor)\nProsedur operasi pada turbin gas\nPrestasi atau unjukkerja pada turbin gas\nPeralatan pendukung pada turbin gas (sistem starting\, sistem pelumasan\, sistem bahan bakar\, sistem udara pemasukan )\nChooking fenomena\, surging\, dan vibrasi pada turbin gas\nInstrumentasi dan control\nTrouble shooting pada turbin gas\nPerawatan pada turbin gas\n\nTurbin Uap\n\nKomponen komponen pada turbin uap\nProsedur operasi\nPrestasi turbin uap\nSistem pelumasan pada turbin uap\nInstrumentasi\, kontrol dan peralatan proteksi pada turbin uap\nTrouble shooting\nPrinsip kerja turbin uap\n\nPompa dan Kompresor\n\nPrinsip kerja pompa dan kompresor\nKomponen komponen pompa dan kompresor\nProsedur operasi pompa dan kompresor\nPrestasi pompa dan kompresor\nChooking fenomena\, surging\, kavitasi dan vibrasi pada pompa dan kompresor\nInstrumentasi dan control\nTrouble shooting\nPerawatan pada pompa dan kompresor\n\nWHO SHOULD ATTEND: \n\nElectric Engineer/ Supervisor/ Superintendent\nPower Plant Maintenance Engineer/ Supervisor/ Superintendent\nPower Plant Operation Engineer/ Supervisor/ Superintendent\nEverybody or professional who wants to broaden knowledge or gain Benefit from this course\n\nTRAINER: \nIr. Parno Raharjo\, MSc\, Phd\, \nPublic Training berikutnya : 18 – 20 November\, 2026
URL:https://smart-training-center.com/event/turbo-machineries-operation-maintenance/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Engineering,Maintenance
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260617T083000
DTEND;TZID=Asia/Krasnoyarsk:20260619T160000
DTSTAMP:20260519T140118
CREATED:20241001T061236Z
LAST-MODIFIED:20260326T015536Z
UID:438-1781685000-1781884800@smart-training-center.com
SUMMARY:Onshore Facilities Infrastructure\, Design\, Constructions & Operation Optimization
DESCRIPTION:DESCRIPTION:\nOnshore oil and gas facilities are among the most complex systems in the energy sector. These facilities require a skilled and competent team to implement fully integrated approaches throughout the entire lifecycle—from initial studies and design planning to construction\, startup operations\, and ongoing post-commissioning processes. \nA crucial part of this lifecycle includes conducting thorough post-startup reviews\, optimization efforts\, and effective asset integrity management to ensure that assets remain available and reliable. These practices not only enhance operational efficiency but also contribute to overall safety in the workplace. \nThis advanced training session is designed to cover various aspects\, including essential technical components such as design\, as well as broader topics like construction management\, contract management\, and asset management. Participants will gain insights into how to navigate the complexities of onshore operations effectively. \nOBJECTIVES:\nAfter completing this training\, participants will gain: \n\nA solid understanding of essential codes and regulations governing the industry.\nAssurance that the site and routing of facilities adhere to all requirements.\nThe ability to apply mechanical and physical principles to piping\, hydraulics\, and material selection.\nSkills to implement Safety in Design principles effectively.\nTechniques for identifying unique design constraints specific to onshore facilities.\nThe capability to conduct comprehensive post-commissioning reviews and recommend actionable improvements.\nKnowledge of best practices in Operation and Asset Integrity Management.\n\nLEARNING SYLLABUS:\n\nOverview of industry codes and regulations\nKey elements of feasibility studies\nSite Survey and Right of Way (RoW) determination\nMechanical and process design fundamentals\nSystem sizing and design considerations\nEquipment selection criteria and methods\nSafety in Design overview\nStages of construction and effective contract management\nPost-production design review and optimization strategies\nOperation and Asset Integrity/Reliability Management practices\n\nTARGETED PARTICIPANTS:\nThis training is specifically aimed at Process\, Pipeline & Project Engineers\, Operation & Maintenance Supervisors\, Regulatory & Compliance personnel\, and others looking to enhance their skills in the oil and gas industry. It is designed for individuals eager to expand their knowledge in planning\, construction\, startup\, post-production\, and asset management of onshore oil and gas facilities. \nTRAINER:\nIr. Agus Ibrahim – Trainer and field practitioner with nearly 30 years of experience in the oil and gas sector. \nExperienced with years of exemplary project management and contract in Oil & Gas infrastructure as well as mining/mineral infrastructure with an emphasis on scope\, schedule\, quality and HSE requirements to the best industry practice for engineering\, fabrication and construction. Understandings critical requirements of both greenfield and brownfields project development from concept to execution. Passionate about manages and integrate of widely diverse technical and multi-cultural teams. \nExcellent administration and management skills\, including strategic planning\, leadership\, resource allocation\, coordinating staff\, exceptional critical thinking and analytical skills. \nWell understand the project needs of both Contractor’s perspective and Company’s project life cycle perspective. \nPublic Training berikutnya : 13 – 15 Oktober\, 2026 | 9 – 11 Desember\, 2026
URL:https://smart-training-center.com/event/onshore-oil-facilities-training/
LOCATION:Jakarta
CATEGORIES:Engineering,Maintenance,Manajemen,Oil & Gas,Project
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/10/Onshore-Facilities-Infrastructure-Design-Constructions-Operation-Optimization.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260617T083000
DTEND;TZID=Asia/Krasnoyarsk:20260619T160000
DTSTAMP:20260519T140118
CREATED:20241122T163237Z
LAST-MODIFIED:20260325T104707Z
UID:1033-1781685000-1781884800@smart-training-center.com
SUMMARY:Turbo Machinery Operation & Maintenance
DESCRIPTION:Background & About the Course\nRotating equipment or those may be simmply called as a group as  Turbo Machinaries is widely used in various industries and plays a vital role in end-to-end production operations. Mastering the principles of rotating equipment is essential for effective maintenance and operational efficiency. Identifying failure modes and monitoring symptoms of failure are crucial for establishing an effective maintenance program. \nThis course begins with an overview of rotating equipment\, including definitions\, types\, primary functions\, and general characteristics related to performance. It then delves into specific types of rotating equipment: pumps\, compressors\, turbines\, and fans/blowers\, covering their classifications\, performance characteristics\, and common failure modes. The training also addresses alignment\, balancing\, and predictive maintenance techniques for rotating equipment. \nCourse Objectives\nParticipants will: \n\nRefresh their knowledge of the functions and general characteristics of rotating equipment.\nUnderstand the classification and performance characteristics of pumps\, compressors\, turbines\, and fans/blowers.\nEvaluate the performance of rotating equipment effectively.\nIdentify anomalies and failure modes in rotating equipment.\nConduct alignment and balancing procedures.\nImplement appropriate predictive maintenance strategies for rotating equipment.\n\nWho Should Attend\nRecommended Participants: \n\nEngineers and Equipment Operators\nTechnicians\nMaintenance and Workshop Technicians\nQuality Control Engineers\n\nCourse Outline\n\nOverview of Rotating Equipment: Types\, Functions\, and General Characteristics\nPumps: Classification\, Performance Characteristics\, and Common Failure Modes\nCompressors: Classification\, Performance Characteristics\, and Common Failure Modes\nTurbines: Classification\, Performance Characteristics\, and Common Failure Modes\nFans/Blowers: Classification\, Performance Characteristics\, and Common Failure Modes\nIntroduction to Alignment and Balancing\nSummary of Rotating Equipment Failure Modes\nPredictive Maintenance for Rotating Equipment\nTroubleshooting Analysis\nMethods for Testing Equipment Performance\nEquipment Installation Requirements\nEquipment Log Book Management\nOperation Manual and Parts Book Overview\n\nAbout the Course Leader\nI. Parno Rahajo\, M.Sc.\, Ph.D.   \nPublic Training berikutnya : 18 – 20 November\, 2026
URL:https://smart-training-center.com/event/turbo-machinery-operation-maintenance/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Maintenance,Mechanical,Production Operation
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/Turbo-Machinaries.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260617T203000
DTEND;TZID=Asia/Krasnoyarsk:20260619T160000
DTSTAMP:20260519T140118
CREATED:20241001T043227Z
LAST-MODIFIED:20260330T105719Z
UID:442-1781728200-1781884800@smart-training-center.com
SUMMARY:Analisa dan Evaluasi Perencanaan Strategi Pemeliharaan Pembangkit
DESCRIPTION:BACKGROUND & ABOUT THE COURSE:\nAnalisa dan Evaluasi Perencanaan Strategi pemeliharaan ini harus dilakukan secara kontinyu untuk menghasilkan keandalan pembangkit. Bagaimana menganalisis kegiatan pemeliharaan juga harus dilakukan untuk menjaga keandalan unit pembangkit. Ini bisa dicapai kalau teknisi memiliki pemahaman pemeliharaan pembangkit\, bagaimana mengelola pemeliharaan yang tepat\, dan selalu melakukan analisis pemeliharaan. \nOleh karena itu dalam training ini Analisa dan Evaluasi Perencanaan Strategi Pemeliharaan Pembangkit akan diajarkan bagaimana agar mengelola pemeliharaan unit pembangkit dapat dilakukan dengan lebih baik. \nTRAINING OBJECTIVES:\nDengan mengikuti pelatihan ini diharapkan para peserta pelatihan mampu: \n\nMemahami sistem pembangkit\nMemahami prinsip kerja / operasi sistem pembangkit\nMemahami konsep & tujuan pemeliharaan\nMembuat strategi / kebijakan pemeliharaan pembangkit\nMemperbaiki perencanaan dan scheduling pemeliharaan pembangkit\nMemahami failure mode & effect analysis dan melaksanakan FMEA untuk meminimalkan failure\nMelakukan Root Cause Analysis & mengihindarkan/meminimalkan penyebab failure di kemudian hari\n\nWHO SHOULD ATTEND:\n\nManajer Pemeliharaan: Bertanggung jawab atas pengelolaan strategi pemeliharaan di pembangkit listrik.\nSupervisor Operasi dan Pemeliharaan: Berperan dalam pelaksanaan dan pengawasan aktivitas pemeliharaan.\nTeknisi dan Engineer Pemeliharaan: Terlibat langsung dalam implementasi rencana pemeliharaan.\nTim Perencanaan dan Evaluasi Pemeliharaan: Membutuhkan pemahaman mendalam tentang analisis dan evaluasi strategi pemeliharaan.\nProfessional Keandalan Mesin (Reliability Professionals): Ingin meningkatkan efektivitas perencanaan untuk mengurangi downtime dan meningkatkan efisiensi pembangkit.\nKonsultan atau Auditor Pemeliharaan: Yang mengevaluasi kinerja pemeliharaan di sektor pembangkit.\n\nCOURSE CONTENT:\n\nSistem pembangkit\nKonsep dan tujuan Pemeliharaan\nStrategi / kebijakan pemeliharaan\n\nperawatan terencana dan tidak terencana\nperawatan preventive\nperawatan predictive\npenggantian\n\n\nMaintenance budget\nMaintenance planning & scheduling\nFailure mode & effect analysis\nRoot cause analysis\nPengawasan dalam perencanaan pemeliharaan\nPengawasan dalam prosedur pemeliharaan\n\nTata kelola pemeliharaan unit pembangkitan yang sistematis merupakan hal penting dalam menjalankan seluruh proses bisnis untuk meningkatkan kinerja perusahaan sekaligus meningkatkan daya saing. Tata kelola pemeliharaan pembangkitan yang dilakukan secara efektif dapat menjadikan perusahaan terdepan dalam bidang pembangkitan. Pemahaman proses tata kelola pemeliharaan sistem pembangkit harus dilakukan secara rasional dan ekonomis dengan memperhatikan mutu dan keandalan\, sehingga unit bisa beroperasi secara optimum. \nABOUT THE COURSE LEADER:\nDrs. Maridjo\, ST\, MM \nPublic Training berikutnya : 5 – 7 Oktober\, 2026 | 1 – 3 Desember\, 2026
URL:https://smart-training-center.com/event/analisa-dan-evaluasi-perencanaan-strategi-pemeliharaan-pembangkit-3/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Maintenance,Power Generation
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/10/Analisa-Evaluasi-Strategi-Pemeliharaan-Pembangkit.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260622T080000
DTEND;TZID=Asia/Krasnoyarsk:20260622T170000
DTSTAMP:20260519T140118
CREATED:20260331T005759Z
LAST-MODIFIED:20260331T005759Z
UID:2669-1782115200-1782147600@smart-training-center.com
SUMMARY:RAMS (Reliability\, Availability\, Maintainability & Safety)
DESCRIPTION:Background:\nDalam industri modern—khususnya manufaktur\, energi\, transportasi\, dan infrastruktur—kinerja sistem dan aset tidak hanya diukur dari kemampuan beroperasi\, tetapi juga dari keandalan (Reliability)\, ketersediaan (Availability)\, kemudahan pemeliharaan (Maintainability)\, serta keselamatan (Safety). Konsep RAMS menjadi pendekatan terintegrasi untuk memastikan sistem mampu beroperasi secara optimal\, aman\, dan berkelanjutan sepanjang siklus hidupnya (life cycle). \n\nPenerapan RAMS yang baik membantu organisasi dalam:\nMengurangi downtime dan kegagalan sistem\nMenekan biaya siklus hidup aset\nMeningkatkan keselamatan kerja dan kepatuhan regulasi\nMendukung pengambilan keputusan berbasis risiko dan data teknis\n\nObjectives:\nSetelah mengikuti training ini\, peserta diharapkan mampu: \n\nMemahami konsep dan prinsip dasar RAMS secara terintegrasi.\nMenganalisis keandalan dan ketersediaan sistem menggunakan pendekatan kuantitatif dan kualitatif.\nMengidentifikasi faktor-faktor maintainability dan dampaknya terhadap performa aset.\nMengintegrasikan aspek keselamatan (safety) dalam desain\, operasi\, dan pemeliharaan sistem.\nMenerapkan konsep RAMS dalam studi kasus industri nyata untuk peningkatan kinerja dan keselamatan aset.\n\n\n\nRecommended Participants:\nTraining ini direkomendasikan untuk: \n\nEngineer (Maintenance\, Reliability\, Safety\, Production\, Asset)\nSupervisor dan Manager Maintenance / Engineering\nReliability Engineer & Asset Management Professional\nHSE Officer dan Safety Engineer\nProject Engineer & Design Engineer\nProfesional industri yang terlibat dalam pengelolaan aset dan sistem teknis\n\n\n\nCourse Outline\nFundamental RAMS & Reliability Analysis\n\nPengenalan RAMS dan perannya dalam manajemen aset\nKonsep sistem\, fungsi\, dan siklus hidup aset\nReliability Engineering Fundamentals\n\nDefinisi reliability dan failure\nFailure mode dan failure mechanism\nMTBF\, MTTR\, failure rate\n\n\nMetode analisis reliability\n\nReliability Block Diagram (RBD)\nDasar Fault Tree Analysis (FTA)\n\n\nDiskusi dan studi kasus sederhana\n\nAvailability & Maintainability\n\nKonsep Availability\n\nInherent\, Achieved\, dan Operational Availability\nHubungan reliability\, maintainability\, dan availability\n\n\nPerhitungan dan analisis availability sistem\nMaintainability Engineering\n\nPrinsip desain untuk kemudahan pemeliharaan\nPreventive vs Corrective Maintenance\nPengaruh maintainability terhadap downtime dan biaya\n\n\nIntegrasi RAM (Reliability\, Availability\, Maintainability)\nWorkshop perhitungan dan analisis studi kasus\n\nSafety & Implementasi in RAMS\n\nKonsep Safety Engineering dalam RAMS\n\nHazard identification dan risk assessment\nHAZID\, HAZOP (pengantar)\n\n\nRisk matrix dan ALARP principle\nIntegrasi Safety dengan Reliability dan Availability\nRAMS dalam desain\, operasi\, dan pemeliharaan sistem\nPenerapan RAMS dalam industri (best practice & lessons learned)\nStudi kasus terintegrasi dan diskusi kelompok\nEvaluasi\, rangkuman\, dan penutupan training\n\nAbout The Course Leader\nIr. Deddy Nugraha\, CMRP & Team \nPublic Training Berikutnya: 19 – 21 Oktober 2026\, Bandung
