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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:20260428T083000
DTEND;TZID=Asia/Krasnoyarsk:20260430T160000
DTSTAMP:20260404T101721
CREATED:20241122T160351Z
LAST-MODIFIED:20260209T082217Z
UID:968-1777365000-1777564800@smart-training-center.com
SUMMARY:Programmable Logic Controller (PLC) Principle\, Practice and Trouble Shooting
DESCRIPTION:Background & About the Course\nProgrammable Logic Controllers (PLCs) are essential components of modern industrial automation systems\, controlling machinery and processes across various sectors\, including manufacturing\, oil and gas\, automotive\, and food production. A PLC comprises hardware and software designed to automate processes that demand high reliability\, ease of programming\, and resilience to environmental factors. As industries increasingly depend on PLCs to enhance operational efficiency\, it is vital for engineers and technicians to understand their functionality\, troubleshoot effectively\, and optimize performance. This three-day training program offers a comprehensive overview of PLC principles\, practical applications\, and troubleshooting techniques to help professionals maintain and improve automation systems. \nCourse Objectives\n\nUnderstand the basic principles of PLCs\, including components\, functions\, and operations.\nProgram a PLC using ladder logic and other common programming languages.\nDevelop practical skills for configuring and implementing PLC systems in various automation environments.\nTroubleshoot and diagnose common PLC problems and faults.\nUtilize diagnostic tools and techniques to enhance system reliability and performance.\nOptimize PLC-controlled systems for increased operational efficiency.\nLearn about the latest advancements in PLC technology and their real-world applications.\n\nWho Should Attend\n\nMaintenance Engineers and Technicians\nAutomation Engineers\nControl System Engineers\nElectrical Engineers\nTechnicians and Operators\nProject Managers\n\nCourse Outline\nIntroduction to PLCs and Basic Programming \n\nIntroduction to PLCs\n\n\nOverview of PLC components (CPU\, I/O\, etc.)\nTypes of PLCs and their applications\nInstallation\, wiring\, and setup basics\n\n\nPLC Programming Languages\n\n\nIntroduction to Ladder Logic programming\nBasic syntax and functions in Ladder Logic\nHands-on: Creating simple ON/OFF programs\n\n\nPLC Communication and I/O\n\n\nDigital vs. analog I/O systems\nWorking with I/O modules\nHands-on: Configuring and wiring basic I/O\n\nAdvanced Programming\, Applications\, and Integration \n\nAdvanced Ladder Logic Programming\n\n\nUsing timers\, counters\, and memory management\nAdvanced programming techniques (sequencers\, shift registers)\nHands-on: Developing a complex program\n\n\nPLC Integration with Other Systems\n\n\nPLC and SCADA/HMI systems integration\nCommunication protocols (Modbus\, Profibus\, etc.)\nHands-on: Integration of PLC with SCADA or HMI\n\n\nPractical PLC Applications\n\n\nReal-world applications in manufacturing and process control\nPLC in motion control and robotics\nHands-on: Implementing a basic control system\n\nPLC Troubleshooting and Optimization \n\nCommon PLC Faults and Troubleshooting\n\n\nIdentifying common PLC faults (I/O\, power\, communication issues)\nTroubleshooting tools and diagnostic methods\nHands-on: Troubleshooting a PLC fault simulation\n\n\nPreventive Maintenance and Optimization\n\n\nBest practices for PLC preventive maintenance\nOptimizing PLC programs for reliability\nHands-on: Optimizing a PLC control system\n\n\nAdvanced Troubleshooting and Case Study\n\n\nAnalyzing a complex PLC failure scenario\nReview of troubleshooting steps and methods\nHands-on: Solving real-world PLC problems\n\nAbout the Course Leader:\nProf. Ir. Endra Joelianto\, Ph.D.\, SMIEEE is an expert in control engineering with extensive research in hybrid control systems\, discrete event control systems\, Petri nets analysis and application on PLCs\, robust PID controllers\, advanced process control\, and industrial automation using PLC/DCS. He earned his first degree (Ir.) in Engineering Physics in 1990 from the Department of Engineering Physics at ITB and his Doctor of Philosophy (PhD) in Control Engineering in 2001 from the Department of Engineering at The Australian National University\, Australia. \nPublic Training berikutnya : 24 – 26 Agustus\, 2026 | 7 – 9 September\, 2026
URL:https://smart-training-center.com/event/programmable-logic-controller-plc-principle-practice-trouble-shooting/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Electrical,Instrument and control,Maintenance
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/Programmable-Logic-Controller.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260428T083000
DTEND;TZID=Asia/Krasnoyarsk:20260430T160000
DTSTAMP:20260404T101721
CREATED:20241122T160451Z
LAST-MODIFIED:20260208T003315Z
UID:988-1777365000-1777564800@smart-training-center.com
SUMMARY:Quality Control Mesin Saat Pemeliharaan dan Overhaul
DESCRIPTION:Background & About the Course:\nOverhaul mesin adalah salah satu proses kritikal dalam pemeliharaan peralatan industri yang bertujuan untuk memastikan mesin beroperasi dalam kondisi optimal. Dalam proses ini\, setiap komponen mesin diperiksa\, dibongkar\, dan diperbaiki atau diganti sesuai kebutuhan. Quality control (QC) dalam pemeliharaan mesin saat overhaul menjadi faktor kunci untuk mencegah kerusakan lebih lanjut\, meningkatkan efisiensi\, dan memperpanjang umur mesin. \nKursus ini dirancang untuk memberikan pemahaman mendalam mengenai penerapan quality control dalam setiap tahap proses overhaul. Peserta akan mempelajari metode dan teknik inspeksi\, standar kualitas yang relevan\, serta praktik terbaik dalam mendokumentasikan dan mengevaluasi hasil overhaul. Dengan demikian\, peserta akan mampu meningkatkan keandalan dan performa mesin secara keseluruhan. \nCourse Objectives:\n\nMemahami prinsip-prinsip quality control dalam pemeliharaan mesin saat overhaul\nMengidentifikasi dan mengimplementasikan prosedur inspeksi yang sesuai\nMenguasai teknik pengujian dan pengukuran komponen mesin\nMampu mengevaluasi dan menganalisis hasil inspeksi\nMenyusun laporan dan dokumentasi overhaul yang efektif\nMeningkatkan keandalan dan efisiensi operasional mesin\n\nWho Should Attend:\n\nTeknisi dan engineer pemeliharaan\nSupervisor dan manajer pemeliharaan\nQuality control dan quality assurance personnel\nPersonel yang terlibat dalam proses overhaul mesin\n\nCourse Content:\n\nPengantar Quality Control dalam Overhaul Mesin\n\nDefinisi dan peran QC dalam overhaul\nTujuan dan manfaat QC dalam pemeliharaan\n\n\nPerencanaan dan Persiapan Overhaul\n\nPenyusunan jadwal dan sumber daya\nIdentifikasi area kritikal untuk inspeksi\nPersiapan alat dan metode inspeksi\n\n\nProsedur Inspeksi dan Pengujian\n\nTeknik inspeksi visual dan non-destruktif\nPengukuran dan pengujian toleransi komponen\nEvaluasi kondisi komponen mesin\n\n\nPenerapan Standar dan Spesifikasi\n\nStandar internasional dan nasional terkait QC\nImplementasi standar dalam proses overhaul\n\n\nDokumentasi dan Pelaporan\n\nPembuatan checklist dan laporan inspeksi\nDokumentasi temuan dan rekomendasi perbaikan\n\n\nEvaluasi dan Analisis Hasil Overhaul\n\nAnalisis data hasil inspeksi\nIdentifikasi akar penyebab masalah\nLangkah-langkah perbaikan berkelanjutan\n\n\nStudi Kasus dan Diskusi\n\nAnalisis kasus nyata dalam overhaul mesin\nDiskusi kelompok dan solusi praktis\n\n\n\n\n\nABOUT THE COURSE LEADER:\nIr. Deddy Nugraha and Team  \nIr. Deddy Nugraha\, menyelesaikan pendidikan sarjana dari Departemen 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 : 10 – 12 Agustus\, 2026 | 16 – 18 November\, 2026
URL:https://smart-training-center.com/event/quality-control-mesin-saat-pemeliharaan-dan-overhaul/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Electrical,Engineering,Instrument and control,Maintenance,Mechanical,Production Operation
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/Quality-Control-Saat-Pemeliharaan-Mesin-Saat-Overhaul.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260504T083000
DTEND;TZID=Asia/Krasnoyarsk:20260506T160000
DTSTAMP:20260404T101721
CREATED:20240924T035632Z
LAST-MODIFIED:20260209T072829Z
UID:348-1777883400-1778083200@smart-training-center.com
SUMMARY:Boiler Control & Burner Management System
DESCRIPTION:PENDAHULUAN:\nSistem Kontrol Boiler dan Manajemen Pembakaran merupakan komponen krusial dalam sektor industri yang mengandalkan boiler\, bertujuan untuk memastikan operasi yang aman\, efisien\, dan handal. Sistem ini dirancang untuk mengatur proses pembakaran serta mempertahankan performa optimal dari boiler. Memahami sistem kontrol ini sangat penting untuk mengurangi risiko kegagalan\, meningkatkan efisiensi energi\, serta memenuhi standar keselamatan dan lingkungan yang berlaku. \nMengapa Pelatihan Ini Penting?\nPelatihan ini ditujukan untuk memberikan wawasan yang mendalam tentang cara kerja sistem kontrol boiler dan manajemen pembakaran. Dalam pelatihan ini\, peserta akan mempelajari berbagai komponen utama\, metode pengendalian otomatis\, dan teknik manajemen risiko yang berkaitan dengan sistem pembakaran. Diharapkan setelah mengikuti pelatihan ini\, peserta dapat mengoperasikan\, memelihara\, dan menyelesaikan masalah dalam sistem dengan lebih efektif. \nTUJUAN:\nPeserta akan mampu untuk: \n\nMemahami keuntungan dari peningkatan kontrol proses boiler dan penghematan yang dihasilkan dari efisiensi yang lebih tinggi.\nMengembangkan dokumentasi yang sesuai untuk sistem kontrol.\nMenerapkan prinsip dan metode pengukuran aliran serta level untuk mengoptimalkan operasi boiler.\nMerumuskan strategi yang tepat untuk kontrol aliran\, level\, dan tekanan.\nMelakukan penyetelan pada sistem kontrol boiler.\nMengimplementasikan pengukuran analisis untuk meningkatkan efisiensi boiler.\nMenganalisis loop kontrol dasar yang diperlukan dalam operasi boiler.\nMenerapkan konsep kontrol seperti cascade\, rasio\, dan feedforward untuk pengendalian boiler.\nMenentukan interlock sistem keselamatan yang sesuai.\nMengevaluasi persyaratan proses dalam penulisan spesifikasi instrumen.\nMemahami penyebab utama terjadinya ledakan furnace.\nMenggunakan dokumentasi desain dan lembar aliran dengan tepat.\nMengidentifikasi kebutuhan peralatan untuk sistem gas\, minyak\, dan batubara halus.\nMemahami prosedur purging pra-pembakaran untuk sistem dengan satu atau beberapa burner.\nMengimplementasikan perlindungan terhadap kegagalan nyala pada sistem tertentu.\nMerancang sistem alarm\, interlock\, dan penghentian darurat yang efektif.\nMemahami fungsi dan penggunaan antarmuka operator\, burner front\, dan sistem logika.\n\nGARIS BESAR PELATIHAN:\n\nLoop kontrol dasar\nProses pembakaran bahan bakar\nAnalisis gas bahan bakar\nPermintaan pasokan uap dan laju pembakaran\nSistem kontrol feedwater\nSistem draft pada boiler\nKontrol pembakaran\nPeningkatan operasi menggunakan komputer dan analisis\nTeknologi terbaru yang muncul\nPenyebab terjadinya ledakan furnace\nSistem interlock dan alarm BMS\nSistem kontrol\nFilosofi desain sistem trip\nSistem elektronik yang dapat diprogram\nMengembangkan P&ID untuk boiler serta sistem gas\, minyak\, dan batubara halus\nMeninjau metode perhitungan efisiensi\nMenggunakan perangkat lunak komputer untuk mensimulasikan proses start-up dan shutdown boiler\, serta kontrol termasuk level drum dan kontrol bahan bakar cross-limiting\nMenyetel sistem kontrol boiler untuk efisiensi maksimal serta memahami dampak tuning tersebut.\n\nSIAPA YANG HARUS HADIR?\nPelatihan ini cocok untuk insinyur instrumentasi & kontrol\, insinyur operasi\, pengawas proses & utilitas\, manajer teknis\, serta personel pengendalian kualitas dan supervisi teknis yang terlibat dalam rekayasa sistem kontrol boiler dan manajemen pembakaran. \nAbout the Course Leader:\nIn Jumanda\, ST\, MT \nMr. Jumanda\, a dedicated lecturer\, has conducted nearly 280 training sessions (both public and in-house) for various industries\, with a strong focus on oil and gas companies since 1997. He holds both Bachelor’s and Master’s degrees in Chemical Engineering from the Institute Technology Bandung. In addition\, he has completed nine specialized courses in the oil and gas sector at PETEX (Petroleum Extension)\, University of Texas at Austin\, in Houston\, Texas\, USA\, in 2018. \nApart from his formal education\, Mr. Jumanda possesses numerous professional certifications. These include a Lecturer Certificate from the Indonesian Minister of Education\, Construction\, Electrical\, and Fire Protection Certificates from the HSE Association Indonesia. \nPublic Training berikutnya : 1 – 3 September\, 2026 | 2 – 4 Desember\, 2026