URL:https://smart-training-center.com/event/rams-reliability-availability-maintainability-safety/
CATEGORIES:Engineering,Maintenance
ATTACH;FMTTYPE=image/webp:https://smart-training-center.com/wp-content/uploads/2026/03/RAMS-Reliability-Availability-Maintainability-Safety-340x340-1.webp
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260623T083000
DTEND;TZID=Asia/Krasnoyarsk:20260626T160000
DTSTAMP:20260519T140118
CREATED:20241122T165138Z
LAST-MODIFIED:20260331T003333Z
UID:1061-1782203400-1782489600@smart-training-center.com
SUMMARY:Operasi dan Perawatan PLTU
DESCRIPTION:Background\nManajemen operasi dan pembangkitan merupakan upaya memahami serta mengelola proses operasi sistem pembangkit tenaga listrik dan sistem penyaluran secara rasional\, ekonomis\, dan berkelanjutan\, dengan tetap memperhatikan mutu\, efisiensi\, dan keandalan operasi. Pada Pembangkit Listrik Tenaga Uap (PLTU)\, keberhasilan operasi sangat dipengaruhi oleh efektivitas perawatan. Perawatan pembangkitan yang terencana dan dilaksanakan secara efektif akan meningkatkan kinerja unit\, memperpanjang umur aset\, menekan biaya operasi\, serta menjadikan perusahaan unggul dan kompetitif di bidang pembangkitan. \nTraining ini dirancang untuk mempersiapkan dan meningkatkan kompetensi Sumber Daya Manusia dalam pengelolaan operasi sistem pembangkit\, sekaligus memperluas pemahaman terhadap aspek-aspek engineering pada sistem pembangkitan tenaga listrik.Melalui program ini\, diharapkan pengelolaan PLTU dapat dilakukan secara handal\, efisien\, aman\, dan ramah lingkungan\, sehingga mampu menjamin kontinuitas pasokan energi listrik. \nObjectives\nSetelah mengikuti pelatihan Operasi dan Perawatan PLTU\, peserta diharapkan mampu: \n\n\nMerencanakan dan mengoperasikan unit pembangkit secara optimal. \n\n\nMerencanakan dan mengevaluasi keandalan operasi serta faktor-faktor operasi lainnya. \n\n\nMemberikan rekomendasi perbaikan untuk mengoptimalkan Equivalent Availability Factor (EAF). \n\n\nMelaksanakan first line maintenance secara benar dan aman. \n\n\nMelakukan optimasi serta evaluasi kinerja operasi pembangkit. \n\n\nMerencanakan dan mengelola bahan bakar serta mengevaluasi ketersediaannya sesuai kebutuhan operasi. \n\n\nMerencanakan dan mengevaluasi transaksi jual beli tenaga listrik berdasarkan parameter dalam Perjanjian Jual Beli Tenaga Listrik (PJBL/PPA). \n\n\n\n\nRecommended Participants\nTraining ini direkomendasikan untuk: \n\n\nSupervisor Operasi dan Pemeliharaan \n\n\nTechnician Pembangkit \n\n\nEngineer (Operation\, Maintenance\, Engineering) \n\n\nOperator Pembangkit Listrik \n\n\nyang bekerja di bidang ketenagalistrikan dan industri pembangkitan\, khususnya yang menangani masalah operasi\, engineering\, instalasi\, dan pemeliharaan PLTU. \n\n\nCourse Outline\nA. Dasar-Dasar Manajemen Operasi\n\n\nKonsep dasar manajemen operasi pembangkit \n\n\nPeran operasi dalam keandalan dan efisiensi PLTU \n\n\nB. Ruang Lingkup Program Operasi Sistem Pembangkit\n\n\nSistem utama dan pendukung PLTU \n\n\nKeterkaitan operasi\, pemeliharaan\, dan keselamatan \n\n\nC. Perencanaan Pemeliharaan\n\n\nAspek-aspek pemeliharaan terpadu \n\n\nPemeliharaan periodik dan berbasis kondisi \n\n\nStrategi perawatan untuk peningkatan keandalan \n\n\nD. Prosedur Pemeliharaan Pembangkit\n\n\nFirst line maintenance \n\n\nKoordinasi operasi dan pemeliharaan \n\n\nDokumentasi dan pelaporan teknis \n\n\nE. Perencanaan Operasi\n\n\nPerencanaan beban dan kesiapan unit \n\n\nPengelolaan bahan bakar dan operasi ekonomis \n\n\nF. Manajemen Efisiensi PLTU\n\n\nFaktor-faktor yang mempengaruhi efisiensi \n\n\nUpaya peningkatan efisiensi operasi \n\n\nG. Indeks Kinerja Pembangkit\n\n\nDefinisi indeks kinerja pembangkit \n\n\nDurasi outage dan derating \n\n\nFormula dan perhitungan indeks kinerja (EAF\, EFOR\, dll.) \n\n\nH. Studi Kasus dan Diskusi\n\n\nStudi kasus operasi dan perawatan PLTU \n\n\nDiskusi permasalahan nyata di lapangan \n\n\n\n\nAbout The Course Leader\nCecep Slamet Abadi\, ST.\, MT is an associate instructor at FJM with a background in Mechanical Engineering for both undergraduate and graduate studies. He has been an active lecturer since 1996 and has experience in industry and consulting\, including roles at LAPI ITB\, Puslitbang Air\, PINDAD\, and conducting energy audits at Pertamina EP Pangkalan Susu\, Tambung\, and Rengasdengklok. He is also part of the competency testing team for IATKI (Indonesian Electrical Engineering Association). \nIn terms of industrial training\, Mr. Cecep has conducted over 150 in-house and public training sessions for organizations such as Indonesia Power\, PLTA Saguling\, Freeport-Papua\, Chevron Oil/Gas\, Chevron Geothermal\, Premier Oil\, Pupuk Sriwijaya\, Pupuk Kujang\, Badak LNG\, and many others. \nPublic Training Berikutnya: 11 – 13 November 2026\, Bandung \n\n\nOperasi dan Perawatan Pembangkit Listrik Tenaga Uap (PLTU) | operasi perawatan pembangkit listrik tenaga uap PLTU | operasi-perawatan-pembangkit-listrik-tenaga-uap-pltu Kuasai pengoperasian dan perawatan PLTU untuk mendukung kinerja pembangkit listrik. | Master operation and maintenance techniques of coal-fired power plants (PLTU) to support optimal performance. | Rahmat Subarkah* S.T.* M.T | Power Generation
URL:https://smart-training-center.com/event/operasi-perawatan-pembangkit-listrik-tenaga-uap-pltu/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Maintenance,Power Generation
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/operasi-dan-perawatan-pltu-300x200-1.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260623T083000
DTEND;TZID=Asia/Krasnoyarsk:20260626T160000
DTSTAMP:20260519T140118
CREATED:20241122T170007Z
LAST-MODIFIED:20260406T101151Z
UID:1069-1782203400-1782489600@smart-training-center.com
SUMMARY:Pengujian & Kalibrasi Proteksi Peralatan Electrical Pembangkit
DESCRIPTION:BACKGROUND:\nPengujian & Kalibrasi Proteksi Peralatan Elektrikal Pembangkit\nKeandalan sistem tenaga listrik sangat bergantung pada efektivitas sistem proteksi yang diterapkan. Dalam merancang sistem tenaga listrik\, analisa gangguan dan kondisi abnormal yang mungkin terjadi harus menjadi perhatian utama. Beberapa peralatan utama yang diproteksi meliputi Generator\, Main Transformer\, Station Service Transformer\, dan House Transformer. Kondisi abnormal seperti hubungan singkat\, tegangan lebih\, beban lebih\, dan frekuensi rendah dapat mengganggu operasi dan mengancam keamanan sistem. \nPengujian dan kalibrasi peralatan proteksi pembangkit berperan krusial untuk memastikan bahwa sistem perlindungan ini berfungsi dengan optimal. Pelatihan ini bertujuan untuk membekali peserta dengan keterampilan dan pengetahuan mengenai metode pengujian dan kalibrasi peralatan elektrikal pada pembangkit listrik. Peserta akan mempelajari prosedur yang diperlukan untuk menjaga keandalan dan keamanan sistem tenaga\, dengan fokus pada identifikasi dan penanganan kondisi abnormal. \nTRAINING OBJECTIVES:\n\nUnderstand the principles and importance of protection systems in power generation electrical equipment.\nIdentify key components and functions of electrical protection systems in power plants.\nPerform accurate testing and calibration of electrical protection devices to ensure system reliability.\nInterpret test results and diagnose potential faults or inefficiencies in protection systems.\nApply best practices in maintaining and calibrating protection relays and associated equipment.\nEnsure compliance with industry standards and regulations for electrical protection systems.\nDevelop troubleshooting skills for resolving issues related to protection system malfunctions.\n\nCOURSE OUTLINE:\n1. Pengantar Electrical Power Generation System \n2. Coordination of Protection System: \n\nPrimary and back-up protection\nNeed for coordination of setting\nRelay/fuse coordination\nRelay/recloser coordination\nFuse/ recloser coordination\n\n3. Pengukuran dan Kalibrasi: \n\nInstrumen ukur yang perlu dikalibrasi\nKetidakpastian pengukuran\n\n4. Cara dan waktu pengukuran alat proteksi \n 5. Langkah-langkah pengujian dan kalibrasi: \n\nRelay proteksi diferensial\nRelay proteksi field failure\nRelay proteksi over voltage\nRelay proteksi under voltage\nRelay proteksi impedance\nRelay proteksi overcurrent excitation\nRelay proteksi earth fault voltage\nRelay proteksi rotor earth fault high resistance\nRelay proteksi rotor earth fault low resistance\nRelay proteksi frequency\n\n6. Studi kasus dan diskusi \nWHO SHOULD ATTEND:\n\nSupervisor/ Teknisi Instrumen dan Kontrol\nStaff\, Engineer Instrumen dan Kontrol\n\nTRAINER:\nIr. Ali Mashar\, M.Eng.Sc\,. IPU \nPengujian & Kalibrasi Proteksi Peralatan Elektrikal Pembangkit \n| Training Berikutnya: 26 – 28 Oktober 2026\, Bandung \nPengujian and Kalibrasi Proteksi Peralatan Electrical Pembangkit | pengujian kalibrasi proteksi peralatan electrical pembangkit | pengujian-kalibrasi-proteksi-peralatan-electrical-pembangkit Kuasai teknik pengujian dan kalibrasi proteksi peralatan listrik pada pembangkit. | Master testing and calibration techniques for electrical protection equipment in power plants. | Supriyanto* S.T.* M.T | Power Generation
URL:https://smart-training-center.com/event/pengujian-kalibrasi-proteksi-peralatan-electrical-pembangkit/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Engineering,Maintenance,Power Generation
ATTACH;FMTTYPE=image/webp:https://smart-training-center.com/wp-content/uploads/2024/11/Pengujian-Kalibrasi-Proteksi-Peralatan-Elektrikal-Pembangkit.webp
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260624T083000
DTEND;TZID=Asia/Krasnoyarsk:20260626T160000
DTSTAMP:20260519T140118
CREATED:20241122T041539Z
LAST-MODIFIED:20260405T032503Z
UID:818-1782289800-1782489600@smart-training-center.com
SUMMARY:Distributed Control System Operation and Maintenance
DESCRIPTION:BACKGROUND & ABOUT THE COURSE:\nDCS (Distributed Control System) adalah suatu pengembangan sistem kontrol dengan menggunakan komputer dan alat elektronik lainnya agar didapat suatu pengontrol suatu loop system lebih terpadu dan dapat dilakukan operator yang terlatih\, dengan cepat dan mudah. DCS dapat digunakan untuk mengontrol proses/peralatan suatu plant dalam skala menengah sampai besar. \nUntuk mempermudah penggunaan\, DCS sudah menyertakan tampilan grafik (gambar analogi peralatan) dan software untuk konfigurasi control. DCS dapat dipakai untuk lebih dari 1 workstation dan dapat dikonfigurasi di workstation atau PC. Komunikasi dapat melalui jaringan kabel atau optic. \nMengingat kompleksitasnya\, maka diperlukan penguasaan yang baik untuk dapat menjalankannya. Training ini dirancang untuk memberikan pengetahuan yang cukup dari deberikan oleh seorang Doktor dan praktisi yang berkompeten. \nTRAINING OBJECTIVES:\nAt the end of this course\, participants will be able to: \n\nA solid understanding of the architecture and operation of Distributed Control Systems (DCS)\nAbility to design the overall DCS and process control system\nBetter specification of planned DCS\nAble to perform simple trouble shoot on the DCS they are working on\n\nWHO SHOULD ATTEND:\n\nProcess Control Engineers & Technicians\nAutomation Engineers\nOperators & Control Room Personnel’s\nElectrical & Instrumentation Technicians\n\nCOURSE CONTENT:\n\nDCS Introduction\nSummary of typical distributed control systems DCS versus SCADA versus PLC\nDCS System Elements\nData Communications in a DCS\nThe Basic Controller\nBasic DCS Controller Configuration\nProgramming Of DCS Systems\nAlarm System Management\nDistributed Control System Reporting\nDistributed Control System Configuration\nAdvanced Control Strategies Maintenance Considerations\nDCS Maintenance\n\nABOUT THE COURSE LEADER:\nProf. Endra Joelianto\, Ir.\, Ph.D.\, SMIEEE: Control Engineering Expert \nProf. Endra Joelianto\, Ir.\, Ph.D.\, SMIEEE\, is a leading expert in control engineering with research focusing on Hybrid Control Systems\, Discrete Event Control Systems\, Petri Nets\, Robust PID Controllers\, and Industrial Automation using PLC/DCS. He earned his Engineering Physics degree from ITB in 1990 and a PhD in Control Engineering from The Australian National University in 2001. Prof. Endra coordinates Intelligent Control and Automation at ITB and founded the PLC Research Group and Schneider-OMRON PLC Training Center\, fostering collaboration with Schneider Electric\, OMRON Corporation\, and Invensys WONDERWARE. \nHe has led national retooling projects and participated in professional training on PLC\, DCS\, and calibration across Asia and Africa. As an instructor\, he provides training in instrumentation and process control to universities and major companies in the petrochemical\, oil and gas\, and manufacturing sectors\, including PERTAMINA\, British Petroleum\, and PT. Pupuk Kalimantan Timur. His contributions have significantly advanced industrial automation and education in Indonesia. \nTraining Berikutnya: 23 – 25 November 2026\, Bandung
URL:https://smart-training-center.com/event/distributed-control-system-dcs-operation-and-maintenance-2/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Electrical,Engineering,Instrument and control,Maintenance,Production Operation
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/distributed-control-system-operation-maintenance.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260701T083000
DTEND;TZID=Asia/Krasnoyarsk:20260703T160000
DTSTAMP:20260519T140118
CREATED:20241122T165030Z
LAST-MODIFIED:20260407T223702Z
UID:1047-1782894600-1783094400@smart-training-center.com
SUMMARY:Centrifugal Pump Operation and Maintenance
DESCRIPTION:About the Course:\nPelatihan ini berfokus pada prinsip Centrifugal Pump Operation and Maintenance\, hidrolik pompa sentrifugal serta interaksi antara pompa dan pipa. Materi yang dibahas mencakup tinjauan mekanika fluida\, persamaan Bernoulli yang dimodifikasi yang diterapkan pada sistem perpipaan\, persamaan energi yang diterapkan pada pompa dan sistem perpipaan\, serta kehilangan energi dalam pipa dan fitting. Diskusi kelas juga mencakup proses pemilihan pompa centrifugal\, pengukuran kinerja pompa\, hubungan kecepatan spesifik-efisiensi\, hukum afinitas\, pengaruh diameter pipa terhadap ukuran pompa yang dibutuhkan\, dan net positive suction head (NPSH). \nObjectives:\nSetelah menyelesaikan pelatihan ini\, peserta diharapkan mampu: \n\nMemahami prinsip operasi dan komponen kunci dari pompa sentrifugal.\nMengidentifikasi jenis-jenis pompa sentrifugal yang umum dan aplikasinya di berbagai industri.\nMendiagnosis masalah operasional dan mengenali tanda-tanda awal kegagalan pompa.\nMelakukan pemeliharaan preventif dan korektif untuk memastikan kinerja pompa yang optimal.\nMenerapkan praktik terbaik dalam penyelarasan pompa\, pelumasan\, dan sistem penyegelan.\nMenganalisis kebutuhan sistem untuk memilih pompa yang sesuai untuk aplikasi tertentu.\n\nRecommended Participants:\nPelatihan ini dirancang untuk individu yang memiliki pengetahuan dasar tentang pompa dan ingin memahami lebih dalam tentang cara kerja pompa sentrifugal\, serta kapan dan bagaimana menerapkan pengetahuan ini. Insinyur dan teknisi pemeliharaan yang bertanggung jawab atas operasi dan keandalan pompa: \n\nInsinyur proses yang bekerja dengan sistem yang melibatkan pompa sentrifugal.\nPengawas dan operator yang terlibat dalam pemantauan peralatan pabrik.\nKaryawan baru atau profesional dengan gelar teknik yang beralih ke peran yang memerlukan pengetahuan tentang operasi dan pemeliharaan pompa.\n\nCourse Outline:\n\nVarious Types of Pumps\n\nCentrifugal\nPositive displacement\nVarious pump drivers/prime movers\n\n\nPump Basic Construction\n\nBasic design based on ANSI & API-610\nDifferent types/construction of pumping installations\nVarious configurations of pump operations\n\n\nUnderstand the Internal Parts of Pump\n\nFamiliarization with common pump parts\nCross-sectional view in 3D of various types of pumps\nFunction of each pump part\n\n\nPump Design & Operations\n\nDifferent pump applications\nSafety precautions\nPreparation for startup/stop\nCalculating capacity\, head\, efficiency (basic formula)\nPump curve\nProtection and auxiliary systems\nWorking with different types of fluids (water\, oil\, condensate\, glycol\, etc.)\nTypical operational problems of various pump types\n\n\nUnderstand First Level Maintenance of Pump\n\nDescription/explanation of pump maintenance levels: do’s and don’ts\nFirst maintenance level for various types of pumps\n\n\nTroubleshooting\nCase Study on Maintenance\, Failure\, and Troubleshooting\n\nDiscuss various case studies of operational & maintenance problems (trainees are encouraged to share their experiences).\n\n\n\nAbout the Course Leaders:\nCecep Slamet Abadi\, ST.\, MT adalah associate instructor di FJM dengan latar belakang pendidikan Teknik Mesin untuk jenjang S1 & S2. Selain aktif sebagai dosen sejak tahun 1996\, beliau juga memiliki pengalaman di bidang industri dan konsultan\, termasuk di LAPI ITB\, Puslitbang Air\, PINDAD\, Audit Energi di Pertamina EP Pangkalan Susu\, Tambung & Rengasdengklok\, serta sebagai tim uji kompetensi di IATKI (Ikatan Akhli Ketenagalistrikan Indonesia). Untuk pelatihan industri\, Pak Cecep telah mengajar lebih dari 150 in-house maupun public training di berbagai perusahaan\, termasuk Indonesia Power\, PLTA Saguling\, Freeport-Papua\, Chevron Oil/Gas\, Chevron Geothermal\, Premier Oil\, Pupuk Sriwijaya\, Pupuk Kujang\, Badak LNG\, dan lainnya. \n| Training Berukutnya: 02 – 04 November 2026\, Bandung
URL:https://smart-training-center.com/event/centrifugal-pump-design-operation-and-maintenance/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Maintenance,Mechanical,Production Operation
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/Centrifugal-Pump.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260701T083000
DTEND;TZID=Asia/Krasnoyarsk:20260703T160000
DTSTAMP:20260519T140118
CREATED:20241122T165048Z
LAST-MODIFIED:20260406T225516Z
UID:1059-1782894600-1783094400@smart-training-center.com
SUMMARY:Boiler & System Operation
DESCRIPTION:Background & About the Course:\nA boiler is a closed container that heats a fluid\, usually water\, to create steam or hot water. The heated fluid is then used for a variety of applications\, such as heating\, cooking\, and power generation. Boiler & System Operation has very specific operation system so that it functions how it is supposed to be. \nThis comprehensive course is meticulously crafted to impart essential knowledge on the maintenance and safe operation of boiler and steam systems. Participants will delve into the intricacies of pressurized vessels\, master boiler operation safety skills\, and explore effective troubleshooting techniques. Additionally\, the course covers preventative maintenance guidelines\, equipping participants with the expertise to diagnose and repair equipment malfunctions efficiently. By engaging with actual equipment\, participants will gain practical experience\, enhancing their ability to apply these skills in real-world scenarios. \nCourse Objectives:\nParticipants will achieve the following objectives: \n\nMaster the installation\, operation\, maintenance\, and management of boiler plants.\nUnderstand the steam and combustion processes.\nImplement safe boiler operation techniques.\nLearn about pollutants and technologies to reduce emission levels.\nAchieve peak boiler plant efficiencies.\nIdentify and troubleshoot boiler problems quickly and efficiently.\n\nWho Should Attend:\nThis course is ideal for: \n\nSenior Boiler Plant Operators\, Repairers & Installers\nBoiler Plant Engineers\nOperation\, Maintenance\, Inspection & Repair Managers\, Supervisors & Engineers\nMechanical Engineers & Technicians\nDesign Engineers\, Insurance Company Inspectors\n\nCourse Content:\n\nIntroduction\nFuel Combustion and Steam Generation Process\nBoiler Auxiliary Plant\nOperations and Controls\nPressure Containing Components\nPlanning and Managing Boiler Maintenance\nManaging Boiler Repairs\, Troubleshooting & Modifications\nCold Storage of a Boiler\nEmission Controls and Environmental Constraints\n\nAbout the Trainer:\nMaridjo\, Drs\, ST.\, MT.\, is a distinguished alumnus of the Mechanical Engineering Department at Institut Teknologi Bandung (ITB). Currently a lecturer at Polytechnic ITB (POLBAN)\, Maridjo has extensive experience teaching a wide array of topics related to his expertise. His areas of instruction include predictive and preventive maintenance\, lubrication systems\, diesel engines\, pumps\, gas turbines\, piping systems\, compressors\, boilers\, and more. Maridjo has collaborated with numerous companies across Indonesia\, such as Chevron\, Semen Gresik\, Semen Baturaja\, Pertamina\, and many others\, providing training to employees from various sectors including oil and gas\, cement\, and power generation. \n| Training Berikutnya: Bandung\, 2 – 4 November\, 2026
URL:https://smart-training-center.com/event/boiler-system-operation/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Maintenance,Power Generation,Production Operation
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/09/Boiler-Control-Burner-Management-System.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260706T083000
DTEND;TZID=Asia/Krasnoyarsk:20260708T160000
DTSTAMP:20260519T140118
CREATED:20241122T100848Z
LAST-MODIFIED:20260415T042915Z
UID:891-1783326600-1783526400@smart-training-center.com
SUMMARY:Instrumentation\, Electrical and Control System
DESCRIPTION:About the Course:\nThis course provides a comprehensive overview of Instrumentation\, Electrical\, and Control Systems\, covering core concepts essential for modern industrial environments. Participants will explore the principles behind industrial instrumentation\, electrical components\, and the integration of control systems that drive automation and process optimization. The program delves into key areas such as sensors\, signal transmission\, actuators\, and the operation of PID controllers within PLC and DCS frameworks. \nThe objective of this course is to equip participants with a strong understanding of the electronics behind instruments\, interface devices\, and control systems. Emphasis is placed on developing practical skills for configuring\, maintaining\, and tuning industrial control systems. By addressing both basic and advanced configurations of PID controllers\, the course aims to enhance the participants’ ability to ensure stability and reliability in industrial processes. \nCourse Objectives:\nUpon completion\, participants will be proficient in understanding and applying the principles of instrumentation\, electrical systems\, and process control. They will gain hands-on experience with essential tools and techniques for system analysis\, troubleshooting\, and performance enhancement\, contributing to more efficient and effective industrial operations. \nWho Should Attend:\n\nControl system operators responsible for maintaining and optimizing industrial processes.\nElectrical and instrumentation technicians involved in system installation and maintenance.\nEngineers engaged in the design\, implementation\, and improvement of control systems.\nProject managers overseeing automation and instrumentation projects.\n\nCourse Content:\n\nIntroduction to Instrumentation\, Electrical\, and Control Systems\nStatic and Dynamic Characteristics of Instruments and Electrical Devices\nCore Components of Instrumentation and Electrical Systems\nSensor Types\, Functions\, and Industrial Applications\nActuators and Their Role in Control Systems\nSignal Transmission\, Interfacing\, and Digital Communication\nInstrumentation and Electrical System Electronics\nFeedback Concepts and Loop Control\nAnalysis and Optimization of Feedback Systems\nPID Controllers: Configuration\, Tuning\, and Implementation\nElectrical Control System Design and Troubleshooting\nPractical Techniques for PID Tuning and Performance Enhancement\nLaboratory Exercises and Real-World Demonstrations\n\nAbout the Trainer:\nProf. Endra Joelianto\, Ir.\, Ph.D.\, SMIEEE \nHolds an Engineering Physics degree from ITB (1990) and a Ph.D. in Control Engineering from The Australian National University (2001). Expert in control engineering\, specializing in Hybrid Control Systems\, Discrete Event Control Systems\, Petri Nets\, Robust PID Controllers\, Advanced Process Control\, and Industrial Automation using PLC/DCS. \nProf. Endra is the coordinator of Intelligent Control and Automation and founder of the PLC Research Group at the Instrumentation and Control Laboratory (LINK)\, ITB. Established the Schneider-OMRON PLC Training Center at Maranatha Christian University\, collaborating with Schneider Electric Indonesia\, OMRON Japan\, and Invensys WONDERWARE. \nProf. Endra has led several industrial automation and control training programs\, including TPSDP Retooling Projects\, and attended professional training in PLC\, DCS\, and instrumentation calibration in Indonesia\, Singapore\, and South Africa. He regularly instructs public\, university\, and in-house training for leading companies and institutions in the petrochemical\, oil\, gas\, and manufacturing sectors. \nPublic Training berikutnya : 21 – 23 September\, 2026 | 3 – 5 Desember\, 2026
URL:https://smart-training-center.com/event/electrical-instrument-and-control-system/
CATEGORIES:Electrical,Engineering,Instrument and control,Maintenance
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/instrumentation-electrical-and-control-system.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260706T083000
DTEND;TZID=Asia/Krasnoyarsk:20260708T160000
DTSTAMP:20260519T140118
CREATED:20241122T101950Z
LAST-MODIFIED:20260415T065905Z
UID:905-1783326600-1783526400@smart-training-center.com
SUMMARY:Gas and Diesel Engines