URL:https://smart-training-center.com/event/sistem-kontrol-boiler-dan-manajemen-pembakaran/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Maintenance,Power Generation
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/09/Boiler-Control-Burner-Management-Systema.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260504T083000
DTEND;TZID=Asia/Krasnoyarsk:20260506T160000
DTSTAMP:20260404T101721
CREATED:20240930T033632Z
LAST-MODIFIED:20260209T073126Z
UID:427-1777883400-1778083200@smart-training-center.com
SUMMARY:Asset Performance Management
DESCRIPTION:BACKGROUND & ABOUT THE COURSE:\n\nAsset performance management (APM) is a strategic approach to managing a company’s assets to maximizing their reliability\, availability\, efficiency and safety. When it comes to the nuts and bolts of industry success\, nothing quite matches the importance of Asset Performance Management. In a world where operational downtime is not an option\, ensuring your assets are running at peak performance isn’t just beneficial; it’s critical. Diving deep into making our equipment work better\, we’re exploring how predictive maintenance\, powered by data analytics\, keeps our machinery running smoothly and changes the game regarding taking care of our machines. \n\nTotal Productive Maintenance is a proactive asset maintenance system that focuses on keeping an organization’s equipment in optimum working conditions\, increasing equipment availability\, and avoiding breakdowns and delays in core processes. \nTherefore\, Asset performance management using TPM is one of the most applicable methods to manage the assets. \nTRAINING OBJECTIVES:\nTo equip those active in the management of productive and infrastructure assets with the knowledge\, skills and attitudes needed at the various stages in the life of an asset\, for optimizing the quality and quantity of asset outputs\, minimizing risk and use of inputs\, as required by the determined business plan. \nThe course will combine theoretical concepts and practical considerations to refine the understanding of: \n\nThe urgency of introducing Asset Operations Optimization in order to realize the full output potential of productive assets\, avoid unnecessary investment in new assets and maximize revenue;\nthe development of a dynamic asset maintenance plan; and\nThe knowledge\, understanding\, skills and attitude necessary to perform Asset Operations Optimization analyses;\nTo reduce losses and waste;\nthe possibility to harness the full potential of the workforce that results in achieving remarkable asset performance improvements by introducing operator-maintainer principles;\nthe power of the Overall Asset Effectiveness factor for single asset and processes for decision making.\n\nWHO SHOULD ATTEND:\nAsset Owners\, Managers\, Engineers\, Designers\, Planners\, Trades Persons\, Operators\, Finance Managers\, Safety Officers and all those who are eager to achieve sustainable improvement in Asset Operations Optimization (formerly Total Productive Maintenance) and return on investment \nCOURSE CONTENT: \n\nTotal Productive Maintenance (TPM) /Asset Operations Optimization\nHow to Identify Process or Assets\, Functions and Performance Standards\nWhat Are Losses\, Waste\, Causes\, Effects\, Detection\, Consequences and Criticalities\nWhat Is the Overall Asset Effectiveness Factor?\nHow to Eliminate Losses and Waste?\nWhat Is the Asset Operations Optimization Team Approach?\nWhat Asset Operations Optimization Analysis Sheets Can You Use?\nHow to Implement Asset Operations Optimization?\n\nABOUT THE COURSE LEADER:\nIr. Deddy Nugraha and team \nIr. Deddy Nugraha is a senior rotating engineer and Asset Reliability specialist. Graduated from Mechanical Engineering Department\, ITB (1990)\, and had advanced training in France and USA\, for Gas turbine maintenance and repair. He has extensive experienced in RCA and trouble shooting for Turbomachinery Equipments\, also Reliability philosophy and SERIP instructor in Chevron- Riau. He is general secretary for Indonesian Reliability Society (ISR) and KMI. \nMany consulting works has been conducted including in PT. Indonesia Power (Tambak Loro\, Suralaya\, Perak)\, PT. IPMOMI Paiton\, and\, PT. PGN SBU TSJ and PT. Pertamina Gas\, PT. HKS Humpus\, and PT. Vale Indonesia. Operational excellence at PGN and railway safety management  at ministrer of transportation. Reliability Data colection in Geothermal Powerplant Kamojang. \nPublic Training berikutnya : 7 – 9 September\, 2026 | 2 – 4 Desember\, 2026
URL:https://smart-training-center.com/event/asset-performance-management-with-tpm/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Engineering,Maintenance,Manajemen,Production Operation
ATTACH;FMTTYPE=image/png:https://smart-training-center.com/wp-content/uploads/2024/09/123.png
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260504T083000
DTEND;TZID=Asia/Krasnoyarsk:20260506T160000
DTSTAMP:20260404T101721
CREATED:20241122T101948Z
LAST-MODIFIED:20260210T042541Z
UID:903-1777883400-1778083200@smart-training-center.com
SUMMARY:Flow Assurance for Pipeline System
DESCRIPTION:About the Course:\nFlow Assurance for Pipeline System adalah kursus yang memberikan pemahaman mendalam tentang fenomena aliran yang dapat membantu peserta menghindari masalah seperti pembentukan hidrat\, gelombang tekanan (surge)\, atau kegagalan aliran cairan dengan viskositas tinggi. Kursus ini dirancang untuk mengatasi tantangan operasional yang sering dihadapi dalam pengelolaan pipa\, seperti korosi\, slugging\, deposisi lilin\, dan multiphase fluids. Dengan memahami penyebab dan solusi yang tersedia\, peserta dapat meningkatkan keandalan sistem pipa mereka serta memastikan kelancaran operasional. \nKursus empat hari ini berfokus pada aspek-aspek penting dalam operasi pipa\, termasuk pencegahan dan mitigasi masalah flow assurance. Peserta akan mempelajari pendekatan desain dan solusi operasional untuk mengatasi berbagai tantangan\, dengan penekanan pada aplikasi praktis dan studi kasus nyata. \nCourse Objectives:\n\nMenilai perilaku fisik dari tantangan utama flow assurance: korosi\, pembentukan hidrat\, perilaku transien\, dan deposisi lilin.\nMengevaluasi integritas mekanis pipa.\nMengevaluasi efektivitas operasi pigging dan sistem deteksi kebocoran.\n\nWho Should Attend:\n\nTeknisi dan Engineer Instrumentasi\nDesign & Process Engineers\nOperation Engineers\nTim Uji Sumur (Well Testing Group)\nProduction Operation\nReservoir Engineers & Technicians\nSuperintendent & Supervisor Pemeliharaan\n\nCourse Content:\n\nIntroduction to Oil and Gas Fluid Transport Properties\nOverview of fluid transport fundamentals in pipeline systems.\nFluid Property Data and Phase Determination\nUnderstanding fluid characteristics and phase identification.\nSingle and Multiphase Fluid Flow Analysis\nTechniques for analyzing single and multiphase fluid flow.\nSlug Formation and Prediction\nIdentification and prediction of slug formation in pipelines.\nSurge Analysis\nUnderstanding surge phenomena and mitigation strategies.\nCorrosion (Internal and External)\nExamination of corrosion types and prevention methods.\nHydrate Formation and Prevention\nStrategies to mitigate hydrate formation in pipelines.\nWax Formation and Deposition\nMethods to prevent and remediate wax buildup.\nAsphaltene Prediction\, Scale Precipitation\, and Sand Production\nAnalysis of potential solid formation and its impact on pipelines.\nPigging Operations\nTechniques for pipeline cleaning and maintenance.\nLeak Detection Methods and DCS (Distributed Control Systems)\nModern approaches to leak detection\, replacing outdated SCADA with advanced DCS systems. Includes startup/shutdown considerations.\n\nABOUT THE COURSE LEADER:\nProf. Endra Joelianto\, Ir.\, Ph.D.\, SMIEEE: Control Engineering Expert \nProf. Endra Joelianto\, Ir.\, Ph.D.\, SMIEEE is an expert in control engineering. His prominent research areas include Hybrid Control Systems\, Discrete Event Control Systems\, Petri Nets Analysis and Applications in PLC\, Robust PID Controller\, Advanced Process Control\, and Industrial Automation using PLC/DCS. He earned his first degree (Ir.) in Engineering Physics from ITB in 1990 and a Ph.D. in Control Engineering from The Australian National University in 2001. \nCurrently\, Prof. Endra serves as the Coordinator of Intelligent Control and Automation and is the founder of the PLC Research Group at the Instrumentation and Control Laboratory (LINK)\, Department of Engineering Physics\, ITB. He also established and directed the Schneider-OMRON PLC Training Center at Maranatha Christian University\, Bandung\, collaborating with PT. Schneider Electric Indonesia\, PT. OMRON Corporation Japan\, and Invensys WONDERWARE. \nHe has led various training projects\, including the TPSDP Retooling Program Batch II-DIKNAS in 2004 for the “Industrial Automation Using PLC” training program and similar projects in 2005 at ITB focusing on PLC for Industrial Control and Automation. Prof. Endra has also attended multiple professional training programs on PLC\, DCS\, and Instrument Calibration\, such as Fieldbus Foundation Technology in Singapore (2002) and Advanced Process Control by ASPEN Tech.\, Jakarta (2005). \nAs an instructor\, Prof. Endra has conducted training sessions for universities\, public audiences\, and in-house corporate programs. His expertise has benefited institutions and companies in sectors like petrochemicals\, oil and gas\, and cement production. These include PT. Pupuk Kujang\, PT. Semen Gresik\, PT. Petrokimia Gresik\, Pertamina\, British Petroleum\, and Indonesia Power-Paiton\, among others. Prof. Endra is widely recognized for his contributions to advancing industrial automation and process control in Indonesia. \nPublic Training berikutnya : 5 – 7 Oktober\, 2026 | 9 – 11 Desember\, 2026
URL:https://smart-training-center.com/event/flow-assurance-for-pipeline-system/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Engineering,Maintenance,Production Operation
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/Flow-Assurance-for-Pipeline-System-1.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260504T083000
DTEND;TZID=Asia/Krasnoyarsk:20260506T160000
DTSTAMP:20260404T101721
CREATED:20241122T160336Z
LAST-MODIFIED:20260210T041056Z
UID:965-1777883400-1778083200@smart-training-center.com
SUMMARY:Gas Turbine & Compressor Operation & Maintenance
DESCRIPTION:Background & About the Course:\nGas turbines and compressors play a crucial role in power generation\, oil and gas\, and petrochemical industries. Their efficient operation is vital for maximizing performance\, ensuring reliability\, and reducing downtime. Proper maintenance and understanding of these systems are essential for preventing costly failures and extending equipment life. \nThis training course is designed to provide participants with a thorough understanding of gas turbine and compressor systems\, covering their operational principles\, component functions\, and maintenance strategies. By mastering these areas\, participants will enhance their ability to troubleshoot issues\, optimize performance\, and ensure safe and cost-effective operations. \nCourse Objectives:\n\nGain comprehensive knowledge of gas turbine technology\, including thermodynamics\, design\, and component functions\nDevelop skills in diagnosing failures and conducting root cause analysis\nEnhance understanding of gas turbines used in gas plants and their applications\nImprove proficiency in the operation and maintenance of compressors within turbine systems\nLearn best practices for ensuring system reliability\, safety\, and performance\n\nWho Should Attend:\n\nMaintenance Engineers\, Superintendents\, and Supervisors\nRotating Equipment Engineers and Supervisors\nPower Plant Engineers and Operators\nProfessionals seeking to expand knowledge of gas turbines and compressors\n\nCourse Content:\n\nIntroduction to Gas Turbines\n\n\nHistory and Applications in Oil and Gas\n\n\nBrayton Cycle and Thermodynamics\nGas Turbine Design and Components\nOperational Principles and Engine Design\nDetailed Component Analysis:\n\n\nCompressor Section\nDiffuser and Combustor\nTurbine and Exhaust Systems\n\n\nAuxiliary Systems and Accessories\n\n\nBearings\, Seals\, and Lubrication Systems\nIgnition and Fuel Systems\n\n\nCombustion Principles in Gas Turbines\n\n\nNatural Gas Heating Values (LHV/HHV)\nStoichiometric Combustion and Emissions\nCooling Technologies and Coating Applications\n\n\nGas Turbine Compressor Operations\n\n\nEnergy Conversion and Pressure Management\nSurge and Stall Phenomena\nSurge Control (IGV and Bleed Valve Systems)\n\n\nTurbine Operations and Energy Conversion\n\n\nBlade Function\, Cooling\, and Coating Technologies\nFailure Analysis and Preventive Maintenance\n\n\nGas Turbine Control and Monitoring\n\n\nFuel\, IGV\, and Lubrication Control Systems\nOperational Strategies for Power Generation and Gas Compression\n\nABOUT THE COURSE LEADER:\nCecep Slamet Abadi\, ST.\, M.T 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). 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 : 8 – 10 September\, 2026 | 9 – 11 November\, 2026