DESCRIPTION:Background & About the Course:\nPrime movers are essential for powering pumps\, generating electricity\, operating heavy machinery\, and providing backup power during outages. Among the various types of prime movers\, diesel engines are widely used in industrial applications\, while gas engines are common in gas plant facilities due to their efficiency and reliability. \nUnderstanding the operation and maintenance of gas and diesel engines is crucial to ensuring performance\, longevity\, and minimizing downtime. This course delivers practical knowledge on the principles\, performance evaluation\, routine maintenance\, and troubleshooting of these engines. \nCourse Objectives:\n\nUnderstand the principles of gas and diesel engine operation\nApply reliability-based maintenance strategies for both engine types\nEvaluate engine performance effectively\nPerform routine maintenance tasks\nTroubleshoot engine issues efficiently\nDefine engine specifications based on operational requirements\n\nWho Should Attend:\n\nMaintenance Engineers\, Superintendents\, and Supervisors\nRotating Equipment Engineers\, Superintendents\, and Supervisors\nPower Plant Engineers\, Superintendents\, and Supervisors\nIndividuals interested in expanding knowledge of engine operation and maintenance\n\nCourse Content:\n\nEngine Fundamentals\n\nOverview of engine components and their functions\nBasic operating principles of internal combustion engines\n\n\nPrinciples of Internal Combustion Engines\n\nFour-stroke and two-stroke cycles\nThermodynamic principles and energy conversion\n\n\nGas vs. Diesel Engine Comparison\n\nKey differences in design and performance\nAdvantages and limitations of each engine type\n\n\nCombustion Processes and Requirements\n\nChemical process of fuel combustion\nAir-fuel ratio and ignition systems\n\n\nFuel Systems for Gas Engines\n\nTypes of fuel delivery systems\nFuel storage and transfer processes\n\n\nLubrication Systems\n\nImportance of engine lubrication\nTypes of lubricants and lubrication methods\n\n\nEngine Control Module (ECM) Basics and Philosophy\n\nRole of ECM in engine operation\nMonitoring and controlling engine performance\n\n\nEngine Setup and Performance Testing\n\nProcedures for engine installation and alignment\nMethods for assessing engine performance and efficiency\n\n\nMaintenance\, Operation\, and Troubleshooting\n\nRoutine maintenance practices\nCommon engine problems and diagnostic techniques\nTools and strategies for effective troubleshooting\n\n\n\nABOUT THE COURSE LEADERS:\nMaridjo\, Drs\, S.T.\, M.T \nMaridjo\, Drs\, ST\, MT.\, adalah alumni Teknik Mesin Institut Teknologi Bandung (ITB). Dia telah menjadi dosen di PEDC dan sekarang sebagai dosen di teknik mesin Polytechnique ITB (POLBAN). Telah mengajarkan banyak topik terkait keahliannya ke banyak perusahaan di Indonesia\, seperti pemeliharaan prediktif dan preventif\, energi audit \, sistem pelumasan\, mesin diesel\, pompa\, turbin gas\, perpipaan dan perpipaan\, kompresor\, boiler\, dan banyak lainnya. Banyak peserta dari perusahaan telah dilatih dan berkolaborasi dengannya seperti Chevron\, Semen Gresik\, semen Baturaja\, Pertamina\, Pusri\, GGPC\, karyawan Qatar dan perusahaan minyak dan gas Libya\, UP IV Balongan pertamina\, PT. Indocement\, beberapa PLTA\, beberapa hotel\, PT.Pupuk Kujang\, PT.Bio Farma\, BPPT\, PT. Bintang Agung\, beberapa perusahaan minyak dan gas lain di Indonesia dan lain-lain. Beliau juga telah melakukan banyak Energi Audit di berbagai perusahaan bersama teamnya. \nPublic Training berikutnya : 26 – 28 Oktober\, 2026 | 7 – 9 Desember\, 2026
URL:https://smart-training-center.com/event/gas-diesel-engines/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Maintenance,Mechanical,Production Operation
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/gas-diesel-engine-operation-maintenance.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260706T083000
DTEND;TZID=Asia/Krasnoyarsk:20260708T160000
DTSTAMP:20260519T140118
CREATED:20241122T161836Z
LAST-MODIFIED:20260409T004534Z
UID:1009-1783326600-1783526400@smart-training-center.com
SUMMARY:Risk Based Inspection (RBI)
DESCRIPTION:Background & About the Course:\nRisk-Based Inspection (RBI) is a systematic approach used to determine the inspection and maintenance strategy based on the risk assessment of equipment and assets. This method ensures that resources are allocated effectively by prioritizing inspections for critical components that have the highest risk of failure\, thus improving safety\, reliability\, and cost-effectiveness. RBI helps to predict potential issues before they lead to system failures\, reducing downtime and enhancing operational efficiency. \nThis course will provide participants with a comprehensive understanding of RBI concepts\, methodologies\, and practical applications. Attendees will learn how to implement RBI strategies\, perform risk assessments\, and develop inspection plans tailored to specific assets. By integrating risk management into the inspection process\, organizations can make informed decisions that optimize asset performance while minimizing risks. \nCourse Objectives:\nBy attending this workshop\, you will be able to: \n\nUnderstand the principles and objectives of Risk-Based Inspection\nLearn how to conduct risk assessments for various types of assets\nDevelop and implement effective RBI strategies\nPrioritize inspection activities based on risk analysis\nApply RBI techniques to improve asset reliability and operational safety\nManage and document inspection results and follow-up actions\n\nWho Should Attend:\nThis course is ideal for: \n\nAsset Integrity Managers and Engineers\nMaintenance Managers and Supervisors\nInspection Engineers and Technicians\nRisk Management and Safety Officers\nProfessionals involved in equipment maintenance and reliability\nProject Managers and Engineers working in plant operations\n\nCourse Content:\n\nIntroduction to Risk-Based Inspection (RBI)\n\n\nDefinition and importance of RBI\nPrinciples and benefits of implementing RBI\nKey components of an effective RBI program\n\n\nRisk Assessment Methodology\n\n\nUnderstanding risk: likelihood vs. consequence\nRisk matrices and scoring systems\nPerforming risk analysis for different types of assets\n\n\nRBI Strategy Development\n\n\nDeveloping RBI strategies for critical assets\nPrioritizing inspections based on risk analysis\nEstablishing inspection intervals and resource allocation\n\n\nInspection Planning and Execution\n\n\nDesigning effective inspection plans\nIntegrating RBI with existing maintenance programs\nExecuting inspections based on RBI recommendations\n\n\nRBI Implementation and Documentation\n\n\nImplementing RBI strategies across different asset types\nDocumentation and record-keeping for inspections\nAnalyzing and reporting inspection findings\nManaging follow-up actions and ensuring compliance\n\n\nCase Studies and Practical Applications\n\n\nReal-world examples of RBI in various industries\nAnalyzing case studies and discussing challenges\nGroup exercises on developing RBI strategies\n\n\n\nABOUT THE COURSE LEADER:\nIr. Deddy Nugraha and Team  \nIr. Deddy Nugraha\, menyelesaikan pendidikan sarjana dari Teknik Mesin – Institut Teknologi Bandung\, yang kemudian mendalami bidang Power Plant (Gas Turbine\, Steam Turbine\, Pump & Compressor) khususnya di bidang Reliability\, Quality\, dan Maintenance Management. Berpengalaman sebagai Senior Propulsion Engineer di Universal Maintenance Center PT. IPTN (1991 – 2002) dan sekarang sebagai Reliability Engineer dan Professional Training Instructor. Pengalaman sebagai instruktur training adalah di PT. Tjiwi Kimia\, PT. Suparma\, PT. Indah Kiat Pulp & Paper\, PT. Indonesia Power\, British Petroleum\, PT. Pertamina\, PT. Krakatau Steel\, PT. Amoco Mitsui\, PT. Semen Gresik\, Indocement Tunggal Prakarsa\, PT. Puncak Jaya Power\, Medco Energy dsb \n| Training Berikutnya: 26 – 28 Oktober 2026\, Bandung
URL:https://smart-training-center.com/event/risk-based-inspection-rbi/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Maintenance,Production Operation,Q-HSE
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/Risk-Based-Inspection-RBI.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260708T080000
DTEND;TZID=Asia/Krasnoyarsk:20260710T170000
DTSTAMP:20260519T140118
CREATED:20260414T083641Z
LAST-MODIFIED:20260415T073600Z
UID:2778-1783497600-1783702800@smart-training-center.com
SUMMARY:Process Safety & Asset Intergrity Management System
DESCRIPTION:Background: \nProcess Safety & Asset Intergrity Management System\, biasanya merupakan dua hal yang terpisah. Padahal keselamatan proses (Process Safety) dan integritas aset (Asset Integrity) merupakan fondasi utama dalam industri migas yang berisiko tinggi. Kegagalan pengelolaan kedua aspek ini bisa menimbulkan kerugian besar\, baik dari sisi manusia\, lingkungan\, maupun bisnis. \nProcess Safety & Asset Integrity Management System (PSAIMS) adalah kerangka kerja komprehensif yang menyatukan keduanya untuk memastikan operasi yang andal\, aman\, dan berkelanjutan dengan menghadirkan 2 narasumber dengan kompetensi yang saling melengkapi. Jadi\, PSAIMS adalah sistem manajemen yang menyatukan keselamatan proses dan integritas aset secara menyeluruh untuk meningkatkan keamanan dan keandalan operasi aset industri. \nObjectives:\n– Memberikan pemahaman menyeluruh tentang elemen-elemen kunci PSAIMS.\n– Membekali peserta dengan keterampilan identifikasi bahaya\, manajemen risiko\, dan kontrol kritis.\n– Mengasah kompetensi inspeksi\, pemeliharaan\, audit\, dan tanggap darurat.\n– Mendorong budaya keselamatan berkelanjutan di seluruh level organisasi. \n\n\nRecommended Participants:\n– Manajer/supervisor bidang operasi\, maintenance\, engineering.\n– Personel K3\, HSSE\, reliability\, asset integrity\, dan QA.\n– Kontraktor dan tenaga pendukung yang terlibat dalam manajemen aset dan keselamatan proses.\n– Profesional migas yang mengelola risiko dan keselamatan operasional. \n\n\nCourse Outline:\nProcess Safety Management (PSM) – Pondasi Keselamatan Proses & Pencegahan Major Incident:\n1. Pengenalan PSAIMS dan integrasi PSM–AIMS:\n– Evolusi regulasi & standar (OSHA PSM\, API\, OGP)\n– Hubungan PSM dengan AIMS\n2. Identifikasi bahaya & analisis risiko:\n– Metode HAZID\, HAZOP\, LOPA\n– Contoh penerapan di fasilitas migas\n3. Prosedur operasi & safe working practices:\n– Permit to Work\, isolasi energi\, job safety analysis\n4. Rencana tanggap darurat & manajemen krisis:\n– Incident Command System (ICS)\n– Koordinasi internal & eksternal\n– Safety Leadership dalam Process Safety \nAsset Integrity Management (AIMS) – Bagian I\, Kerangka Kerja AIMS & Pengendalian Technical Integrity:\n1. Prinsip & framework AIMS:\n– Konsep SECE (Safety & Environmental Critical Elements)\n– Lifecycle management asset\n2. Inspeksi\, pemeliharaan & condition monitoring:\n– RBI (Risk-Based Inspection)\n– NDT & predictive maintenance\n3. Pengelolaan aset aging & decommissioning:\n– Tantangan peralatan tua\n– Infrastruktur pendukung (pipeline\, storage\, utilities)\n4. Kesiapan operasi & Pre-Startup Safety Review (PSSR)\n5. Transformasi digital dalam AIMS:\n– IoT\, digital twin\, dashboard integritas asset \nAsset Integrity Management (AIMS) – Bagian II & Continuous Improvement\, Respon darurat\, evaluasi kinerja & budaya keselamatan:\n1. Monitoring kinerja & penilaian risiko berkelanjutan:\n– KPI PSAIMS\n– Leading vs lagging indicators\n2. Audit & review PSAIMS:\n– Internal/ external audit\n– Gap analysis & benchmarking\n3. Investigasi insiden & analisis akar masalah:\n– Metode RCA\, 5 Why\, Bow-Tie\n– Case study interaktif\n4. Management of Change (MoC):\n– Prinsip\, prosedur\, dan kendala lapangan \n\n\nAbout The Course Leaders: (practitioners)\n1. Ir. In Jumanda Kasdadi\, M.T.\n2. Ir. Deddy Nugraha\, CMRP\, CLA \nPublic Training berikutnya : 25 – 27 November\, 2026
URL:https://smart-training-center.com/event/process-safety-asset-intergrity-management-system/
CATEGORIES:Engineering,Maintenance,Manajemen,Q-HSE
ATTACH;FMTTYPE=image/webp:https://smart-training-center.com/wp-content/uploads/2026/04/PSAIMS-FJM-300x300-1.webp
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260713T080000
DTEND;TZID=Asia/Krasnoyarsk:20260715T160000
DTSTAMP:20260519T140118
CREATED:20241007T023644Z
LAST-MODIFIED:20260413T032856Z
UID:472-1783929600-1784131200@smart-training-center.com
SUMMARY:Proactive Maintenance
DESCRIPTION:Background \nProactive Maintenance is a strategic approach to identifying and resolving potential equipment failures before they occur. This maintenance method focuses on improving asset reliability and minimizing downtime risks. \nWhile wear and tear are inevitable in equipment lifecycles\, a well-planned proactive maintenance strategy can extend asset lifespan and enhance overall performance. By addressing hidden operational inefficiencies\, proactive maintenance lowers both maintenance and operational costs. Equipment running at optimal condition consumes less energy\, while machines nearing failure are less efficient and negatively impact productivity. \nObjectives \nBy the end of this Proactive Maintenance Training\, participants will be able to: \n\nProtect company equipment and tools from damage\, extending their lifespan\nMinimize downtime\nBoost company profits\nMake informed decisions through proactive maintenance practices\n\nCourse Outline \n\nHow to implement a proactive approach to equipment care\nLubrication excellence programs\nPrecision maintenance skills: alignment and balance\nBasics of training program design\nRCM (Reliability-Centered Maintenance) process for small businesses\nHow maintenance planning saves time and money\nEquipment and process design using RCM and RCD (Reliability-Centered Design)\nDeveloping written rebuild procedures\nRoot Cause Analysis (RCA) for problem-solving\nLeveraging suppliers for operational efficiency\nTechniques for equipment specification\nEnhancing efficiency through Computerized Maintenance Management Systems (CMMS)\n\nParticipants \nThis course is ideal for managers\, supervisors\, engineers\, planners\, foremen\, and technicians. It’s also suitable for professionals in operations\, engineering\, and purchasing who want to understand how maintenance quality impacts their roles. \nTraining Methods \n\nPresentations\nDiscussions\nCase Studies\nEvaluations\n\nAbout the course leader:  \nMaridjo\, Drs\, S.T.\, M.T \nPublic Training berikutnya : 12 – 14 Oktober\, 2026
URL:https://smart-training-center.com/event/proactive-maintenance-training/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Maintenance,Production Operation
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/10/Proactive-Maintenance.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260713T080000
DTEND;TZID=Asia/Krasnoyarsk:20260715T163000
DTSTAMP:20260519T140118
CREATED:20240917T145328Z
LAST-MODIFIED:20260413T030648Z
UID:134-1783929600-1784133000@smart-training-center.com
SUMMARY:RCM (Reliability Centered Maintenance)