URL:https://smart-training-center.com/event/gas-turbine-compressor-operation-and-maintenance/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Engineering,Maintenance,Mechanical
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/Gas-Turbine-Compressor-Operation-Maintenance-1.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260504T083000
DTEND;TZID=Asia/Krasnoyarsk:20260506T160000
DTSTAMP:20260404T101721
CREATED:20241122T160437Z
LAST-MODIFIED:20260210T043657Z
UID:985-1777883400-1778083200@smart-training-center.com
SUMMARY:Medium Voltage (MV) Electric Switchgear & Circuit Breaker
DESCRIPTION:Background & About the Course:\nMedium Voltage (MV) electric switchgear and circuit breakers are essential components in electrical power systems\, providing protection and control for electrical networks. Proper understanding and maintenance of these systems are critical to ensuring operational reliability\, safety\, and efficiency. With the rapid advancements in MV switchgear technology\, professionals need to stay updated on the latest standards\, practices\, and troubleshooting techniques. \nThis three-day training program is designed to provide participants with a thorough understanding of MV electric switchgear and circuit breakers. The course combines theoretical knowledge with practical insights\, enabling participants to identify key components\, understand their functions\, and carry out maintenance and troubleshooting effectively. Through interactive discussions and case studies\, participants will enhance their technical capabilities and ensure compliance with safety standards. \nCourse Objectives:\n\nUnderstand the fundamentals of MV switchgear and circuit breaker operations.\nIdentify and explain the functions of key components.\nConduct inspections\, maintenance\, and troubleshooting of MV systems.\nEnsure compliance with relevant safety standards and regulations.\nOptimize the performance and reliability of MV switchgear systems.\n\nWho Should Attend:\n\nElectrical engineers and technicians involved in power systems.\nMaintenance and operations personnel handling MV equipment.\nProject managers overseeing electrical installations.\nSafety officers ensuring compliance in electrical systems.\nAnyone seeking to deepen their knowledge of MV switchgear and circuit breakers.\n\nCourse Content:\n\nIntroduction to Medium Voltage Systems\n\nOverview of MV systems in power distribution\nRole and importance of switchgear and circuit breakers\n\n\nComponents of MV Switchgear\n\nTypes of MV switchgear (AIS\, GIS\, etc.)\nKey components: busbars\, disconnectors\, CTs\, VTs\n\n\nCircuit Breaker Fundamentals\n\nTypes of MV circuit breakers (vacuum\, SF6\, air-insulated)\nOperating principles and selection criteria\n\n\nProtection and Control Systems\n\nRelays and protection schemes\nAutomation and control in MV systems\n\n\nInspection and Maintenance\n\nRoutine inspection procedures\nPreventive and predictive maintenance techniques\n\n\nTroubleshooting MV Switchgear and Circuit Breakers\n\nCommon issues and their causes\nDiagnostic tools and techniques\n\n\nSafety and Compliance\n\nElectrical safety standards and best practices\nArc flash protection and risk mitigation\n\n\nCase Studies and Practical Applications\n\nAnalysis of real-world scenarios\nHands-on exercises and simulations\n\n\n\n\n\nABOUT THE COURSE LEADER:\nSupriyanto\, S.T.\, M.T\n  \nPublic Training berikutnya : 5 – 7 Oktober\, 2026
URL:https://smart-training-center.com/event/medium-voltage-mv-electric-switchgear-circuit-breaker/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Electrical,Engineering,Maintenance
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/Medium-Voltage-Electric-Switchgear-Circuit-Breaker.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260505T083000
DTEND;TZID=Asia/Krasnoyarsk:20260507T160000
DTSTAMP:20260404T101721
CREATED:20241122T100848Z
LAST-MODIFIED:20260210T044403Z
UID:889-1777969800-1778169600@smart-training-center.com
SUMMARY:Failure Mode and Effect Analysis
DESCRIPTION:BACKGROUND:\nFailure Mode and Effect Analysis (FMEA) adalah metode sistematis yang digunakan untuk mengidentifikasi potensi kegagalan dalam proses atau produk\, mengevaluasi dampaknya\, dan menentukan tindakan pencegahan yang tepat. FMEA membantu mengurangi risiko kegagalan\, menekan biaya\, serta meningkatkan kualitas dan keandalan produk. Selain itu\, FMEA berfungsi sebagai alat dokumentasi yang berharga untuk perbaikan berkelanjutan dan inovasi. \nOBJECTIVES:\nSetelah mengikuti Training ini peserta akan memahami konsep-konsep FMEA\, mengembangkan kemampuan untuk melakukan FMEA dan menyusun rencana control yang efektif untuk proses produksi. \n\nMemahami prinsip dasar dan konsep FMEA.\nMelakukan identifikasi dan evaluasi potensi kegagalan pada proses dan produk.\nMenyusun rencana kontrol untuk mengurangi risiko dan mencegah kegagalan.\nMengembangkan strategi perbaikan berkelanjutan berbasis hasil FMEA.\nMeningkatkan efisiensi dan kualitas produksi melalui analisis risiko.\n\nRECOMMENDED PARTICIPANTS:\n\nManager dan Supervisor dari departemen (R&D)\, Engineering\, Production & Q-HSE\nTim proyek yang terlibat dalam proses perbaikan kualitas dan pengembangan produk.\nProfesional yang bertanggung jawab atas pengelolaan risiko operasional.\n\nCOURSE OUTLINE:\n\n Pengenalan dan Konsep Dasar FMEA\n\n\nDefinisi\, tujuan\, dan manfaat FMEA.\nTipe-tipe FMEA (Design FMEA dan Process FMEA).\n\n\n Persiapan Pelaksanaan FMEA\n\n\nIdentifikasi proses yang berisiko tinggi.\nPembentukan tim FMEA dan peran masing-masing anggota.\n\n\n Penentuan Proses Berisiko dan Pembentukan Tim\n\n\nIdentifikasi proses kritis yang memerlukan analisis lebih lanjut.\nPemilihan sumber daya dan alat bantu yang diperlukan.\nPenyusunan rencana pengendalian awal.\n\n\n Penyusunan Diagram Proses dan Brainstorming Failure Modes\n\n\nPembuatan diagram alur proses.\nIdentifikasi potensi kegagalan dan analisis dampaknya.\n\n\n Penentuan Prioritas Failure Modes\n\n\nPenilaian tingkat keparahan (Severity)\, frekuensi kejadian (Occurrence)\, dan deteksi (Detection).\nPerhitungan Risk Priority Number (RPN).\nPenentuan tindakan berdasarkan prioritas RPN.\n\n\n Identifikasi Akar Penyebab Masalah (Root Cause Analysis)\n\n\nPenggunaan teknik RCA (Root Cause Analysis).\nIdentifikasi faktor penyebab utama.\nAlat bantu RCA (5 Why\, Fishbone Diagram\, dll.).\n\n\n Perancangan Ulang Proses\n\n\nPengembangan solusi untuk mengurangi risiko.\nDokumentasi rencana tindakan.\n\n\n Implementasi dan Pengujian Rancangan Ulang\n\n\nPengorganisasian implementasi.\nPenerapan siklus Plan-Do-Study-Act (PDSA).\nPengujian dan verifikasi proses baru.\n\n\n Pengawasan dan Monitoring Proses Baru\n\n\nEvaluasi efektivitas rancangan ulang.\nPenyempurnaan berkelanjutan melalui pengawasan rutin.\n\n\n Penyusunan Plan of Action\n\n\nPenyusunan rencana kerja tindak lanjut.\nTinjauan dan perbaikan berkelanjutan berdasarkan hasil evaluasi.\n\n  \nABOUT THE COURSE LEADERS:\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 \nPublic Training berikutnya : 21 – 23 September\, 2026 | 7 – 9 Desember\, 2026
URL:https://smart-training-center.com/event/failure-mode-and-effect-analysis-fmea/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Engineering,Maintenance,Mechanical,Project,Q-HSE
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/failure-mode-effect-analysis-fmea.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260511T080000
DTEND;TZID=Asia/Krasnoyarsk:20260512T170000
DTSTAMP:20260404T101721
CREATED:20260210T091256Z
LAST-MODIFIED:20260210T091256Z
UID:2548-1778486400-1778605200@smart-training-center.com
SUMMARY:Compressors and Dry Gas Seal System Operation & Maintenance
DESCRIPTION:Overview:\nCompressors play a critical role in oil & gas\, petrochemical\, power generation\, and process industries\, where reliable gas compression is essential for production continuity\, efficiency\, and safety. Modern compressor packages operate at high speed\, high pressure\, and increasingly stringent environmental requirements\, making sealing systems a key element in overall compressor reliability. Dry gas seal technology has become the industry standard for centrifugal and high-performance compressors due to its ability to minimize gas leakage\, reduce friction losses\, eliminate oil contamination\, and support emission control targets. Compared to traditional sealing methods\, dry gas seals require a deeper understanding of gas dynamics\, pressure management\, seal support systems\, and operating discipline to ensure long-term reliability. Compressors and Dry Gas Seal System Operation & Maintenance is now become one package in plant operation. \nThis course provides a comprehensive understanding of compressor operation and dry gas seal systems from both operational and maintenance perspectives. Participants will gain insight into compressor mechanical design\, performance behavior\, surge phenomena\, and interaction with instrumentation and control systems\, followed by in-depth coverage of dry gas seal principles\, operation\, installation\, commissioning\, and maintenance practices. Emphasis is placed on practical field experience\, troubleshooting logic\, and real operational challenges commonly encountered in compressor and dry gas seal applications. \nTraining Objectives:\n– Understand basic principle of gas turbine (Brayton Cycle)\n– Basic Knowledge of Package Systems\n– Operational Knowledge of the component interacts in the overall operational sequence of the system\n– Logical and Analytical approach to fault diagnostic.\n– Simulation using Historical Analyzer Tools TT 4000.\n– Sharing knowledge of workshop and field troubleshooting \n\n\nRecommended Participants:\nThis course is designed for personnel involved in the compressors and dry gas systems operation; Maintenance\, Engineering & Operation. \n\n\nCourse Outline:\n\nCompressor Types (Mechanical): Axial\, Radial\, Reciprocating\nGas Compressor Evolution (Mechanical): 1st Generation – 3rd Generation & further\nGas Compressor Components (Mechanical): Rotor\, Stator\nGas Compressor Performance (Operation\, Instrument dan Mechanical): Head\, Flow\, Efficiency\, Performance map\nCompressor Surge (Operation\, Instrument and Mechanical): Vaneless Diffuser\, Rotating stall\, Surge line Surge control system layout dan alarm hingga troubleshooting.\nRestage Summary (Operation\, Instrument dan Mechanical): Add impellers\, Re-stage to small impellers\, Re-stage to large impellers\, Remove impellers\nCompressor Maintenance: Modular design\, Module Rotor\, Module Assembly\, Overhaul\nCompressors and Dry Gas Seal Systems: Radial Seals\, Mechanical Contact Seals\, Dry Gas Seals\, Magnetic Bearings and Oil-Free Compressors\nIntroduction to Dry Gas Seals: Principle of Operation\, Materials of Construction\, Manufacturing and Verification Testing\nDry Gas Seal Operation and Maintenance: Installation\, Commissioning\, Operation and Maintenance\nWorkshop Visit & Practice\n\n\n\nAbout The Course Leader:\nKurniawan M. Rifa’i & 2. Irwansyah Syahnil\, ST – Field Practitioners \nPublic Training berikutnya : 7 – 8 September\, 2026 | 9 – 10 November\, 2026
URL:https://smart-training-center.com/event/compressors-and-dry-gas-seal-system-operation-maintenance/
LOCATION:Tangerang\, Indonesia
CATEGORIES:Engineering,Maintenance
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260511T080000
DTEND;TZID=Asia/Krasnoyarsk:20260513T170000
DTSTAMP:20260404T101721
CREATED:20260211T054826Z
LAST-MODIFIED:20260211T054826Z
UID:2556-1778486400-1778691600@smart-training-center.com
SUMMARY:Electrical Power Distribution & Protection System
DESCRIPTION:Background:\nSistem distribusi dan proteksi tenaga listrik merupakan tulang punggung keandalan operasi industri dan fasilitas pembangkitan. Electrical Power Distribution & Protection System berfungsi menyalurkan energi listrik secara aman\, efisien\, dan kontinu dari sumber ke berbagai beban. Keandalan sistem ini sangat bergantung pada kemampuan design engineer\, operator\, dan electrical engineer dalam memahami karakteristik beban\, parameter sistem\, koordinasi proteksi\, serta aspek keselamatan dan grounding. Pemahaman mendalam terhadap prinsip dasar sistem distribusi dan proteksi menjadi fondasi untuk menjaga stabilitas suplai listrik dan mencegah kerusakan peralatan akibat gangguan listrik. Pelatihan Advance Electrical Power Distribution & Protection System dirancang sebagai program tingkat lanjut (advance) yang berbeda dari pelatihan pengantar. Fokusnya bukan sekadar pada teori dasar\, tetapi pada analisis sistem secara menyeluruh\, studi kasus nyata\, simulasi software\, dan implementasi automasi proteksi modern seperti SCADA dan relay coordination. \nKelas lanjutan ini dibutuhkan karena sistem tenaga listrik saat ini semakin kompleks\, melibatkan integrasi perangkat digital\, monitoring real-time\, dan tuntutan efisiensi energi yang tinggi. Engineer dan supervisor yang telah memahami konsep dasar perlu menguasai pendekatan analitis dan praktis tingkat lanjut agar mampu melakukan diagnosis\, optimasi\, dan pengambilan keputusan teknis secara akurat dalam pengelolaan sistem distribusi dan proteksi tenaga listrik. \nObjectives:\nLevel Perusahaan: \n\nMembantu perusahaan membuat kebijakan untuk mengembangkan dan mengelola sistem proteksi dan distribusi tenaga listrik sesuai dengan standar dan peraturan yang berlaku.\nMembantu perusahaan dalam hal membuat Keputusan yang tepat pada saat pada saat kegiatan perencanaan\, tindakan pencegahan dan pemeliharaan berdasarkan diagnosis dari sistem proteksi dan distribusi tenaga listrik yang diperlukan.\nMembantu perusahaan dalam hal memahami penyebab kegagalan sistem\, memahami sarana yang tersedia untuk pemulihan sehingga pengelolaan dan operasi sistem akan lebih baik.\n\nUntuk Peserta: \nMemahami dan Mengimplemantasikan: \n\nKonsep sistem proteksi dan distribusi tenaga listrik\nPerhitungan dan parameter pada sistem distribusi tenaga listrik\nKualitas daya dan harmonik serta dampaknya pada sistem proteksi dan distribusi.\nPrinsip sistem proteksi sehingga akan mampu menganalisis ketika terjadi gangguan dalam sistem distribusi tenaga listrik.\nPrinsip sistim otomasi dalam sistem proteksi dan distribusi tenaga listrik\nSalah satu software yang digunakan untuk menganalisis sistem proteksi dan distribusi.\nSafety dan Grounding sehingga terhindar dari bahaya kecelakaan kerja.\nKepercayaan diri kepada peserta dalam melaksanakan kegiatan terkait sistem proteksi dan distribusi tenaga listrik dengan menjamin keselamatan dan kesehatan Kerja.\n\n\n\nRecommended Participants:\nEngineer\, Technician\, Electrical Supervisor dan Staf Teknis yang menangani atau berurusan dengan pekerjaan yang berhubungan dengan sistem proteksi dan distribusi tenaga listrik. \nCourse Outline:\n\n\nIntroduction to Electrical Power Distribution System:\n\nIntroduction to Power System\nParameter of Power Distribution Systems\nComponent of Power Distribution Systems\nCalculation of Power Distribution System\n\nIntroduction to Protection System: Theory and Case Study:\n\nPrinciple of Unit Protection System\nPrinciple of Over current protection\nPrinciple of Differential protection\nPrinciple of Relay Coordination\n\nPower Quality and Harmonic in Power Distribution System:\n\nTheory and Case Study\nIntroduction to Power Quality\nParameter of Power Quality\nHarmonics\nHarmonics Effect on Power Distribution and Protection System.\n\nSafety and Grounding in Power Distribution System: Theory and Case Study:\n\nElectrical Safety\nEquipment Grounding System\n\nPower Distribution Networks and Engineering Construction:\n\nApplied Electrical and Mechanical Calculations\nReliability of Distribution Continuity and Low Voltage Distribution\nEarthing in Distribution Grid Construction\nProtecting Device of Electrical and Electronic Systems\n\nBreaker in Power Distribution & Protection System:\n\nIntroduction to Substation\nFuse\nCircuit Breaker\nLoad Break Switch\nRecloser\n\nProtection System of Power Transformer:\n\nPrinciple of Power Transformer Protection\nDifferential Relay\nRestricted Earth\nFault (REF) Relay\nOver Current Relay\nGround Fault Relay\nStandby Earth Fault (SBEF) Relay\nBuchholz relay\n\nGrounding and Bonding in Power Distribution and Protection System:\n\nIntroduction\, General Requirements for Grounding and Bonding\nGrounding Electrode Systems\, Grounding Method and equipment\nConductor Size and Fusing Current Calculation\nPersonal Safety & Principles of core balance protection\n\nElectricity Substation Automation in Power Distribution System:\n\nIntroduction to Electricity Substation Automation\nSCADA in Power Distribution System: Principle of Real Time Monitoring\, remote control\, Data Recording\, etc.\nSCADA Implementation in Distribution Substations: Integration with Equipment\, how to SCADA is integrated with equipment such as RTUs\, PLCs\, and protection equipment.\n\nSoftware Simulation of Case Study in Electrical Power Distribution and Protection System:\n\nSystem Modeling\, create a One-Line Diagram\, Input Data and Define Buses and Branches.\nLoad Flow Analysis: Run Load Flow\, Analyze Results\,\nShort-Circuit Analysis: Perform Fault Analysis\, Calculate Fault Current.\nRelay Coordination: Model Protection Devices\, Analyze\nRelay Coordination\, Adjust Relay Settings\nOptimization and Validation: Optimize System\nPerformance\, Validate Protection System\, Consider\nReal-Time Operations\n\n\n\nAbout The Course Leader\nSupriyanto\, S.T.\, M.T\n\n  \nPublic Training berikutnya : 9 – 11 September\, 2026 | 9 – 11 November\, 2026
URL:https://smart-training-center.com/event/electrical-power-distribution-protection-system/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Electrical,Engineering,Maintenance
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260511T083000
DTEND;TZID=Asia/Krasnoyarsk:20260513T160000
DTSTAMP:20260404T101721
CREATED:20241122T061741Z
LAST-MODIFIED:20260210T080643Z
UID:841-1778488200-1778688000@smart-training-center.com
SUMMARY:Lock Out Tag Out (LOTO)
DESCRIPTION:Background & About the Course\nTag Out & Lock Out (LOTO) is a safety procedure designed to protect workers from potential hazards caused by the unexpected release of energy during the maintenance or repair of equipment. LOTO is essential not only for electrical teams but also for production\, operation\, maintenance\, and instrumentation teams\, as every system in the oil and gas industry has a high potential for energy hazards. \nHowever\, LOTO implementation is often inconsistent or poorly understood across various disciplines\, which can lead to incidents that jeopardize worker safety and the environment. This training is designed to provide practical and in-depth understanding of LOTO procedures applicable across various operational fields. \nCourse Objectives\nParticipants will be able to: \n\nUnderstand the fundamental principles and regulations underlying LOTO procedures.\nIdentify potential energy hazards in a cross-disciplinary work environment.\nMaster the practical application of LOTO procedures for all operational systems\, including production\, maintenance\, electrical\, and instrumentation.\nEnsure workplace safety through a uniform understanding among operations and maintenance teams.\nFoster a strong safety culture through consistent and effective LOTO implementation.\n\nWho Should Attend\nThis training is recommended for: \n\nProduction and Equipment Operators\nMaintenance Technicians\nElectrical Engineers and Technicians\nInstrumentation Engineers and Technicians\nOperations\, Maintenance\, and Safety Supervisors or Managers\nMembers of the Health\, Safety\, and Environment (HSE) Team\n\nCourse Content\n\nLegal Framework and Regulations Supporting LOTO:\n\n\nOSHA 1910.147 and other relevant standards.\n\n\nConcept of Hazardous Energy and Its Identification:\n\n\nMechanical\, electrical\, hydraulic\, pneumatic\, thermal\, and chemical energy.\n\n\nFundamental Principles of Tag Out & Lock Out.\nDifferences in LOTO Procedures for Electrical\, Operational\, and Instrumentation Systems.\nIdentification of Appropriate LOTO Equipment and Devices.\nProcedural Steps for LOTO:\n\n\nPreparation\, locking\, tagging\, verification\, and release.\n\n\nSimulation of LOTO Application on Various Systems:\n\n\nProduction systems\, mechanical systems\, and electrical panels.\n\n\nHandling LOTO in Emergency or Special Situations.\nThe Role of Cross-Disciplinary Team Communication in Ensuring Successful LOTO Implementation.\nAudit and Inspection of LOTO Implementation:\n\n\nChecklists and compliance reporting.\n\n\nCase Studies of LOTO-Related Incidents:\n\n\nCauses\, impacts\, and mitigation steps.\n\n\nGroup Practice Exercises for LOTO Application in Different Work Environments.\nDeveloping a Safety Culture Through LOTO.\n\nAbout the Course Leader:\nIr. H. Irawadi Prihaswan\, MK3\, Dipl. Geoth is a professional practitioner with over 30 years of experience in diverse working environments\, including oil and gas\, geothermal\, and mining. His dedication to Health & Safety Management began in 1999\, and he has served as the Manager of Emergency Response at Chevron in Balikpapan and Pekanbaru since 2009. Currently\, he holds an advisory position in HSE at a well-known geothermal company\, reporting to the VP of Operations & Maintenance. \nMr. Irawadi is responsible for the development and rollout of Emergency Response Plans (ERP) and Emergency Control Systems (ECS) in his organization. He graduated from Gajah Mada University in 1986 and obtained a diploma in New Zealand. He earned his Master’s degree in Occupational Health & Safety from the University of Indonesia in 2007. \nThroughout his career\, he has also served as an internal trainer on health and safety matters\, sharing his knowledge and skills with the community. \nPublic Training berikutnya : 9 – 11 September\, 2026 | 10 – 12 November\, 2026
URL:https://smart-training-center.com/event/lock-out-tag-out-loto/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Electrical,Maintenance,Mechanical,Production Operation,Q-HSE
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/Lock-Out-Tag-Out-loto.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260511T083000
DTEND;TZID=Asia/Krasnoyarsk:20260513T160000
DTSTAMP:20260404T101721
CREATED:20241122T161851Z
LAST-MODIFIED:20260211T035219Z
UID:1014-1778488200-1778688000@smart-training-center.com
SUMMARY:Operasi Coal Handling PLTU Batubara