DESCRIPTION:BACKGROUND:\nReliability Centered Maintenance (RCM) is a crucial approach for enhancing maintenance programs\, especially in sectors like energy\, manufacturing\, and petrochemicals. By adopting RCM\, organizations can avert costly equipment failures through predictive and preventive maintenance strategies. This RCM training for Maintenance Energy 2024 will equip participants with the essential skills to implement effective maintenance strategies\, thereby lowering operational costs and ensuring seamless production and asset reliability. \nTeams that utilize RCM focus on maintenance planning\, monitoring asset conditions\, and employing predictive and preventive maintenance to prevent expensive equipment breakdowns. \nThis Reliability Centered Maintenance course is particularly advantageous for continuous process industries that rely on complex and costly production equipment\, including sectors such as mining\, electricity generation\, petrochemicals\, marine\, manufacturing\, automotive\, assembly\, aviation\, construction\, pulp and paper\, and oil and gas. The course is structured to address the need for reliable maintenance methods to ensure successful production and to minimize breakdowns or unexpected disruptions. As facilities increasingly adopt automated systems\, the demand for efficient and effective maintenance methods becomes even more critical. Delayed improvements in maintenance operations can lead to significant losses\, including decreased productivity\, wasted labor hours\, production delays\, major equipment failures\, and strained customer relationships. \nAdditional consulting and implementation support is recommended to ensure that companies realize the full value of these benefits. \nOBJECTIVES:\nUpon completion of this training\, participants will be able to: \n\nUnderstand Reliability Centered Maintenance (RCM) as a foundation for implementing maintenance management and as a cost management tool within project management.\nGrasp the maintenance philosophy based on the evolution of maintenance practices: the first generation (breakdown maintenance) and the second generation (preventive maintenance).\nAnticipate potential failures by identifying the types of failures that may occur.\nComprehend the root causes of failures.\nReduce maintenance costs while maximizing equipment capacity.\n\nTARGETTED PARTICIPANTS:\nThis course is intended for: \n\nMaintenance Engineers\, Superintendents\, and Supervisors\nRotating Engineers\, Superintendents\, and Supervisors\nPower Plant Engineers\, Superintendents\, and Supervisors\nManufacturing Managers\nAnyone interested in expanding their knowledge on these topics\n\nTRAINING CONTENT:\nTheory Basic Maintenance\n\nDefinition of Maintenance\nVarious Type of Maintenances (PM\, PdM\, TQM\, RCM\, CBM)\nReliability\, Maintainability and Availability.\nKey Performance Indicator (KPI) for Maintenance\nOverall Equipment Effectiveness (OEE) Determination\n\nFunctional Failure Analysis (FFA)\n\nOperational Context\nFunctional Failure (Failed States)\nRoot Cause Failure Analysis – Turbine\, Pumps\, Motor\, Generator and Others.\n\nCritical Item Selection\n\nRisk (Criticality) Matrix\nLikelihood of Failure Formulation and Scoring\n\nConsequence of Failure Formulation and Scoring \nAbout the course leader: \nIr. Deddy Nugraha\, CMRP and Team\n  \nPublic Training berikutnya : 23 – 25 November\, 2026
URL:https://smart-training-center.com/event/reliability-centered-maintenance-rcm/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Maintenance
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/09/RCM-300x210-1.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260715T083000
DTEND;TZID=Asia/Krasnoyarsk:20260717T160000
DTSTAMP:20260519T140118
CREATED:20241122T161836Z
LAST-MODIFIED:20260413T043339Z
UID:1008-1784104200-1784304000@smart-training-center.com
SUMMARY:Sistem Proteksi Pembangkit Listrik
DESCRIPTION:Background & About the Course\nThe Power Plant Protection System is a set of devices designed to safeguard the power generation facility as a whole. A power plant is a system that generates electrical energy from mechanical energy sources\, typically through electromagnetic induction. This process is known as electricity generation. In the industrial sector\, generators are essential for supporting all activities that require a reliable supply of electrical energy. Therefore\, the operation of these power plants must be conducted correctly. \nTherefore\, performance of generators is influenced not only by operational aspects but also significantly by maintenance factors. Improper maintenance can lead to vibration issues and reduced efficiency\, ultimately affecting the unit’s performance. To address these challenges\, it is crucial to have competent and skilled personnel. \nThis training will equip participants with the techniques and applications of proper generator maintenance in power plants. Participants will gain knowledge and understanding of the engineering aspects of electrical power generation systems. The training will emphasize the operation\, protection\, and maintenance of generators and their driving systems. \nCourse Objectives\nAfter completing the training\, participants are expected to: \n\nEnhance their knowledge of power plant protection systems.\nImprove their understanding of power system architecture.\nConduct reviews to improve the protection of power systems\, busbars\, transformers\, motors\, and generators.\n\nWho Should Attend\n\nEngineers\nManagers\nSupervisors\nTechnicians\nOperators\nProduction and Operations personnel\nPower Plant Operation & Maintenance staff\n\nCourse Content\n\nIntroduction\nPower System Architecture\nNeutral Grounding\nShort Circuit Current\nSensors (CT & VT)\nDiscrimination\nPower System Protection\nBusbar Protection\nTransformer Protection\nMotor Protection\nGenerator Protection\n\nAbout the Course Leaders\nIr. Nana Heryana\, S.T. IPU.\, ASEAN.Eng \nPublic Training berikutnya : 21 – 23 Oktober\, 2026
URL:https://smart-training-center.com/event/implementasi-manajemen-risiko-di-organisasi/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Electrical,Engineering,Maintenance,Power Generation
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260720T083000
DTEND;TZID=Asia/Krasnoyarsk:20260720T160000
DTSTAMP:20260519T140118
CREATED:20240924T024103Z
LAST-MODIFIED:20260413T054724Z
UID:344-1784536200-1784563200@smart-training-center.com
SUMMARY:Substitution Equipment & Control Relay
DESCRIPTION:BACKGROUND:\nSubstitution Equipment and Control Relay. In modern industrial operations\, ensuring reliable power distribution and control is essential for minimizing downtime\, ensuring safety\, and optimizing performance. A crucial element of this is the management of backup equipment and control relays\, which are vital for the protection and automation of electrical systems. \nBackup equipment acts as a contingency in the event of equipment failure\, allowing operations to continue without major interruptions. Conversely\, control relays serve as intermediaries between control systems and equipment\, providing necessary protection by monitoring electrical faults and initiating appropriate responses\, such as disconnecting or isolating faulty components. \nWith rapid advancements in electrical technology and the increasing complexity of power systems\, it is crucial for technical personnel to possess the knowledge and skills needed to effectively handle\, operate\, and maintain backup equipment and control relays. This training aims to equip participants with a comprehensive understanding of the functions\, types\, and operational strategies associated with backup equipment and control relays\, along with practical experience in troubleshooting and maintenance procedures. \nABOUT THE COURSE:\nThis introductory course on substation equipment and controls will familiarize you with the components that make up an electric substation. It will detail how each type of equipment functions and guide you through the control and wiring diagrams that govern their operation. \nPERFORMANCE OBJECTIVES:\nWhen you complete this course you will be able to: \n\nUnderstand the operation of substation equipment\nRead trip and closure schematics and control system diagrams\nRelate control schematics to their corresponding wiring diagrams\nDesign simple control system schematics\nGain the expertise necessary to enhance system reliability\, reduce downtime\, and improve overall operational safety in their workplaces\n\nWHO SHOULD ATTEND?:\nElectrical and Instrument technicians\, Transmission and distribution technicians \nCourse Content: \n\nPower Transformers\n\n\nPrinciples of transformer operation and components\nTransformer protection schemes and fault analysis\n\n\nLoad Tap Changers\n\n\nTypes of Load Tap Changers (LTC) and their functions\nOperational mechanisms and control methods\n\n\nVoltage Regulators\n\n\nAutomatic voltage regulation principles\nTypes of voltage regulators and applications\n\n\nPower Circuit Breakers\n\n\nTypes of circuit breakers (Oil\, SF6\, Vacuum) & applications\nArc extinguishing principles and insulation coordination\n\n\nCircuit Switchers\n\n\nFunction and applications in substation systems\nDifferences between circuit switchers and breakers\nOperational guidelines and maintenance best practices\n\n\nCapacitor Banks\n\n\nReactive power compensation and voltage stability\nSwitching operations and protection schemes\n\n\nProtective Relays\n\n\nTypes of protective relays and their functions\nCoordination of relay settings for system protection\n\n\nTrip Schematics and Wiring Diagrams\n\n\nUnderstanding and interpreting trip circuit schematics\nWiring standards and common configurations\n\n\nAuxiliary Equipment and Systems\n\n\nRole of auxiliary systems in substation operations\nControl panels\, signaling devices\, and annunciators\n\n\nMetal Clad Switchgear\n\n\nComponents and working principles of metal-clad switchgear\nSafety procedures for operation and maintenance\n\n\nSubstation Automation and Integration\n\n\nSCADA systems and communication protocols\nIntelligent Electronic Devices (IEDs) and their applications\n\n\nBatteries and Battery Charging\n\n\nTypes of batteries used in substations & characteristics\nBattery charging systems and maintenance requirements\n\n\nCondition Monitoring & Periodic Maintenance\n\nAbout the Trainer: \nSupriyanto\, ST.\, MT\, holds a Bachelor’s degree in Electrical Engineering from Universitas Diponegoro and a Master’s degree in Electrical Engineering from ITB\, specializing in Power System Technology and Electrical Power Engineering. \nIn addition to his formal education\, Supriyanto has obtained several certifications\, including: \n\nA six-month training program from Swiss-contact in High Voltage Technology.\nAn eighteen-month training program in Teaching Methodology for Industrial & Electrical Engineering.\nCertified Assessor in Electrical Engineering from the Ministry of Energy and Mineral Resources (ESDM).\nCertified Senior Electrical Installation Engineer from the National Board for Vocational Certification (BNSP).\nCertified Senior Electrical Safety Engineer from BNSP.\n\nPublic Training berikutnya : 7 – 9 Desember\, 2026
URL:https://smart-training-center.com/event/substitution-equipment-and-control-relay/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Electrical,Maintenance
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/09/Relay.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260720T083000
DTEND;TZID=Asia/Krasnoyarsk:20260722T160000
DTSTAMP:20260519T140118
CREATED:20241122T061743Z
LAST-MODIFIED:20260413T043842Z
UID:843-1784536200-1784736000@smart-training-center.com
SUMMARY:Spare Parts Management
DESCRIPTION:Background & About the Course \n\n\nEffective spare parts management is akin to logistical support in a battle. Have you considered the losses incurred due to unexpected machinery or equipment failures during production? What if repair processes are hindered by the unavailability of spare parts? \nThe losses from production downtime can be quantified\, but there are also immeasurable losses\, such as damage to company image and client trust. \nTherefore\, implementing an effective maintenance program and controlling spare parts management is crucial. This includes determining necessary items\, assessing the need for storage\, identifying suppliers\, timing orders\, specifying quantities\, ensuring quality standards\, budgeting for spare parts\, and more. \nCourse Objectives\nParticipants will be able to: \n\nUnderstand strategies for spare parts provision.\nControl spare parts effectively.\nProvide necessary items for overhauls and support operational spare parts needs.\nManage spare parts efficiently.\nDevelop a just-in-time stock system with the required specifications.\n\nWho Should Attend\nThis training is recommended for: \n\nMaintenance Managers and Staff\nProduction Managers and Staff\nManagers or Staff closely related to maintenance resource management\, such as Warehouse Management and Supply Chain personnel.\n\nCourse Content\n\nStrategies for Spare Parts Inventory to Support Production Processes\nPlanning and Managing Spare Parts Inventory\nSpare Parts Management and Control Strategies\nClassification of Spare Parts and Equipment\nReorder Point Calculation for Inventory & Management\nPlanning and Controlling Spare Parts for Overhaul\nStock Control of Spare Parts: Safety Stock\, Overstock\, and Dead Stock\nCost Calculation and Analysis of Spare Parts\nEffective and Efficient Spare Parts Warehouse Management\nSoftware aided inventory\nControl of Factors Leading to Inventory Loss\nSpare Parts with Specific Storage Requirements\nWarehouse layout & racking system\nSpare Parts Coding and Standardization Systems\nKey Performance Indicators (KPIs) for Spare Parts Management\n\nAbout the Course Leader:\nIr. Irfan Zen/ Rusmana\, ST.\, MT \nPublic Training berikutnya : 17 – 19 November\, 2026
URL:https://smart-training-center.com/event/spare-parts-management/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Maintenance,Production Operation,Supply Chain
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/Spare-Parts-Management.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260720T083000
DTEND;TZID=Asia/Krasnoyarsk:20260722T160000
DTSTAMP:20260519T140118
CREATED:20241122T161820Z
LAST-MODIFIED:20260413T052226Z
UID:1000-1784536200-1784736000@smart-training-center.com
SUMMARY:Safety Instrumented System (SIS) and Control
DESCRIPTION:Background & About the Course\nProcess safety is a critical element in industries involving high-risk operations\, such as oil and gas\, petrochemicals\, and manufacturing. A key component of process safety management is the Safety Instrumented System (SIS)\, which is designed to protect personnel\, the environment\, and assets from potential incidents that could lead to significant losses. \nThis training aims to provide an in-depth understanding of the design\, implementation\, and management of SIS in accordance with international standards such as IEC 61508 and IEC 61511. Participants will learn basic concepts\, risk analysis\, Layer of Protection Analysis (LOPA) management\, and system testing to ensure the reliability and integrity of SIS in daily operations. \nCourse Objectives\n\nExpand practical knowledge in the design and application of Safety Instrumented Systems (SIS) in industrial processes.\nUnderstand the latest standards governing each stage of the safety life cycle\, from initial hazard evaluation to detailed engineering and maintenance of SIS.\nDevelop the ability to reduce risks and mitigate hazard consequences\, and design\, implement\, operate\, and maintain SIS to meet requirements.\nAssist companies in implementing functional safety measures that conform to international standards.\nDesign\, implement\, and manage SIS while adhering to international standards such as IEC 61508 and IEC 61511.\n\nWho Should Attend\nThis training is recommended for: \n\nInstrumentation and control engineers and technicians\nDesign\, installation\, and maintenance engineers and technicians in process industries\nManagers and sales professionals employed by end users\nSystems integrators or consultants\nConsulting electrical engineers\nPlant engineers and instrument technicians\nOperations Technicians\nElectrical maintenance technicians and supervisors\nInstrumentation and control system engineers\nProcess control engineers\nMechanical engineers\nProcurement professionals\n\nCourse Content\n\nFundamental of Safety Instrumented System (SIS)\nDifferences Between SIS and Other Control Systems\nReview of Basic SIS (IEC 61508\, IEC 61511\, and ISA S84)\nFunctional Safety\nSafety Life Cycle\nRisk Reduction\nLayers of Protection Analysis (LOPA)\nConceptual Design\nReliability Analysis\nSafety in Field Instruments & Devices\nAnalyzing Risks\nAssessing the Need for Risk Reduction\nSafety Requirements Specifications\nFault Tree Analysis\nSafety Integrity Level (SIL)\nHardware Fault Tolerance\nFailure Rate\nTechnology Choices\nPerformance Requirements\nImplementation of SIS\nAPI RP 754 (Process Safety Performance Indicators)\n\nAbout the Course Leader\nProf. Endra Joelianto\, Ir.\, Ph.D.\, SMIEEE \nProf. Endra Joelianto\, Ir.\, Ph.D.\, SMIEEE\, is a leading expert in control engineering with research focusing on Hybrid Control Systems\, Discrete Event Control Systems\, Petri Nets\, Robust PID Controllers\, and Industrial Automation using PLC/DCS. He earned his Engineering Physics degree from ITB in 1990 and a PhD in Control Engineering from The Australian National University in 2001. Prof. Endra coordinates Intelligent Control and Automation at ITB and founded the PLC Research Group and Schneider-OMRON PLC Training Center\, fostering collaboration with Schneider Electric\, OMRON Corporation\, and Invensys WONDERWARE. \nHe has led national retooling projects and participated in professional training on PLC\, DCS\, and calibration across Asia and Africa. As an instructor\, he provides training in instrumentation and process control to universities and major companies in the petrochemical\, oil and gas\, and manufacturing sectors\, including PERTAMINA\, British Petroleum\, and PT. Pupuk Kalimantan Timur. His contributions have significantly advanced industrial automation and education in Indonesia. \nPublic Training berikutnya : 19 – 21 Oktober\, 2026
URL:https://smart-training-center.com/event/safety-instrumented-system-sis-and-control/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Engineering,Instrument and control,Maintenance,Q-HSE
ATTACH;FMTTYPE=image/png:https://smart-training-center.com/wp-content/uploads/2024/11/SIS_001.png
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260721T083000
DTEND;TZID=Asia/Krasnoyarsk:20260723T160000
DTSTAMP:20260519T140118
CREATED:20241122T100852Z
LAST-MODIFIED:20260415T043417Z
UID:895-1784622600-1784822400@smart-training-center.com
SUMMARY:Tribology Oil Analysis
DESCRIPTION:BACKGROUND & ABOUT THE COURSE:\nMachinery is assembled from many parts\, some of which have relative motion or friction. This will need oil for excellent lubrication\, cooler\, and cleaner. To maintain good machinery operations\, one needs to understand tribology (knowledge about friction and lubrication) and oil analysis. \nLubricant is one of the important factors in the machinery system and machine maintenance. This requires knowledge and experience about the basics of the lubrication system to maintain safe bearing operating conditions. Monitoring the operating conditions of a machine and selecting the right lubricant will keep the engine performance optimal and durable. \nThis training will discuss how to analyze sources of disturbance and systematic damage analysis and the possibility of modifying the lubrication system. With good lubricants and proper monitoring\, you are able to maintain and operate production machinery more optimally. \nTRAINING OBJECTIVES:\nAfter attending the training\, participants are expected to: \n\nunderstand tribology (knowledge of friction and lubrication) and Oil Analysis.\nAble to properly implement knowledge of oil analysis in the work environment\n\nWHO SHOULD ATTEND:\nMaintenance Professionals\, Reliability Engineers\, Lubrication Engineers\, Craftsmen and Millwrights\, Equipment Operators\, Operations & Maintenance Managers\, Lubrication Technicians\, Manufacturing and Industrial Engineers\, Maintenance Supervisors\, Vibration Instrument Specialists\, Predictive Maintenance Technicians\, Laboratory Analysts. \nCOURSE CONTENT:\n\nFundamental of Tribology\n\n\n\n\nConformal & Non-conformal contact\nFriction phenomena\nWear phenomena\nLubrication principle\nHydrodynamic Bearing\nHydrostatic Bearing\nRolling Element Bearing\n\n\n\n\nWear Metal analysis\n\n\n\n\nspectroscopy\,\nanalytical ferrography or micro patch\n\n\n\n\nWear phenomena\, mechanism and its causes\n\n\n\n\nWear phenomena\nWear Mechanism\nCause of wear\n\n\n\nABOUT THE COURSE LEADERS:\nCecep Slamet Abadi\, S.T.\, M.T \nCecep Slamet Abadi\, ST.\, MT adalah salah satu associate instructor di FJM dengan latar belakang Pendidikan Teknik Mesin untuk jenjang S1 & S2. \nSelain aktif sebagai dosen sejak tahun 1996\, beliau juga memiliki pangalaman dalam bidang industry & konsultan di antaranya di LAPI ITB\, Puslitbang Air\, PINDAD\, Audit Energi di Pertamina EP Pangkalan Susu\, Tambung & Rengasdengklok\, serta sebagai team uji kompetensi si IATKI (Ikatan Akhli Ketenagalistrikan Indonesia). \nUntuk industrial training\, Pak Cecep telah mengajar lebih dari 150 in-house maupun public training di antaranya: Indonesia Power\, PLTA Saguling\, Freeport-Papua\, Chevron Oil/Gas\, Chevron Geothermal\, Premier Oil\, Pupuk Sriwijaya\, Pupuk Kujang\, Badak LNG\, dan lain-lain. \nPublic Training berikutnya : 22 – 24 September\, 2026
URL:https://smart-training-center.com/event/tribology-oil-analysis/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Engineering,Maintenance,Mechanical
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/tribology-oil-analysis.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260721T083000
DTEND;TZID=Asia/Krasnoyarsk:20260723T160000
DTSTAMP:20260519T140118
CREATED:20241122T102928Z
LAST-MODIFIED:20260413T070110Z
UID:922-1784622600-1784822400@smart-training-center.com
SUMMARY:Supervisi Pengoperasian Sistem BOP (Balance of Plant)
DESCRIPTION:Background & About the Course:\nIn coal-fired power plants (PLTU)\, the plant is divided into three main areas: Main Power Equipment\, Balance of Plant (BOP)\, and Coal Handling. Main Power Equipment includes the boiler\, turbine\, generator\, transformer\, and condenser. BOP encompasses critical systems such as the Water Treatment Plant\, Water Pump House\, Waste Water Treatment Plant\, Start-Up Boiler\, Fuel Oil Pump House\, Chlorine Plant\, and Circulating Water Pump. The scope of BOP equipment may vary depending on the plant’s design. \nA properly functioning BOP system is crucial to maintaining the overall operation of the PLTU. Any issues within the BOP can lead to operational disruptions. Thus\, operators and technicians must have a thorough understanding of BOP operations and maintenance procedures. Continuous supervision of BOP systems is necessary to ensure optimal plant performance. This course provides in-depth knowledge of BOP operations\, focusing on best practices\, risk identification\, and system optimization to ensure safe\, reliable\, and efficient plant operations. \nCourse Objectives:\n\nUnderstand the role and function of the BOP system in supporting power plant operations.\nMaster the operation and supervision of key BOP components.\nIdentify and address operational issues within the BOP system.\nApply optimization techniques to improve BOP system efficiency and reliability.\nSupervise BOP operations according to safety procedures and industry standard.\nEnhance coordination between supervisory teams and operators to ensure effective BOP management.\n\nWho Should Attend:\n\nPower Plant Operation Supervisors responsible for overseeing BOP system operations.\nPower Plant Operators directly involved in BOP operations.\nMaintenance Technicians ensuring the reliability and upkeep of BOP components.\nPower Plant System Engineers involved in the design\, analysis\, and optimization of BOP systems.\nOperational Support Staff with responsibilities related to BOP system management.\n\nCourse Content:\n\nIntroduction to Power Plant Components\nBoiler\n• Turbine\n• Generator\n• Transformer\nUnderstanding Balance of Plant (BOP)\nWater Treatment Plant (MED\, Mixed Bed\, Demineralized Tank)\n• Water Pump House (Service Water Pump House\, Raw Water Tank\, Portable Reservoir\, Sea Water Reservoir)\n• Waste Water Treatment Plant\n• Fuel Oil Pump House\n• Chlorine Plant\n• Circulating Water Pump\nFunctions of BOP\nBOP System Operation Principles\nSupervision of Power Plant Operations\nPlanning and Operational Supervision of BOP\n\nAbout the course leader: \nAli Mashar\, M.Eng.Sc.\, IPU/ Maridjo\, Drs\, ST.\, MT\n  \nPublic Training berikutnya : 16 – 18 November\, 2026
URL:https://smart-training-center.com/event/supervisi-pengoperasian-sistem-bop-balance-of-plant/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Maintenance,Mechanical,Power Generation
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/Sistem-BOP-Balance-of-Plant.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260722T080000
DTEND;TZID=Asia/Krasnoyarsk:20260724T040000
DTSTAMP:20260519T140118
CREATED:20240917T144455Z
LAST-MODIFIED:20260413T084816Z
UID:132-1784707200-1784865600@smart-training-center.com
SUMMARY:Operation Readiness\, Hand Over & Assurance
DESCRIPTION:Background & About the Course\nThe successful execution of complex projects\, particularly in the industrial and infrastructure sectors\, requires meticulous preparation and flawless transitions between different phases. Operational readiness\, handover\, and assurance processes are critical to ensuring that projects meet performance standards\, operational objectives\, and stakeholder expectations. These activities not only bridge the gap between project completion and operational functionality but also mitigate risks\, optimize resources\, and drive long-term success. \nIn many instances\, challenges such as misaligned priorities\, insufficient knowledge transfer\, and unclear accountability frameworks during handover stages can lead to delays\, inefficiencies\, or failures in operations. This underscores the importance of a structured approach to operational readiness and assurance\, which fosters collaboration between project teams and operational units while maintaining quality and safety standards. \nThis training program equips participants with essential tools and techniques to effectively manage operational readiness\, handover\, and assurance processes. It combines principles\, methodologies\, and practical exercises to ensure smooth transitions from project delivery to operations. Participants will develop skills in risk management\, stakeholder engagement\, and performance validation\, enabling them to enhance organizational readiness and achieve sustainable outcomes. \nCourse Objectives\n\nUnderstand and practice Operational Readiness\, Handover\, and Assurance.\nEnhance knowledge of Mechanical Completion\, Pre-Commissioning\, and Commissioning techniques.\nGain insights into acceptance criteria and the creation of acceptance certificates.\nExplore HSE aspects and process safety in relation to Operational Readiness.\n\nWho Should Attend\nThis training is designed for professionals engaged in the project phase\, commissioning\, and handover of facilities. Ideal participants include: \n\nProject Team Members\nEPC Team Representatives\nProcurement Specialists\nOperation and Maintenance Team Members\n\nThese groups are directly involved in ensuring a seamless handover process. \nCourse Content\n\nLifecycle Involvement: Understand the company’s role across the full asset lifecycle\, from the project phase to operational readiness.\nTeam Collaboration: Learn effective collaboration strategies among key teams\, including Project\, Operational Excellence (OE)\, and Operability Assurance personnel.\nRoles and Responsibilities: Define the roles and responsibilities of Operability Assurance personnel to ensure project success.\nTools and Best Practices: Explore essential Operability Assurance tools and best practices to achieve smooth transitions from the project phase to operational mode.\nHSE and Process Safety: Gain insights into critical HSE aspects and process safety requirements tied to operational readiness.\n\nAbout the Course Leader\nIr. Doddy Lesmana graduated from the Petroleum Engineering Department of Bandung Institute of Technology and has extensive hands-on experience in multinational oil and gas companies in Indonesia. He began his career as a Reservoir Engineer in 1997 and has held various positions\, including Production Engineer\, Supervisor\, and Superintendent in both offshore and onshore production operations\, advancing to managerial roles. Since 2016\, he has focused on Project Handover and Operability Assurance. His career also includes roles in sales for Pipeline & Tubular and as a Senior Contract Analyst. \nPublic Training berikutnya : 27 – 29 Oktober\, 2026