DESCRIPTION:Background & About the Course\n\n\nEffective coal handling operations at coal-fired power plants (PLTU) are crucial for the sustainability of power generation and the national electricity supply. While coal is not as flammable as liquid fuels\, it still requires special handling due to its solid form. \nCoal remains a widely used fuel source in the industry due to its relative affordability. The handling equipment must be appropriately designed to manage coal from its arrival\, through stockpiling\, to its introduction into the combustion process. \nCourse Objectives\nBy participating in this training\, participants are expected to: \n\nUnderstand the background and operational procedures for coal handling.\nOperate conveyor equipment for coal loading and unloading in accordance with standard operating procedures (SOP).\nPractice safe work behaviors and maintain environmental friendliness in coal handling operations.\n\nWho Should Attend\nThis training is recommended for: \n\nCoal-fired power plant operators\nHSE (Health\, Safety\, and Environment) teams\nSupply chain teams\nMarine or trucking teams involved in coal transportation\nMaintenance teams that may interact with solid fuel over time\n\nCourse Content\n\nCoal Handling Equipment:\n\n\nBelt Feeder & Conveyor\nJunction House\nCrusher\nMagnetic Separator\nBelt Weigher\nCoal Sampler\nStacker Reclaimer\nShip Unloader\nTripper\nDust Collector & Suppression\nShuttle/Feed Adjuster\n\n\nCoal Handling Operation Procedure\nCoal Handling Operation Principles:\n\n\nStart Preparation\nStarting Operation\nMaintenance Procedures\nMonitoring\nStopping Procedures\n\n\nSHE (Safety\, Health\, and Environment) Aspects to Consider:\n\n\nEnvironmental quality standards\nSafety aspects related to coal handling\n\nABOUT THE COURSE LEADER:\nMaridjo\, Drs\, S.T.\, M.T  \nMaridjo\, Drs\, S.T.\, M. T.\, adalah alumni dari 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\, 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. \nPublic Training berikutnya : 15 – 17 September\, 2026 | 14 – 16 Desember\, 2026
URL:https://smart-training-center.com/event/operasi-coal-handling-pltu-batubara/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Maintenance,Mechanical,Power Generation
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/Operasi-Coal-Handling-PLTU-Batubara.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260513T083000
DTEND;TZID=Asia/Krasnoyarsk:20260515T160000
DTSTAMP:20260404T101721
CREATED:20241122T102927Z
LAST-MODIFIED:20260212T073832Z
UID:918-1778661000-1778860800@smart-training-center.com
SUMMARY:Heat Exchanger\, Design\, Operation & Maintenance
DESCRIPTION:BACKGROUND & ABOUT THE COURSE:\nHeat Exchanger\, Design\, Operation & Maintenance often performed by others as one package subcontracting services. Although\, Heat exchangers play a critical role in industrial processes\, enabling efficient heat transfer between fluids to maintain optimal operating conditions. Proper design\, operation\, and maintenance of heat exchangers are essential to ensuring their reliability\, maximizing efficiency\, and minimizing energy consumption. Neglecting these aspects can result in reduced performance\, increased energy costs\, and potential system failures. \nThis training program is designed for the owner representative\, to provide a comprehensive understanding of heat exchanger systems\, focusing on their design principles\, operational best practices\, and maintenance requirements. By addressing real-world challenges and solutions\, the program aims to enhance participants’ ability to troubleshoot\, optimize performance\, and ensure the longevity of these vital components. \nTRAINING OBJECTIVES:\n\nUnderstand the fundamental principles of heat exchanger design and their application in industrial processes.\nGain knowledge of different types of heat exchangers and their suitability for various operational needs.\nDevelop proficiency in planning and executing maintenance strategies to enhance the reliability and lifespan of heat exchangers.\nAcquire skills to diagnose and troubleshoot common heat exchanger issues to prevent system downtime.\nExplore innovative technologies and materials used in modern heat exchanger systems for improved performance.\nLearn best practices for operating heat exchangers to maximize efficiency and reduce energy consumption.\n\nWHO SHOULD ATTEND:\n\nPlant Process Engineer\nMaintenance Engineer\nMechanical and Design Engineer\nProduction Engineer\nEverybody or professional who wants to broaden knowledge or gain benefits of the course subject post test will be given.\n\nCOURSE CONTENT:\n\nFundamental of heat transfer and fluid mechanic theory\, Concept and basic principles of thermodynamics\nGeneral heat exchanger types and components\nMaterial selection based on standard of ASTM\nBasic design of heat exchanger\nHeat Exchanger design development\nCharacteristic and classification of heat exchanger\nApplicable standard for design and calculation of heat exchanger\nSelection of heat exchanger based on is study\nShell and Tube\, Cooling tower\nPerformance of heat exchanger\nMaintenance program\nOperation and troubleshooting\n\nABOUT THE COURSE LEADERS:\nIr. In Jumanda Kasdadi\, MT \nIn addition to his duty as lecturer\, Mr. Jumanda has delivered almost 280 trainings (public & in-house) in various type of industries\, especially for oil and gas companies since 1997. He holds Bachelor and Master Degrees in Chemical Engineering degrees from the Institute Technology Bandung. He has also taken courses for 9 topics in The Oil & Gas fields at PETEX (Petroleum Extension)\, University of Texas at Austin\, in Houston\, Texas\, USA (2018). \nBeyond his formal educations\, he has many other professional certificates; Lecturer Certificate from Indonesia Minister of Education; Construction\, Electrical and Fire Protection Certificates from HSE Association Indonesia (ALPK3); Risk Based Inspection (RBI) Facilitator\, Instrumentation Engineering Design for Oil & Gas Project with INtools (Ref.No OGC01-170516200516-2839); HAZOPS and HAZID Certificates from Indonesia Certifying Agency (BNSP). \nCompanies where he delivered the training to are mostly major intensive capital such as Pertamina\, PHE\, PHI\, PHR\, PHKT\, PGN\, Chevron\, ConocoPhillips\, Total Indonesie\, CNOOC\, Medco\, Petrochina\, Star Energy\, Freeport\, Mubadala\, Indonesia Power\, Geothermal Companies\, KAI\, US Consulate\, Freeport\, SKK Migas\, Titas (Banglades)\, and petrochemical & mining and others. \nIr. In Jumanda K\, MT was directly involved in many projects of Feasibility Studies (FS)\, and further Front-End Engineering Design (FEED)\, Detail Engineering Design for Construction (DEDC) in oil/gas industry\, Risk-Based Inspection (RBI)\, HAZID\, HAZOPS\, QRA\, FTA\, SIL Classification\, etc; for national and international companies. \nPublic Training berikutnya : 9 – 11 September\, 2026 | 15 – 17 Desember\, 2026
URL:https://smart-training-center.com/event/heat-exchanger-design-operation-maintenance/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Engineering,Maintenance,Production Operation
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/Heat-Exchanger-Design-Operation-Maintenance.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260518T083000
DTEND;TZID=Asia/Krasnoyarsk:20260520T160000
DTSTAMP:20260404T101721
CREATED:20241122T100846Z
LAST-MODIFIED:20260212T092858Z
UID:886-1779093000-1779292800@smart-training-center.com
SUMMARY:Oil and Gas Measurement and Metering Custody
DESCRIPTION:About the Course:\nPelatihan Oil & Gas Measurement & Metering Custody dirancang untuk memberikan pemahaman mendalam tentang prinsip pengukuran dan metering minyak dan gas\, khususnya dalam konteks transaksi komersial (custody transfer). Program ini berfokus pada pemilihan\, instalasi\, dan kalibrasi peralatan metering sesuai standar internasional\, memastikan akurasi dan transparansi dalam setiap tahap proses pengukuran. \nCourse Objectives:\n\nMemahami prinsip dasar pengukuran minyak dan gas sesuai standar industri.\nMengidentifikasi perangkat dan metode pengukuran dalam custody transfer metering.\nMenjamin akurasi dan keandalan data pengukuran untuk transaksi komersial.\nMenganalisis faktor yang mempengaruhi akurasi pengukuran dan cara mengatasinya.\nMelakukan kalibrasi dan pemeliharaan peralatan metering.\nMemahami regulasi dan standar internasional terkait custody transfer minyak dan gas.\nMengidentifikasi dan menyelesaikan kesalahan dalam pengukuran.\nMenjamin transparansi dan keadilan dalam transaksi komersial.\n\nWho Should Attend:\n\nInstrumentation Engineers & Technicians\nDesign and Process Engineers\nOperation\, Piping\, Mechanical\, and Plant Engineers\nMaintenance Technicians and Supervisors\nService Engineers and Supervisors\nAsset Management Team\nProfesional yang ingin memperdalam pengetahuan di bidang ini\n\nCourse Content:\n\n Prinsip Dasar Pengukuran\n\n\nSifat fisik dasar minyak dan gas\nFundamental pengukuran\n\n\n Proses Pengolahan Minyak dan Gas\n\n\nProses pengolahan dari sumur hingga penjualan\nInstalasi dan aplikasi peralatan: field instrumentation\, analyzer\, dan safety system\n\n\n Pengukuran dan Metering\n\n\nPengukuran proses gas (termasuk pengukuran energi)\nPengukuran proses cairan (termasuk volume standar)\nKonsep dan praktik fiscal metering\nFlow metering dan custody transfer\n\n\n Jenis dan Kinerja Flowmeter\n\n\nFlowmeter mekanis\nFlowmeter massa\nFlowmeter elektronik\nFlowmeter ultrasonik\nPenggunaan OMNI Flowcom dan Floboss\n\n\n Instalasi dan Kalibrasi\n\n\nInstalasi peralatan metering\nTeknik proving dan persyaratan proving\nStandar internasional (API\, AGA\, ISO\, GPA)\n\n\n Pengujian dan Analisis\n\n\nGas chromatograph dan verifikasi\nAnalyzer (H2S\, H2O\, dan kelembapan)\n\n\n Studi Kasus dan Perhitungan Manual\n\n\nStudi kasus dan simulasi\nPerhitungan metering untuk volume standar\n\nAbout the Trainer:\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 : 14 – 16 Desember\, 2026
URL:https://smart-training-center.com/event/training-oil-and-gas-measurement-and-metering-custody/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Engineering,Instrument and control,Maintenance,Manajemen,Oil & Gas,Production Operation
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/oil-gas-measurement-metering-custody.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260518T083000
DTEND;TZID=Asia/Krasnoyarsk:20260520T160000
DTSTAMP:20260404T101721
CREATED:20241122T155240Z
LAST-MODIFIED:20260212T074614Z
UID:947-1779093000-1779292800@smart-training-center.com
SUMMARY:Maintenance Performance Indicator
DESCRIPTION:BACKGROUND:\nMaintenance Performance Indicator (MPI) adalah alat penting untuk mengevaluasi kinerja tugas pemeliharaan dalam sebuah perusahaan. MPI membantu mengukur berbagai aspek\, mulai dari durasi waktu yang diperlukan selama shutdown (baik terencana maupun tidak) hingga perkembangan proses produksi. Indikator ini bervariasi tergantung pada perusahaan\, tujuan\, strategi\, dan rencana tindakannya. Namun\, terdapat sejumlah indikator utama yang umum digunakan dan terbukti efektif. \nKategori Utama Maintenance Performance Indicator\nMPI dapat dikelompokkan menjadi dua kategori utama: \n1. Dampak Manajemen Pemeliharaan pada Kinerja Bisnis\nIndikator dalam kategori ini menilai bagaimana manajemen pemeliharaan yang tepat dapat memengaruhi hasil bisnis secara keseluruhan. \n2. Keandalan dan Ketersediaan Aset\nIndikator ini berfokus pada seberapa andal dan tersedia aset dalam mendukung operasi perusahaan. \nKPI yang Sering Digunakan dalam Pemeliharaan\nBerikut adalah beberapa KPI penting yang sering digunakan dalam manajemen pemeliharaan: \n\nWaktu Henti (Downtime): Mengukur jumlah waktu aset tidak tersedia untuk digunakan.\nBacklog: Menilai jumlah pekerjaan pemeliharaan yang tertunda.\nMTBF (Mean Time Between Failures): Rata-rata waktu antara kegagalan aset.\nMTTR (Mean Time to Repair): Rata-rata waktu yang diperlukan untuk memperbaiki aset.\nOEE (Overall Equipment Effectiveness): Mengukur efektivitas keseluruhan peralatan dalam mendukung operasi.\nPMP (Planned Maintenance Percentage): Persentase pemeliharaan yang direncanakan dibandingkan yang tidak terencana.\nSchedule Compliance: Kepatuhan terhadap jadwal pemeliharaan yang telah direncanakan.\n\nTRAINING OBJECTIVES:\nSetelah mengikuti training ini peserta diharapkan: \n\nMemahami pentingnya mengukur kinerja maintenance berdasarkan tujuannya\nMemahami poin-poin penting yang harus dijadikan kriteria pengukuran\nMampu memanfaatkan beberapa indikator sebagai tolak ukur peningkatan kinerja\nDengan memahami KPI di bidang maintenance\, selanjutnya dapat meningkatkan kinerja & memperbaiki kegiatan maintenance di tempat kerja\n\nWHO SHOULD ATTEND:\n\nMaintenance Managers or Supervisors\nMaintenance Planners and Schedulers\nReliability Engineers\nOperations Managers\nAsset or Facility Managers to understand maintenance impact on asset lifecycle and operational efficiency.\nTechnicians and Engineers who perform and report maintenance activities.\nQuality Assurance Professionals who supposed to link maintenance performance with product/service quality\n\nCOURSE OUTLINE:\n\nDeveloping Maintenance and Asset Management Strategies\nScope and Objectives of Maintenance Activities\nEstablishing Performance Measurement Goals\nMaintenance Costs and Benefit Analysis\nAvailability\, Utilization\, and Reliability Metrics\nUnderstanding Overall Equipment Effectiveness (OEE)\nKey Performance Indicators (Downtime\, Backlog\, MTBF\, MTTF\, MTTR\, OEE\, PMP\, Schedule Compliance)\nEvaluating Maintenance Performance and Continuous Improvement\n\nABOUT THE COURSE LEADERS:\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 \nPublic Training berikutnya : 28 – 30 September\, 2026
URL:https://smart-training-center.com/event/training-maintenance-performance-indicator/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Maintenance,Mechanical,Production Operation
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/Maintenance-Performance.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260601T083000
DTEND;TZID=Asia/Krasnoyarsk:20260603T160000
DTSTAMP:20260404T101721
CREATED:20241122T061741Z
LAST-MODIFIED:20260217T010119Z
UID:840-1780302600-1780502400@smart-training-center.com
SUMMARY:Condition Based Maintenance
DESCRIPTION:Background & About the Course\n\nIn modern industrial operations\, Condition Based Management System (CBMS) has become an increasingly relevant approach to enhance the efficiency and effectiveness of asset management. CBMS utilizes real-time data from asset conditions to plan timely and appropriate maintenance actions. This allows organizations to reduce downtime\, minimize unnecessary maintenance costs\, and extend the overall lifespan of assets. \nThis training is designed to provide a comprehensive understanding of the implementation and analysis of CBMS across various industrial sectors. Participants will learn data collection techniques\, asset condition analysis\, and strategic data-driven decision-making. With a technology and data-driven approach\, this training helps organizations adapt to the demands of Industry 4.0 and improve their business competitiveness. \nCourse Objectives\nAfter completing this training\, participants are expected to: \n\nUnderstand the concepts and benefits of Condition Based Management System (CBMS).\nIdentify the steps for implementing CBMS within an organization.\nConduct asset condition analysis using relevant techniques and software.\nDevelop condition-based maintenance strategies to enhance operational efficiency.\nReduce asset failure risks through data-driven decision-making.\n\nWho Should Attend\nThis training is recommended for: \n\nManagers and supervisors in maintenance and operations.\nEngineers responsible for asset maintenance and analysis.\nProfessionals in reliability engineering and asset management.\nIndividuals involved in infrastructure management and maintenance strategy development.\n\nCourse Content\n\nIntroduction to Condition Based Management System\n\n\nOverview of Condition Based Maintenance and Management System\nKey Principles and Benefits of CBMS\nTools and Technologies for Condition Monitoring\nCase Study: Implementing CBMS in Industrial Settings\n\n\nData Collection and Analysis\n\n\nTechniques for Collecting Real-Time Data from Assets\nIntroduction to Predictive Maintenance Tools (e.g.\, Vibration Analysis\, Thermal Imaging)\nData Interpretation and Fault Diagnosis\nWorkshop: Developing a Monitoring Framework for Assets\n\n\nStrategy Development and Implementation\n\n\nBuilding a CBMS Strategy: From Planning to Execution\nRisk Assessment and Decision-Making in CBMS\nPerformance Metrics for Evaluating CBMS Success\nFinal Presentation: Designing a CBMS Plan for Your Organization\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 : 6 – 8 July\, 2026
URL:https://smart-training-center.com/event/condition-based-maintenance/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Maintenance,Mechanical
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/Condition-Based-Maintenance-Analysis.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260601T083000
DTEND;TZID=Asia/Krasnoyarsk:20260603T160000
DTSTAMP:20260404T101721
CREATED:20241122T155207Z
LAST-MODIFIED:20260217T023401Z
UID:933-1780302600-1780502400@smart-training-center.com
SUMMARY:Safety & Shutdown System
DESCRIPTION:BACKGROUND:\nSafety Shutdown Systems (SSS) are critical in ensuring the safe operation of industrial plants\, machinery\, and equipment. These systems are designed to automatically detect hazardous conditions and initiate a controlled shutdown to prevent accidents\, equipment damage\, or catastrophic failures. In industries such as oil and gas\, manufacturing\, and power generation\, where processes often operate at high temperatures\, pressures\, and other dangerous conditions\, a reliable safety shutdown system is essential. This training focuses on providing participants with the knowledge and skills required to understand the components\, design\, and operation of safety shutdown systems\, ensuring they are well-equipped to maintain and troubleshoot such systems effectively. \nThe three-day training program will provide a comprehensive overview of safety shutdown system principles\, including system architecture\, detection methods\, and shutdown protocols. Participants will gain practical knowledge of the key components such as sensors\, controllers\, and actuators that are integral to these systems. The course will also cover the importance of regular maintenance\, testing\, and calibration to ensure the system’s reliability during emergencies. By the end of the training\, participants will be equipped with the skills to implement\, maintain\, and troubleshoot Safety Shutdown Systems in various industrial applications\, contributing to a safer working environment. \nOBJECTIVES: \n\nUnderstanding the Fundamentals\nSystem Design and Functionality\nComponent Knowledge\nMaintenance and Calibration\nTroubleshooting and Problem-Solving\nEnhancing Workplace Safety\n\n\n\nRECOMMENDED PARTICIPANTS:\n\nControl Room Operators\nMaintenance Technicians\nProcess Engineers\nElectrical and Instrumentation Engineers\nSafety Officers\nProject Engineers/Managers\nPlant Operators\nQuality Assurance Personnel\n\n\n\nCOURSE OUTLINE:\n\nIntroduction to hazards and risks\nSafety systems engineering\nStandards\nSafety Life Cycle (SLC)\nHazards and Risks Reduction\nProcess control vs Safety control\nSafety Integrity Level (SIL)\nRisk analysis and reduction\nSafety Instrumented Systems (SIS)\nHAZOP\nSafety requirement specifications\nTechnology choices and conceptual design\nReliability in safety systems\nField instruments and devices\nHardware & software\nOverall process\nManagement of change\nJustification\n\n\n\nABOUT THE COURSE LEADER:\nProf. Ir. Endra Joelianto\, Ph.D.\, SMIEEE is an expert in control engineering. His outstanding research is: Hybrid Control Systems\, Discrete Event Control Systems\, Petri Nets Analysis and Application on PLC\, Robust PID Controller\, Advanced Process Control\, Industrial Automation using PLC/ DCS. He received first degree (Ir.) in Engineering Physics in 1990 from Department of Engineering Physics\, ITB and Doctor of Philosophy (PhD.) in Control Engineering in 2001 from Department of Engineering\, The Australian National University\, Australia. \nPublic Training berikutnya : 3 – 5 Agustus\, 2026 | 12 – 14 Oktober\, 2026
URL:https://smart-training-center.com/event/safety-shutdown-system/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Electrical,Engineering,Maintenance,Oil & Gas,Power Generation
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/Safety-Shutdown-System.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260601T083000
DTEND;TZID=Asia/Krasnoyarsk:20260603T160000
DTSTAMP:20260404T101721
CREATED:20241122T163235Z
LAST-MODIFIED:20260217T005417Z
UID:1028-1780302600-1780502400@smart-training-center.com
SUMMARY:Condition Based Maintenance and Analysis
DESCRIPTION:Background & About the Course\nIn modern industrial operations\, Condition Based Maintenance and Analysis System has become an increasingly relevant approach to enhance the efficiency and effectiveness of asset management. CBMS utilizes real-time data from asset conditions to plan timely and appropriate maintenance actions. This allows organizations to reduce downtime\, minimize unnecessary maintenance costs\, and extend the overall lifespan of assets. \nThis training is designed to provide a comprehensive understanding of the implementation and analysis of CBMS across various industrial sectors. Participants will learn data collection techniques\, asset condition analysis\, and strategic data-driven decision-making. With a technology and data-driven approach\, this training helps organizations adapt to the demands of Industry 4.0 and improve their business competitiveness. \nCourse Objectives\nAfter completing this training\, participants are expected to: \n\nUnderstand the concepts and benefits of Condition Based Management System (CBMS).\nIdentify the steps for implementing CBMS within an organization.\nConduct asset condition analysis using relevant techniques and software.\nDevelop condition-based maintenance strategies to enhance operational efficiency.\nReduce asset failure risks through data-driven decision-making.\n\nWho Should Attend\nThis training is recommended for: \n\nManagers and supervisors in maintenance and operations.\nEngineers responsible for asset maintenance and analysis.\nProfessionals in reliability engineering and asset management.\nIndividuals involved in infrastructure management and maintenance strategy development.\n\nCourse Outline\nFundamentals of Condition-Based Maintenance (CBM) \nIntroduction to CBM \n\nOverview of Condition-Based Maintenance and Management Systems\nEvolution from Preventive to Predictive Maintenance\nKey Principles and Benefits of CBM\n\nTools and Technologies for Condition Monitoring \n\nVibration Analysis\nThermal Imaging\nOil Analysis\nUltrasonic Testing\nEmerging IoT Sensors for Maintenance\n\nData Collection and Analysis \nTechniques for Collecting Real-Time Data \n\nWired vs. Wireless Data Acquisition Systems\nRole of Edge Computing and Cloud Integration\n\nPredictive Maintenance Tools \n\nMachine Learning Models for Anomaly Detection\nDigital Twin Technology for Asset Simulation\n\nData Interpretation and Fault Diagnosis \n\nIdentifying Common Equipment Faults from Data\nUsing AI to Enhance Diagnostic Accuracy\n\nWorkshop: Developing a Monitoring Framework for Assets \n\nHands-on Activity: Selecting Sensors and Tools for Specific Use Cases\nData Logging and Visualization Techniques\n\nIntroduction to CBM Software Platforms \n\nOverview of Popular CBM Software and Platforms (e.g.\, IBM Maximo\, SAP PM\, Azure IoT)\n\nStrategy Development and Implementation \nBuilding a CBM Strategy: From Planning to Execution \n\nSteps to Create a Comprehensive CBM Plan\nIntegration with Existing Maintenance Processes\n\nRisk Assessment and Decision-Making in CBM \n\nFailure Mode Effect Analysis (FMEA)\nPrioritizing Assets for CBM Based on Criticality\n\nPerformance Metrics for Evaluating CBM Success \n\nKey Performance Indicators (KPIs) for Maintenance Reliability\nContinuous Improvement through Feedback Loops\n\nFinal Presentation: Designing a CBM Plan for Your Organization \n\nGroup Presentations of CBM Plans\nFeedback from Facilitators and Peers\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 : 6 – 8 July\, 2026
URL:https://smart-training-center.com/event/condition-based-maintenance-analysis/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Maintenance
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/CBM.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260602T083000
DTEND;TZID=Asia/Krasnoyarsk:20260604T160000
DTSTAMP:20260404T101721
CREATED:20241122T161906Z
LAST-MODIFIED:20260225T043207Z
UID:1016-1780389000-1780588800@smart-training-center.com
SUMMARY:Cathodic Protection Theory and Practice