URL:https://smart-training-center.com/event/operation-readiness-hand-over-and-assurance-mechanical-completion/
LOCATION:Tebu Hotel\, Jl. Braga\, Bandung\, Indonesia
CATEGORIES:Maintenance,Production Operation,Project
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/09/Operation-Readiness-STC.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260722T083000
DTEND;TZID=Asia/Krasnoyarsk:20260724T163000
DTSTAMP:20260519T140118
CREATED:20241003T072356Z
LAST-MODIFIED:20260413T075500Z
UID:464-1784709000-1784910600@smart-training-center.com
SUMMARY:Mechanical Seal for Rotating Equipment
DESCRIPTION:BACKGROUND: \nMechanical Seals  for Rotating Equipment are integral to the functionality and efficiency of various industrial systems. These contain fluid inside the components of a vessel or system\, usually in a pump or mixing device. Though small\, these seals play a big part in manufacturing processes across numerous industries and if one fails it can bring production to a halt and often create a spill which could be dangerous for employees if the fluid used in the system is hazardous to health. \nIn rotating equipment or wherever it is used mechanical seals play vital roles. Hence whoever deals with them shall take a good care & knowledgable of it. \nOBJECTIVES: \nUpon completion of the course\, the participant will be able to do the following: \n\nIdentify and explain types of seals.\nExplain mechanical seal classification.\nExplain how to safely and accurately remove and inspect mechanical seals.\nExplain how to safely and accurately install mechanical seals.\n\nWHO SHOULD ATTEND: \nThe following selected participants should attend this course: \n\nMaintenance\, Operator\, Mechanical\, Technician\nEngineer/Superintendent/Supervisor\nRotating Engineer/ Superintendent/Supervisor\nPower Plant Engineer/ Superintendent/ Supervisor\n\nTRAINING SILABUS: \n1 Types of Seals \n\nSingle Inside\nSingle Outside\nDouble: Back-to-Back\, Face-to-Face\nTandem\nCartridge\n\n2 Mechanical Seal Classifications: \n\nBalanced\nUnbalanced\nSingle-Spring\nMultiple-Spring\nWelded Metal Bellows\nElastomer Bellows\nRotating\nStationary\n\n3 Mechanical Seals Removal and Inspection \n4 Mechanical Seals Installation \n5 Common Mechanical Seal Failures \nTRAINING METHODS:\n\nPresentation\,\nDiskusi\,\nCase study\,\nEvaluation\n\nAbout the course leader:  \nCecep Slamet Abadi\, S.T.\, M.T \nPublic Training berikutnya : 26 – 28 Oktober\, 2026
URL:https://smart-training-center.com/event/mechanical-seals-for-rotating-equipment/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Maintenance,Mechanical
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/10/Mechanical-Seals.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260728T080000
DTEND;TZID=Asia/Krasnoyarsk:20260728T170000
DTSTAMP:20260519T140118
CREATED:20260422T231526Z
LAST-MODIFIED:20260422T231526Z
UID:2850-1785225600-1785258000@smart-training-center.com
SUMMARY:API 580 Risk Based Inspection
DESCRIPTION:API 580 – Risk Based Inspection and Maintenance\, Repair\nBackground\nDalam industri proses berisiko tinggi\, kegagalan peralatan seperti pressure vessel\, piping\, heat exchanger\, dan storage tank dapat menimbulkan dampak serius terhadap keselamatan\, lingkungan\, dan kontinuitas operasi. Pendekatan inspeksi konvensional berbasis waktu (time-based inspection) sering kali tidak efektif dan kurang optimal dari sisi biaya dan risiko. \nAPI 580 – Risk Based Inspection (RBI) menyediakan kerangka kerja sistematis untuk mengalokasikan sumber daya inspeksi dan perawatan berdasarkan tingkat risiko\, dengan mempertimbangkan probability of failure (PoF) dan consequence of failure (CoF). Pendekatan ini memungkinkan perusahaan meningkatkan keselamatan\, mengoptimalkan biaya\, serta memperpanjang umur peralatan. \nTraining ini dirancang untuk memberikan pemahaman konseptual dan aplikatif mengenai RBI sesuai API 580 serta keterkaitannya dengan maintenance\, repair\, dan asset integrity management. \nObjectives\nSetelah mengikuti training ini\, peserta diharapkan mampu: \n\n\nMemahami prinsip dan filosofi Risk Based Inspection sesuai API 580. \n\n\nMengidentifikasi mekanisme kerusakan dan risiko pada peralatan statis. \n\n\nMelakukan penilaian risiko berbasis PoF dan CoF. \n\n\nMenyusun interval inspeksi dan strategi maintenance berbasis risiko. \n\n\nMengintegrasikan RBI dengan program maintenance\, repair\, dan asset integrity. \n\n\nRecommended Participants \n\n\nTraining ini direkomendasikan untuk: \n\n\nInspection Engineer & Asset Integrity Engineer \n\n\nMaintenance & Reliability Engineer \n\n\nProcess Engineer \n\n\nHSE / Process Safety Engineer \n\n\nSupervisor dan Manager Engineering / Maintenance \n\n\nProfesional industri migas\, petrokimia\, dan pembangkit \n\n\n\n\nCourse Outline\nA. Pengenalan Risk Based Inspection\n\n\nEvolusi inspeksi dan maintenance berbasis risiko \n\n\nPeran RBI dalam asset integrity management \n\n\nOverview API 580 dan keterkaitannya dengan API 581 \n\n\nB. Dasar Risiko dan Failure Mechanism\n\n\nDefinisi risiko dalam industri proses \n\n\nProbability of Failure (PoF) \n\n\nConsequence of Failure (CoF) \n\n\nDamage mechanism pada peralatan statis \n\n\nC. Risk Assessment Methodology\n\n\nIdentifikasi peralatan kritis \n\n\nPenilaian risiko kualitatif dan semi-kuantitatif \n\n\nRisk matrix dan risk ranking \n\n\nD. RBI untuk Inspection\, Maintenance & Repair\n\n\nPenentuan interval inspeksi berbasis risiko \n\n\nStrategi inspeksi dan teknik NDT \n\n\nHubungan RBI dengan maintenance dan repair planning \n\n\nE. Implementasi RBI di Fasilitas Industri\n\n\nData dan dokumentasi RBI \n\n\nIntegrasi RBI dengan CMMS/EAM \n\n\nMonitoring dan review risiko secara berkala \n\n\nF. Studi Kasus dan Diskusi\n\n\nStudi kasus RBI pada piping dan pressure vessel \n\n\nDiskusi penerapan RBI di fasilitas nyata \n\n\n4. Output Training\n\n\nPemahaman menyeluruh konsep RBI sesuai API 580 \n\n\nKemampuan menerapkan RBI untuk inspeksi dan maintenance berbasis risiko \n\n\nPeningkatan keselamatan\, keandalan\, dan efisiensi biaya inspeksi \n\n\n\n\nAbout The Course Leader\nIr. In Jumanda Kasdadi\, M.T.\n| Training berikutnya: 27 – 29 Oktober\, 2026
URL:https://smart-training-center.com/event/api-580-risk-based-inspection/
CATEGORIES:Maintenance
ATTACH;FMTTYPE=image/webp:https://smart-training-center.com/wp-content/uploads/2026/04/API-580-Risk-Based-Inspection-300x168-1.webp
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260803T080000
DTEND;TZID=Asia/Krasnoyarsk:20260805T160000
DTSTAMP:20260519T140118
CREATED:20250105T000143Z
LAST-MODIFIED:20260414T012519Z
UID:1529-1785744000-1785945600@smart-training-center.com
SUMMARY:BOILER (Pengoperasian Burner System: Coal\, Main Oil Gun\, Tiny Oil Gun)
DESCRIPTION:Background & About the Course:\nPada Pembangkit berbahan bakar batubara\, proses start awal boiler tidak bisa langsung menggunakan batubara karena temperatur di furnace masih rendah. Untuk menaikkan temperatur furnace maka digunakan bahan bakar HSD (High Speed Diesel) melalui alat main oil gun. Pada main oil gun terdapat dua saluran utama yaitu saluran bahan bakar HSD dan saluran atomizing air. Sedangkan untuk penyalaan awal pada main oil gun menggunakan ignitor. \nPelatihan ini dirancang untuk memberikan pemahaman mendalam mengenai pengoperasian sistem pembakaran pada boiler\, yang mencakup pembakaran batubara (Coal)\, Main Oil Gun\, dan Tiny Oil Gun. Pembakaran adalah salah satu aspek paling krusial dalam operasi boiler\, karena efisiensinya langsung mempengaruhi kinerja dan keselamatan sistem. Oleh karena itu\, pemahaman yang baik tentang cara mengoperasikan dan memelihara burner system sangat penting bagi para operator dan teknisi boiler. \nCourse Objectives:\n\nMemahami prinsip dasar pengoperasian dan komponen-komponen utama dalam sistem burner boiler (Coal\, Main Oil Gun\, Tiny Oil Gun).\nMenguasai teknik pengoperasian dan pengaturan pembakaran untuk efisiensi dan keselamatan yang optimal.\nMengetahui cara mendiagnosis dan mengatasi masalah umum dalam sistem pembakaran boiler.\nMeningkatkan kemampuan dalam pemeliharaan dan perawatan rutin burner system untuk memastikan performa yang stabil.\nMempelajari perbedaan penggunaan batubara dan minyak dalam pembakaran serta cara pengaturannya.\n\nWho Should Attend:\n\nOperator boiler dan teknisi yang bertanggung jawab dalam pengoperasian dan pemeliharaan boiler.\nInsinyur dan teknisi yang bekerja dengan sistem pembakaran atau boiler di sektor industri\, pembangkit listrik\, dan fasilitas pabrik.\nManajer pemeliharaan dan perawatan yang ingin memahami lebih dalam tentang sistem pembakaran boiler untuk meningkatkan kinerja fasilitas mereka.\n\nCourse Content:\n\nPengenalan Sistem Pembakaran Boiler\n\nFungsi dan komponen utama sistem pembakaran boiler.\nJenis bahan bakar yang digunakan: batubara\, minyak\, dan gas.\nPrinsip dasar bolier & pembakaran dalam boiler.\n\n\nPrinsip Kerja Boiler dan Burner System\n\nJenis burner system: Coal Burner\, Main Oil Gun\, Tiny Oil Gun.\nPerbedaan karakteristik pembakaran batubara dan minyak.\n\n\nPengoperasian dan Penyesuaian Burner System\n\nCara mengatur burner dan parameter pembakaran.\nPenyesuaian aliran bahan bakar dan udara (air-fuel ratio).\nSistem kontrol pembakaran dan pengawasan kinerja.\n\n\nOperasional Penggunaan Batubara pada Boiler\n\nKarakteristik batubara dan pengaruhnya terhadap pembakaran.\nCara mengatur dan mengoptimalkan pembakaran batubara.\nPengaturan feeder dan kecepatan aliran batubara.\n\n\nMain Oil Gun dan Tiny Oil Gun pada Pembakaran Minyak\n\nPengertian dan cara kerja Main Oil Gun dan Tiny Oil Gun.\nPenyesuaian dan pengaturan pembakaran minyak.\nPemilihan jenis minyak dan pengaruhnya terhadap kinerja pembakaran.\n\n\nPemeliharaan dan Troubleshooting Sistem Burner\n\nPerawatan rutin burner untuk menjaga efisiensi dan mencegah kerusakan.\nMendiagnosis masalah umum dalam burner system.\nLangkah-langkah pemecahan masalah terkait pembakaran batubara dan minyak.\n\n\nPengawasan dan Pengendalian Pembakaran untuk Efisiensi\n\nCara mengukur efisiensi pembakaran dan indikator kinerja utama.\nPenggunaan alat ukur dan sensor dalam sistem pembakaran.\nTeknik pengendalian untuk mencapai pembakaran yang optimal.\nAnalisis performa pembakaran dan penyesuaian parameter.\n\n\nStudi Kasus dan Diskusi Masalah\n\nDiskusi tentang kasus-kasus kegagalan burner & solusi yang diambil.\n\n\n\nAbout the Trainer:\nCecep Slamet Abadi. S.T.\, M.T  \nCecep Slamet Abadi\, ST.\, MT adalah salah satu associate\ninstructor di FJM dengan latar belakang Pendidikan Teknik Mesin\nuntuk jenjang S1 & S2. Selain aktif sebagai dosen sejak tahun 1996\, beliau juga memiliki pangalaman dalam bidang industry & konsultan di antaranya di LAPI ITB\, Puslitbang Air\, PINDAD\, Audit Energi di Pertamina EP Pangkalan Susu\, Tambung & Rengasdengklok\, serta sebagai team uji kompetensi si IATKI (Ikatan Akhli Ketenagalistrikan Indonesia). Untuk industrial training\, Pak Cecep telah mengajar lebih dari 150 in-house maupun public training di antaranya: Indonesia Power\, PLTA Saguling\, Freeport-Papua\, Chevron Oil/Gas\, Chevron Geothermal\, Premier Oil\, Pupuk Sriwijaya\, Pupuk Kujang\, Badak LNG\, dan lain-lain. \nPublic Training berikutnya : 5 – 7 Oktober\, 2026 | 1 – 3 Desember\, 2026
URL:https://smart-training-center.com/event/boiler-pengoperasian-burner-system-coal-main-oil-gun-tiny-oil-gun-2/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Engineering,Maintenance,Power Generation,Production Operation
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2025/01/boiler-control-flipped.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260803T083000
DTEND;TZID=Asia/Krasnoyarsk:20260805T160000
DTSTAMP:20260519T140118
CREATED:20241122T161818Z
LAST-MODIFIED:20260414T035753Z
UID:995-1785745800-1785945600@smart-training-center.com
SUMMARY:Asset Integrity Management System (AIMS)
DESCRIPTION:Background & About the Course\nAsset Integrity Management Systems (AIMS) define the capability of an asset to perform its required functions effectively and efficiently while ensuring the protection of health\, safety\, and the environment. AIMS ensure that the people\, systems\, processes\, and resources necessary for maintaining integrity are in place\, utilized\, and capable of performing throughout the asset’s lifecycle. An effective Integrity Management System addresses quality at every stage of the asset lifecycle\, from the design of new facilities to maintenance management and decommissioning\, including inspections\, audits\, and overall quality processes. \nCourse Objectives\n\nOptimize Asset Integrity Management systems and strategies within your organization.\nManage holistic asset designs using AIM systems and design codes.\nUtilize Risk-Based Inspection (RBI) to identify threats more quickly and reduce operational costs.\nImplement a technical approach to asset integrity management to achieve positive operational results and extend facility lifecycle.\nAdapt effective asset integrity management strategies to enhance productivity and overcome challenges.\n\nWho Should Attend\nThis training is designed to provide valuable insights for: \n\nAsset Managers\, team leaders\, and senior engineers involved in the development\, implementation\, and review of Integrity Management Schemes.\nDirectors\, Managers\, Team Leaders\, and Engineers in Pipelines\, Wells\, Structures\, Plant & Facilities Projects\, Design\, Operation\, and Maintenance Departments.\nMembers of Corrosion and Integrity Groups\nQA/QC Specialists\nInspection Managers\, Team Leaders\, and Engineers\nMaintenance Engineers and Managers\n\nCourse Content\n\nIntroduction to Asset Integrity\nBasics of Asset Management and Asset Integrity\nCorrosion Management\nRisk-Based Inspection\nFitness for Service\nInspection and Non-Destructive Testing\nRisk Assessment Techniques\nRotating Equipment\nTotal Productive Maintenance\nReliability-Centered Maintenance\nModern Approaches to Asset Integrity Management\n\n\nLessons Learned from Case Studies Around the World\n\nAbout the Course Leaders\nIr. Deddy Nugraha & Team are experienced professionals in Asset Integrity Management\, bringing extensive knowledge and expertise in the field. They have a proven track record in developing and implementing effective integrity management strategies across various industries. Their insights and practical approaches will provide participants with valuable tools to enhance asset integrity and operational efficiency. \nPublic Training berikutnya : 2 – 4 November\, 2026