DESCRIPTION:Background & About the Course\n\n\nThe successful application and performance of Cathodic Protection (CP) systems require specialized personnel\, equipment\, and resources. Understanding the basic principles is essential\, while knowledge and experience are crucial for achieving desired results in the field. Proper training in cathodic protection is often challenging to find\, as it necessitates a solid understanding of various topics\, including electrical\, metallurgical\, chemical\, mechanical\, construction\, and engineering aspects that influence the cathodic protection process under actual site conditions. \nTherefore\, it is vital for practitioners to receive comprehensive training to enhance their knowledge\, even if they have previously studied the subject. \nCourse Objectives\n\nUnderstand the fundamental principles of cathodic protection (CP) and its role in preventing corrosion of structures.\nIdentify various types of cathodic protection systems\, including galvanic anode and impressed current systems\, along with their applications.\nDesign cathodic protection systems for different types of infrastructure\, such as pipelines\, storage tanks\, and offshore platforms.\nOperate and maintain cathodic protection systems to ensure optimal performance and longevity.\nDiagnose and troubleshoot common issues associated with cathodic protection systems.\nUnderstand international standards and regulations related to the implementation of cathodic protection.\n\nWho Should Attend\nThis training is recommended for: \n\nCorrosion\, materials\, and maintenance engineers\nMaintenance & Production team the oil and gas\, mining\, and petrochemical industries who work with materials subject to corrosion problems.\nTechnical staffs involved in the design\, installation\, and operation of cathodic protection systems\nProject teams needing an understanding of cathodic protection for strategic decision making\n\nCourse Content\n\nBasic Corrosion\nPrinciples of Cathodic Protection\nPolarization\nBasics & Introduction to Cathodic Protection Design\nApplications of Cathodic Protection\nIntroduction to Sacrificial Anode Cathodic Protection System (SACP)\nIntroduction to Impressed Current Cathodic Protection System (ICCP)\nField Measurement & Cathodic Protection Monitoring\nRecording and Reporting\nSafety Specifications\nTroubleshooting\n\nABOUT THE COURSE LEADER:\nRinto Suhendra\, ST & Team \nIr. Rinto Suhendra adalah praktisi Cathodic Protection sejak menyelesaikan pendidikan S1 pada tahun 2006. Beliau adalah certified Catodic Protection dari Petronas Carigali untuk Export Gas pipeline di daerah lepas pantai Gresik INDOCOR serta telah mengikuti pelatihan profesi lainnya diantaranya tentang Basic Offshore Safety Induction & Safety. \nSekitar 80 proyek berkaitan dengan Cathodic Protection telah ditangani baik offshore maupun onshore diantaranya: Bukit Tua Pipeline phase 2B\, 24 in Pipeline Muara Karang\, Petronas Carigali untuk Export Gas pipeline di daerah lepas pantai Gresik\, Santos di Selat Madura dan banyak lagi proyek onshore yang ditanganinya. \nPublic Training berikutnya : 2 – 4 September\, 2026 | 2 – 4 November\, 2026
URL:https://smart-training-center.com/event/cathodic-protection-theory-practice/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Engineering,Maintenance,Production Operation
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/Cathodic-Protection-Theory-Practice.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260603T083000
DTEND;TZID=Asia/Krasnoyarsk:20260605T160000
DTSTAMP:20260404T101721
CREATED:20241122T101950Z
LAST-MODIFIED:20260225T064330Z
UID:907-1780475400-1780675200@smart-training-center.com
SUMMARY:Life Cycle Cost Management
DESCRIPTION:Background & About the Course:\nLife Cycle Cost Management (LCC) adalah pendekatan komprehensif untuk mengelola total biaya aset selama seluruh siklus hidupnya\, mulai dari perencanaan\, desain\, pengoperasian\, hingga penghentian. Metode ini membantu perusahaan mengidentifikasi peluang penghematan\, mengoptimalkan sumber daya\, dan meningkatkan efisiensi operasional. Dengan menerapkan LCC\, perusahaan dapat mengurangi biaya tanpa mengorbankan keandalan dan kinerja aset. \nDalam dunia industri yang kompetitif\, memahami dan mengelola LCC menjadi kunci untuk meningkatkan profitabilitas dan memperpanjang umur aset. Kursus ini dirancang untuk memberikan wawasan mendalam tentang metode\, teknik\, dan aplikasi praktis LCC dalam berbagai bidang industri\, mulai dari perawatan hingga akuisisi peralatan. Peserta akan dibekali dengan keterampilan untuk mengevaluasi keputusan investasi dan operasional berdasarkan total biaya siklus hidup. \nCourse Objectives:\n\nMeningkatkan kesadaran akan faktor pendorong biaya dan strategi pengurangannya.\nMelakukan evaluasi opsi menggunakan analisis total biaya siklus hidup.\nMengidentifikasi trade-off antara biaya dan kinerja untuk pengambilan keputusan yang optimal.\nMemaksimalkan pendapatan melalui pengurangan biaya operasi dan pemeliharaan.\nMemahami hubungan antara kinerja\, keandalan\, dan biaya.\nMenerapkan prosedur pengembangan model LCC dalam berbagai aplikasi industri.\nMenguasai konsep nilai waktu uang dan analisis risiko dalam pengambilan keputusan.\n\nWho Should Attend:\n\nEngineers (Engineering\, Reliability\, Maintenance)\nPurchasing Engineers/Managers\nProject Engineers\nMaintenance Managers/Supervisors\nProcess & Manufacturing Engineers\n\nCourse Content:\n\nPengantar Life Cycle Cost Management\nPentingnya Perencanaan LCC Management\nLCC Management dan Efektivitas Sistem\nEvaluasi Ekonomi dalam LCC\nProsedur LCC Management\nCost Breakdown Structure (CBS)\nMetode Estimasi Biaya\nAlokasi Biaya Langsung dan Tidak Langsung\nManajemen Biaya Selama Siklus Hidup\nKonsep Nilai Waktu Uang\nAnalisis Risiko dalam LCC\nIdentifikasi Faktor Pendorong Biaya\nAplikasi LCC dalam Berbagai Sektor\nPengembangan Model LCC\nLCC untuk Akuisisi Peralatan\nLCC untuk Modifikasi Peralatan\nOptimasi Pemeliharaan melalui LCC\nStudi Kasus: Analisis Data Generator/Turbine (Peserta membawa data kasus)\n\nABOUT THE COURSE LEADERS:\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 \nPublic Training berikutnya : 5 – 7 Oktober\, 2026 | 14 – 16 Desember\, 2026
URL:https://smart-training-center.com/event/life-cycle-cost-management/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Engineering,Finance,Maintenance,Manajemen,Power Generation,Production Operation
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/Life-Cycle-Cost-Management.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260603T083000
DTEND;TZID=Asia/Krasnoyarsk:20260605T160000
DTSTAMP:20260404T101721
CREATED:20241122T102929Z
LAST-MODIFIED:20260225T085511Z
UID:923-1780475400-1780675200@smart-training-center.com
SUMMARY:Electrical Wiring Diagram and Electrical Control System
DESCRIPTION:BACKGROUND & ABOUT THE COURSE:\nUnderstanding and interpreting electrical wiring diagrams is fundamental to the operation\, maintenance\, and troubleshooting of power systems. Technicians and engineers must have the ability to read and analyze electrical schematics to ensure the safe and efficient performance of equipment. This course is designed to provide participants with a comprehensive understanding of various types of electrical diagrams used across industries\, enhancing their ability to draw\, interpret\, and apply these diagrams effectively. \nBy developing a strong foundation in electrical diagram analysis\, participants will acquire essential skills in diagnosing and troubleshooting electrical systems. This structured approach significantly improves system reliability\, operational efficiency\, and safety in industrial environments. \nOBJECTIVES:\n\nDevelop skills to read and interpret electrical wiring diagrams and control circuits\nEnhance troubleshooting capabilities to maintain and repair electrical systems\nGain technical proficiency in PLC wiring\, cable preparation\, and electrical component analysis\nImprove system reliability and ensure operational safety in industrial environments\n\nRECOMMENDED PARTICIPANTS:\n\nEngineers and Supervisors\nTechnicians and Operators in Instrumentation\, Production\, and Operations\nProfessionals in Communication\, Networking\, IT\, and Reliability\nIndividuals seeking to enhance industrial control and automation performance\n\nCOURSE OUTLINE:\n\nSafety and Standards\nTypes of Wiring Diagrams:\n\nSite Plan (Plan View)\nPhysical Diagram\nSchematics\nConstruction Wiring Diagram\nBlock Diagram\nOnline Block Diagram\nThree-line Block Diagram\nInterconnect Wiring Diagram\n\n\nWire Types and Preparation\nSoldering and Termination Techniques\nCable Forming and Routing\nConnection and Routing\nHardware Components\nActive Electrical Components\nPassive Electrical Components\nSwitches and Indicator Lamps\nEarthing and Screening Techniques\nIntroduction to Control Systems\nPLC Wiring and Integration\n\nABOUT THE COURSE LEADERS:\nSupriyanto\, S.T.\, M.T/ Ali Mashar\, M.Eng.Sc.\, IPU\n  \nPublic Training berikutnya : 23 – 25 September\, 2026 | 23 – 25 November\, 2026
URL:https://smart-training-center.com/event/electrical-wiring-diagram-electrical-control-system/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Electrical,Instrument and control,Maintenance,Production Operation
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/Electrical-Wiring-Diagram-Electrical-Control-System.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260608T083000
DTEND;TZID=Asia/Krasnoyarsk:20260610T160000
DTSTAMP:20260404T101721
CREATED:20241122T155207Z
LAST-MODIFIED:20260226T044015Z
UID:934-1780907400-1781107200@smart-training-center.com
SUMMARY:Power Generator Excitation System
DESCRIPTION:Background & About the Course:\nThe excitation system plays a critical role in the operation of power generators\, ensuring stable voltage output and efficient power generation. This system regulates the amount of electrical current supplied to the generator’s rotor\, which in turn influences the generated voltage. Understanding the principles of excitation systems and their components is essential for professionals working in power generation to ensure the reliability and efficiency of the entire power grid. \nThis 3-day training course will provide in-depth knowledge about the excitation system’s design\, function\, and operation. Participants will learn about different types of excitation systems\, from static to rotating systems\, and how to monitor and troubleshoot them effectively. Emphasis will be placed on understanding the importance of excitation systems in maintaining voltage stability\, reducing power losses\, and optimizing generator performance in various operational environments. \nCourse Objectives:\n\nUnderstand the basic principles and components of excitation systems in power generation.\nDifferentiate between various types of excitation systems\, including static\, dynamic\, and brushless systems.\nAnalyze the role of excitation systems in voltage regulation and generator stability.\nPerform basic maintenance and troubleshooting procedures for excitation systems.\nEvaluate the performance of excitation systems and optimize their efficiency.\nUnderstand the impact of excitation system failures and methods for prevention.\nGain practical knowledge on how to monitor and control excitation systems in real-time.\nLearn about the integration of excitation systems with other power plant components for optimal operation.\n\nWho Should Attend:\n\nPower Generation Engineers\nElectrical Engineers\nControl System Engineers\nMaintenance Technicians\nPlant Operators\nPower Plant Supervisors\nElectrical Technicians\n\nCourse Content:\n\nIntroduction to Power System\nIntroduction to Power Generator\nPower Generator Operation\nPower Generator Excitation System\nIntroduction to Software & Electronic Control\nRecorder and fault\, even and trend logging system\nConverter for Excitation System\nMain Panel for Control of Excitation System\nMaintenance and Troubleshooting.\n\nCase Studies: \n\nLow or Under Voltage\, Voltage Drop at Operation\nReactive Power Hunting\nAutomatic Voltage Regulator Fault\n\nAbout the Course Leader:\nIr. Nana Heryana\, S.T. IPU.\, ASEAN.Eng \nPublic Training berikutnya : 7 – 9 Oktober\, 2026 | 8 – 10 Desember\, 2026
URL:https://smart-training-center.com/event/generator-excitation-system/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Electrical,Maintenance,Mechanical,Power Generation
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/Generator-Excitation-System.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260608T083000
DTEND;TZID=Asia/Krasnoyarsk:20260610T160000
DTSTAMP:20260404T101721
CREATED:20241122T165048Z
LAST-MODIFIED:20260225T090031Z
UID:1060-1780907400-1781107200@smart-training-center.com
SUMMARY:Gearbox Selection\, Maintenance and Troubleshooting