URL:https://smart-training-center.com/event/asset-integrity-management-system-aims/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Engineering,Maintenance,Manajemen,Production Operation
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/Asset-Integrity-Management-Systems.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260803T083000
DTEND;TZID=Asia/Krasnoyarsk:20260805T160000
DTSTAMP:20260519T140118
CREATED:20241122T163236Z
LAST-MODIFIED:20260414T051804Z
UID:1030-1785745800-1785945600@smart-training-center.com
SUMMARY:Safety Engineering in Design
DESCRIPTION:Background & About the Course\nThis training is designed to provide participants with knowledge and understanding of safety engineering in the design phase. The course begins with an overview of key safety engineering terms such as hazard\, danger\, and risk. It covers process design\, engineering drawings\, and protection layers in safety engineering. Various techniques for identifying hazards in safety engineering design—such as HAZID\, HAZOPS\, Fault Tree Analysis (FTA)\, and Event Tree Analysis (ETA)—will also be discussed. \nBy participating in this training\, attendees will gain a comprehensive understanding of safety engineering in design\, enabling them to create operational systems that are not only reliable in terms of engineering and cost but also safe. \nCourse Objectives\nAfter completing this training\, participants will be able to: \n\nUnderstand the fundamental principles of Safety Engineering and its application in industrial system and facility design.\nIntegrate safety aspects into the design process to reduce risks from the project’s early stages.\nEnhance their ability to identify hazards and evaluate risks during the design process.\nComprehend the concept of inherently safer design to create systems that are naturally safer.\nApply analytical tools and methods such as HAZID\, HAZOP\, FMEA\, Fault Tree Analysis (FTA)\, and Event Tree Analysis (ETA) for comprehensive safety design evaluation.\nDesign safety controls\, including barriers and safeguards\, to prevent accidents.\nUtilize case studies and real-world experiences to understand challenges and best solutions in Safety Engineering in Design.\n\nWho Should Attend\nRecommended Participants: \n\nHSE Professionals\nProcess\, Piping\, and Rotating Equipment Professionals\nOperations and Maintenance Professionals\nInstrumentation and Electrical Professionals\nProject Engineers\, Site Managers\, and Field Superintendents\nProduction\, Oil and Gas Processing\, and Drilling Supervisors and Engineers\nPipeline Inspectors\, Supervisors\, and Engineers\nSafety and HSE Officers\n\nCourse Outline\n\nSafety Engineering Terminologies: Hazard\, danger\, risk\, event\, incident\, accident\nDesign Process & Safety Engineering: Basic engineering design data\, process calculation examples\, Front End Engineering Design (FEED)\, detailed design\nLayers of Protection for Safety & Reliability: Independent Protection Layer (IPL)\, process control\, alarm systems\, relief systems\nEngineering Drawings in Design: Process Flow Diagram (PFD)\, Piping & Instrumentation Diagram (P&ID)\nBasic Process Control System (BPCS): Process control loops\, measuring elements\, controllers\, final control elements\nSafety Instrumentation System (SIS): Sensors\, logic solvers\, final elements\, Safety Integrity Level (SIL)\nHAZID (Hazard Identification): Project safety activities\, checklists\, “What If” analysis\, process hazard analysis\nHazard and Operability Study (HAZOPS): Nodes\, deviations\, causes\, consequences\, recommendations\nFault Tree Analysis (FTA)\nEvent Tree Analysis (ETA)\nHazardous Area Classification (HAC): Class\, division\, zone\, temperature class\, material class\nCase Studies\n\nAbout the Course Leader\nIr. In Jumanda K\, M.T.   \nIn addition to his role as a lecturer\, Mr. Jumanda has conducted nearly 280 training sessions (both public and in-house) across various industries\, particularly in oil and gas\, since 1997. He holds both Bachelor’s and Master’s degrees in Chemical Engineering from the Bandung Institute of Technology. He has also completed nine specialized courses in the oil and gas field at PETEX (Petroleum Extension)\, University of Texas at Austin\, in 2018. \nMr. Jumanda possesses numerous professional certifications\, including a Lecturer Certificate from the Indonesian Minister of Education\, Construction\, Electrical\, and Fire Protection Certificates from the HSE Association Indonesia (ALPK3)\, and Risk-Based Inspection (RBI) Facilitator certification. He is also certified in Instrumentation Engineering Design for Oil & Gas Projects with INtools and has qualifications in HAZOPS and HAZID from the Indonesian Certifying Agency (BNSP). \nHe has delivered training to major capital-intensive companies such as Pertamina\, PHE\, PHI\, PHR\, PGN\, Chevron\, ConocoPhillips\, Total Indonesia\, CNOOC\, Medco\, and many others. Mr. Jumanda has been directly involved in numerous projects\, including Feasibility Studies (FS)\, Front-End Engineering Design (FEED)\, and Risk-Based Inspection (RBI) in the oil and gas industry for both national and international companies.
URL:https://smart-training-center.com/event/safety-engineering-in-design/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Engineering,Maintenance,Production Operation,Q-HSE
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/09/Safety-Engineering-in-Design.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260811T083000
DTEND;TZID=Asia/Krasnoyarsk:20260813T160000
DTSTAMP:20260519T140118
CREATED:20241122T101948Z
LAST-MODIFIED:20260414T064712Z
UID:901-1786437000-1786636800@smart-training-center.com
SUMMARY:Rotating Equipment Operation & Maintenance
DESCRIPTION:Background & About the Course:\nRotating equipment is the backbone of industrial operations\, driving critical processes across various sectors. From pumps and compressors to turbines and blowers\, these machines are essential for ensuring smooth and efficient production. However\, the complexity of their design and operation necessitates thorough knowledge and skills to minimize downtime and maximize performance. \nThis course provides participants with a comprehensive understanding of rotating equipment\, covering their functions\, classifications\, and performance characteristics. Emphasis is placed on failure mode identification\, predictive maintenance techniques\, and proper alignment and balancing practices. By mastering these concepts\, participants will enhance equipment reliability and operational efficiency. \nCourse Objectives:\n\nUnderstand the functions and general characteristics of rotating equipment\nClassify and evaluate the performance of pumps\, compressors\, turbines\, and fans/blowers\nIdentify anomalies and common failure modes in rotating equipment\nConduct alignment and balancing procedures\nImplement effective predictive maintenance strategies\nApply performance testing methods to ensure optimal equipment operation\n\nWho Should Attend:\n\nEngineers and Equipment Operators\nTechnicians\nMaintenance and Workshop Technicians\nQuality Control Engineers\nProcess and Manufacturing Engineers\n\nCourse Content:\n\nOverview of Rotating Equipment: Types\, Functions\, and Characteristics\nPumps: Classification\, Performance\, and Common Failure Modes\nCompressors: Types\, Performance Analysis\, and Failure Patterns\nTurbines: Operation Principles\, Efficiency Factors\, and Fault Detection\nFans and Blowers: Performance Metrics and Typical Issues\nIntroduction to Alignment and Balancing\nFailure Modes and Root Cause Analysis\nPredictive Maintenance Techniques\nEquipment Performance Testing Procedures\nInstallation and Commissioning Requirements\nEquipment Log and Documentation\nOperation and Maintenance Manuals\nSoftware Tools for Monitoring and Maintenance\n\nAbout the Trainer:\nIr. Deddy Nugraha & Team \nIr. Deddy Nugraha\, menyelesaikan pendidikan Sarjana dari Teknik Mesin – Institut Teknologi Bandung\, yang kemudian mendalami bidang Power Plant (Gas Turbine\, Steam Turbine\, Pump & Compressor) khususnya di bidang Reliability\, Quality\, dan Maintenance Management. Berpengalaman sebagai Senior Propulsion Engineer di Universal Maintenance Center PT. IPTN (1991 – 2002) dan sekarang sebagai Reliability Engineer dan Professional Training Instructor. Pengalaman sebagai instruktur training adalah di PT. Tjiwi Kimia\, PT. Suparma\, PT. Indah Kiat Pulp & Paper\, PT. Indonesia Power\, British Petroleum\, PT. Pertamina\, PT. Krakatau Steel\, PT. Amoco Mitsui\, PT. Semen Gresik\, Indocement Tunggal Prakarsa\, PT. Puncak Jaya Power\, Medco Energy dsb \nPublic Training berikutnya : 21 – 23 Oktober\, 2026
URL:https://smart-training-center.com/event/rotating-equipment-operation-maintenance/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Engineering,Maintenance,Mechanical,Production Operation
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/rotating-equipment-operation-maintenance.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
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BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260811T083000
DTEND;TZID=Asia/Krasnoyarsk:20260813T160000
DTSTAMP:20260519T140118
CREATED:20241122T163252Z
LAST-MODIFIED:20260415T001227Z
UID:1039-1786437000-1786636800@smart-training-center.com
SUMMARY:Safety Integrity Level (SIL)
DESCRIPTION:Background & About the Course\nIn functional safety\, Safety Integrity Level (SIL) is defined as the relative level of risk reduction provided by a Safety Instrumented Function (SIF). It measures the performance required from a SIF to ensure safety. According to the IEC 61508 standard\, there are four SIL levels\, with SIL4 being the most reliable and SIL1 the least. The applicable SIL is determined based on quantitative factors combined with qualitative factors\, such as risk assessment and safety lifecycle management. \nThe design process encompasses everything from procurement\, engineering work\, construction\, to commissioning\, with safety considerations integrated at every stage. This Safety Integrity Level (SIL) training program equips participants with the skills to design\, analyze\, and create engineering reports for projects while considering the safety factors of the designs produced. \nCourse Objectives\nThis training aims to: \n\nUnderstand the fundamental concepts and importance of \n (SIL) in industrial safety systems.\nExplain the relationship between operational risk and the required safety integrity level in a process.\nIdentify methods for determining the appropriate SIL based on risk analysis and system requirements.\nUnderstand international standards such as IEC 61508 and IEC 61511 relevant to SIL.\nProvide knowledge on the selection\, application\, and evaluation of hardware and software to achieve the targeted SIL.\nDevelop skills for verifying and validating SIL in safety instrumentation systems.\nEnhance awareness of functional safety and its impact on operational performance.\n\nWho Should Attend\nRecommended Participants: \n\nEngineers and Managers working in Process Safety\, Instrumentation\, and Control Systems.\nHSE (Health\, Safety\, and Environment) Teams\nMaintenance and Reliability Professionals\nSafety Auditors and Consultants\n\nCourse Outline\n\nFunctional Safety Overview & Safety Instrumented System Scope\nFundamentals of Safety Integrity Level Engineering\nOverview of Process Control\nComponents of Control Loops\nSteps for Safety Integrity Level Analysis\nHazard Identification Techniques\nRisk Estimation and Calculation\nRisk Reduction Requirements & Tolerable Risk\nDetermining Safety Functions and SIL Targets\nSafety Integrity Levels\, Risk Reduction Factor (RRF)\, & Probability of Failure\nSIL Management and Lifecycle\nCase Studies\n\nAbout the Course Leader\nIr. In Jumanda Kasdadi\, M.T.   \nMr. Jumanda is a dedicated lecturer with nearly 280 training sessions conducted across various industries\, particularly in oil and gas\, since 1997. He holds both Bachelor’s and Master’s degrees in Chemical Engineering from the Bandung Institute of Technology. Additionally\, he completed nine specialized courses in the oil and gas sector at PETEX (Petroleum Extension)\, University of Texas at Austin\, in 2018. \nMr. Jumanda possesses numerous professional certifications\, including a Lecturer Certificate from the Indonesian Minister of Education\, Construction\, Electrical\, and Fire Protection Certificates from the HSE Association Indonesia (ALPK3)\, and Risk-Based Inspection (RBI) Facilitator certification. He is also certified in Instrumentation Engineering Design for Oil & Gas Projects with INtools and has qualifications in HAZOPS and HAZID from the Indonesian Certifying Agency (BNSP). \nHe has trained prestigious companies in capital-intensive industries\, including Pertamina\, Chevron\, Total Indonesie\, and Freeport\, among others. Mr. Jumanda has been involved in key projects such as Feasibility Studies (FS)\, Front-End Engineering Design (FEED)\, and SIL Classification\, showcasing his extensive expertise in the oil and gas industry. \nPublic Training berikutnya : 16 – 18 November\, 2026
URL:https://smart-training-center.com/event/safety-integrity-level-sil/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Maintenance,Production Operation,Q-HSE
ATTACH;FMTTYPE=image/png:https://smart-training-center.com/wp-content/uploads/2024/11/SIL-STC-1.png
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
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