DESCRIPTION:Background & About the Course:\nGearbox Selection\, Maintenance and Troubleshooting is crucial process for ensuring optimal performance in mechanical power transmission systems across various industries\, including manufacturing\, energy\, mining\, and transportation. Gearboxes are vital components that power machinery\, and their reliability significantly affects operational efficiency and productivity. However\, selecting the appropriate gearbox\, maintaining it effectively\, and diagnosing issues can be challenging. Inadequate selection\, poor maintenance\, or delayed troubleshooting can lead to operational disruptions\, equipment failures\, and costly downtime. \nThis training course is designed to equip participants with the necessary knowledge and skills to address these challenges. By integrating theoretical knowledge with practical hands-on experience\, the course covers essential principles of gearbox selection\, preventive maintenance strategies\, and advanced troubleshooting techniques. Participants will learn how to optimize gearbox performance\, extend its service life\, and swiftly address issues to minimize downtime\, thereby enhancing overall reliability and operational efficiency. \nCourse Objectives:\n\nUnderstand the standards for setting up a gearbox plan.\nPerform gearbox recalculation and planning.\nClassify and analyse gears.\nConduct gearbox maintenance.\nApply measurement techniques and conduct gearbox testing.\nAnalyse gearbox failures.\n\nWho Should Attend:\n\nMaintenance\, Operator\, Mechanical Technicians\nEngineers/Superintendents/Supervisors\nRotating Engineers/Superintendents/Supervisors\nPower Plant Engineers/Superintendents/Supervisors\n\nCourse Content:\n\nIntroduction:\n\nApplication of Gear Systems\nGear Classification\nGear Nomenclature\nPower Train\nGear Standards\nUnit Systems\n\n\nGear Analysis:\n\nPower Train\nStress and Deflection\nStrength/Allowable Stress\nFatigue\nGear Design Life\n\n\nGear Design:\n\nSpur & Helix Gear\nGearbox\nSpur& Helic Gear Design\n\n\nMeasurement and Testing:\n\nPrinciples of Measurement\nGeometry Measurement\nVibration Measurement\nNoise Measurement\nGear System Efficiency\nGear Testing\n\n\nMaintenance and Lubrication:\n\nMaintainability and Maintenance\nMaintenance in Product Life Cycle\nLife Cycle Cost\nImportance of Maintenance\nMaintenance Categories\nGear Maintenance\nLubrication\nGear Lubrication\nPower Losses in Gear\nTypes of Gear Lubrication\nLubrication for Loaded Gear\nInfluence of Gear Lubrication on Surface Distress\n\n\nGear Failure:\n\nFailure Classification\nWear\nSurface Fatigue\nPlastic Flow\nBreakage\nHertz Contact\n\n\n\nAbout the Trainer:\nCecep Slamet Abadi\, ST.\, M.T\,  \nCecep Slamet Abadi\, ST.\, M.T\, is an associate instructor at FJM with a background in Mechanical Engineering for both undergraduate and graduate levels. Active as a lecturer since 1996\, he also has extensive experience in industry and consultancy\, including roles at LAPI ITB\, Puslitbang Air\, PINDAD\, and energy audits at Pertamina EP Pangkalan Susu\, Tambung\, and Rengasdengklok. He is also part of the competency testing team at IATKI (Ikatan Ahli Ketenagalistrikan Indonesia). For 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 others. \nPublic Training berikutnya : 12 – 14 Oktober\, 2026
URL:https://smart-training-center.com/event/gearbox-selection-maintenance-troubleshooting/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Engineering,Maintenance,Mechanical
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/gear-box.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260610T080000
DTEND;TZID=Asia/Krasnoyarsk:20260612T170000
DTSTAMP:20260404T101721
CREATED:20260304T035323Z
LAST-MODIFIED:20260305T043546Z
UID:2630-1781078400-1781283600@smart-training-center.com
SUMMARY:Maintenance and Reliability Management System (MRMS)
DESCRIPTION:Background\nDalam industri modern—terutama migas\, pembangkit\, petrokimia\, dan manufaktur—fungsi maintenance tidak lagi bersifat reaktif\, tetapi harus dikelola sebagai sistem manajemen yang terstruktur\, berbasis risiko\, dan berorientasi keandalan. Maintenance and Reliability Management System (MRMS) merupakan pendekatan terintegrasi yang menghubungkan strategi maintenance\, reliability engineering\, perencanaan kerja\, pengendalian biaya\, serta kinerja aset\, guna menjamin keberlangsungan operasi\, keselamatan\, dan profitabilitas perusahaan. \nMRMS membantu organisasi untuk: \n\nMengurangi breakdown dan unplanned shutdown\nMeningkatkan keandalan dan availability aset\nMengoptimalkan biaya pemeliharaan sepanjang siklus hidup aset\nMendukung pengambilan keputusan berbasis data dan KPI\n\nObjectives\nSetelah mengikuti training ini\, peserta mampu: \n\nMemahami konsep dan kerangka kerja MRMS secara menyeluruh.\nMenyusun strategi maintenance berbasis reliability dan risiko.\nMengelola sistem perencanaan\, penjadwalan\, dan eksekusi maintenance.\nMengukur dan mengevaluasi kinerja maintenance dan reliability.\nMenerapkan MRMS sebagai alat peningkatan kinerja aset yang berkelanjutan.\n\n\n\nRecommended Participants\nTraining ini direkomendasikan untuk: \n\nMaintenance Engineer & Reliability Engineer\nAsset Management Engineer\nSupervisor dan Manager Maintenance / Engineering\nPlanner & Scheduler Maintenance\nOperation & Production Engineer\nContinuous Improvement & Operational Excellence Team\n\n\n\nCourse Outline\nKonsep Dasar MRMS & Strategi Maintenance\nPengantar MRMS\n\nEvolusi maintenance management\nPeran MRMS dalam manajemen aset dan operasi\nHubungan MRMS dengan reliability\, availability\, dan safety\n\nStrategi Maintenance\n\nReactive\, Preventive\, Predictive\, dan Proactive Maintenance\nReliability-Centered Maintenance (RCM) – overview\nRisk-Based Maintenance (RBM) – overview\nCriticality analysis peralatan\n\nReliability Engineering dalam MRMS\n\nFailure mode dan failure pattern\nMTBF\, MTTR\, failure rate\nAnalisis penyebab kegagalan (pengantar RCA)\n\nStudi Kasus\n\nEvaluasi strategi maintenance existing\nIdentifikasi gap terhadap konsep MRMS\n\nPerencanaan\, Eksekusi\, & Pengendalian Maintenance\nMaintenance Planning & Scheduling\n\nPeran planner dan scheduler\nJob plan\, work order\, dan backlog management\nShutdown\, turnaround\, dan major maintenance planning\n\nSistem & Proses Maintenance\n\nAlur kerja maintenance end-to-end\nIntegrasi MRMS dengan CMMS/EAM\nManajemen spare part dan material\n\nPengendalian Biaya Maintenance\n\nMaintenance cost structure\nCost vs reliability trade-off\nBudgeting dan cost control maintenance\n\nWorkshop\n\nPenyusunan job plan maintenance\nSimulasi penjadwalan dan prioritisasi pekerjaan\n\nKinerja\, Evaluasi\, & Implementasi MRMS\nKey Performance Indicator (KPI) Maintenance & Reliability\n\nLeading vs lagging indicator\nKPI utama: availability\, MTBF\, MTTR\, backlog\, maintenance cost\nDashboard kinerja maintenance\n\nContinuous Improvement & Reliability Growth\n\nAnalisis tren kegagalan\nRoot Cause Analysis (RCA)\nContinuous improvement berbasis data\n\nImplementasi MRMS\n\nTahapan implementasi MRMS\nPerubahan budaya dan kompetensi SDM\nFaktor keberhasilan dan kegagalan implementasi\n\nStudi Kasus Terintegrasi\n\nPenerapan MRMS pada fasilitas industri\nDiskusi kelompok dan presentasi\nRangkuman dan evaluasi training\n\nOutput Training\n\nPemahaman komprehensif sistem MRMS\nKemampuan menyusun dan mengevaluasi strategi maintenance & reliability\nKerangka implementasi MRMS yang aplikatif dan berkelanjutan\n\n\n\nAbout The Course Leader:\nIr. Deddy Nugraha\, CMRP and Team \nPublic Training berikutnya : 12 – 14 Oktober\, 2026 | 28 – 30 Desember\, 2026
URL:https://smart-training-center.com/event/maintenance-and-reliability-management-system-mrms/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Engineering,Instrument and control,Maintenance
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260610T083000
DTEND;TZID=Asia/Krasnoyarsk:20260612T160000
DTSTAMP:20260404T101721
CREATED:20241122T155224Z
LAST-MODIFIED:20260304T064218Z
UID:945-1781080200-1781280000@smart-training-center.com
SUMMARY:HVAC Operation\, Maintenance and Troubleshooting
DESCRIPTION:BACKGROUND & ABOUT THE COURSE:\nHVAC systems play a crucial role in maintaining optimal indoor comfort by regulating heating\, ventilation\, and air conditioning. A key component of these systems is the hydronic system\, which uses water or other liquids for efficient heat transfer. Understanding the operation\, maintenance\, and troubleshooting of HVAC systems\, including hydronic and refrigeration components\, is essential for ensuring energy efficiency\, minimizing downtime\, and extending equipment lifespan. This training provides a comprehensive overview of HVAC technologies\, focusing on practical skills and safety measures\, empowering technicians and engineers to manage\, maintain\, and troubleshoot systems effectively in real-world environments. \nThe training is designed for professionals seeking to enhance their knowledge of HVAC operation\, maintenance\, and troubleshooting techniques. Participants will learn how to manage complex systems\, diagnose common issues\, and implement effective maintenance strategies to optimize performance and prevent costly breakdowns. \nTRAINING OBJECTIVES:\n\nLearn the roles of refrigeration\, refrigerants\, and air distribution in HVAC operations.\nUnderstand the fundamental principles and components of HVAC systems.\nEnhance diagnostic capabilities to identify and resolve common HVAC operational issues.\nDevelop practical skills for maintaining and troubleshooting hydronic systems and automatic controls.\nGain proficiency in using tools\, safety practices\, and handling refrigerants for repair tasks.\nMaster procedures for leak detection\, system pumping\, and charging to maintain system efficiency.\n\nRECOMMENDED PARTICIPANTS:\n\nBuilding Maintenance Personnel\nHVAC Technicians\,\nFacility Engineers and Supervisors\nEnergy Management Professionals\nService Contractors\n\nCOURSE OUTLINE:\n\nIntroduction to HVAC Systems\n\nOverview of HVAC Components\nSystem Classifications and Applications\n\n\nBasic Theory of HVAC\n\nPrinciples of Heat Transfer\nThermodynamics in HVAC\n\n\nRefrigeration and Refrigerants\n\nRefrigeration Cycles and Components\nTypes of Refrigerants and Their Properties\n\n\nAir Distribution Systems\n\nDuctwork Design and Installation\nAirflow Balancing and Testing\n\n\nHydronic Systems\n\nComponents and Operation of Hydronic Systems\nPiping Layout and Pumping Strategies\n\n\nBasic Automatic Controls\n\nControl Systems and Sensors\nIntroduction to Building Management Systems (BMS)\n\n\nSafety\, Tools\, and Equipment\n\nHVAC-Specific Tools and Their Use\nSafety Protocols and Hazard Management\n\n\nLeak Detection\, Pumping Down\, and Charging\n\nLeak Testing Methods\nSystem Evacuation and Refrigerant Charging Procedures\n\n\nOperating Principles and Common Symptoms\n\nDiagnosing System Performance Issues\nIdentifying and Resolving Common Failures\n\n\nService Diagnosis and Repair\n\nTroubleshooting Techniques\nComponent Repair and Replacement\n\n\nPreventive Maintenance and System Optimization\n\nMaintenance Scheduling\nEnergy Efficiency Measures\n\n\nCase Studies and Practical Exercises\n\nHands-on System Diagnostics\nReal-World Problem-Solving Exercises\n\n\n\nABOUT THE COURSE LEADERS:\nMaridjo\, Drs\, ST.\, MT \nIr. Maridjo\, Drs\, ST.\, MT.\, adalah alumnus 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\, 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 lybia\, 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. \nPublic Training berikutnya : 10 – 12 November\, 2026
URL:https://smart-training-center.com/event/hvac-operation-maintenance-troubleshooting/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Maintenance,Mechanical,Production Operation
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/Heating-Ventilation-Air-Conditioning.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:20260404T101721
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:20260404T101721
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:20260404T101721
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:20260404T101721
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:20260404T101721
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/
LOCATION:Jawa Barat
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
END:VCALENDAR