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PRODID:-//Smart Training Center - ECPv6.15.20//NONSGML v1.0//EN
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X-ORIGINAL-URL:https://smart-training-center.com
X-WR-CALDESC:Events for Smart Training Center
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BEGIN:VTIMEZONE
TZID:Asia/Krasnoyarsk
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TZOFFSETFROM:+0700
TZOFFSETTO:+0700
TZNAME:+07
DTSTART:20250101T000000
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BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260803T083000
DTEND;TZID=Asia/Krasnoyarsk:20260805T160000
DTSTAMP:20260422T055137
CREATED:20241122T163236Z
LAST-MODIFIED:20260414T051804Z
UID:1030-1785745800-1785945600@smart-training-center.com
SUMMARY:Safety Engineering in Design
DESCRIPTION:Background & About the Course\nThis training is designed to provide participants with knowledge and understanding of safety engineering in the design phase. The course begins with an overview of key safety engineering terms such as hazard\, danger\, and risk. It covers process design\, engineering drawings\, and protection layers in safety engineering. Various techniques for identifying hazards in safety engineering design—such as HAZID\, HAZOPS\, Fault Tree Analysis (FTA)\, and Event Tree Analysis (ETA)—will also be discussed. \nBy participating in this training\, attendees will gain a comprehensive understanding of safety engineering in design\, enabling them to create operational systems that are not only reliable in terms of engineering and cost but also safe. \nCourse Objectives\nAfter completing this training\, participants will be able to: \n\nUnderstand the fundamental principles of Safety Engineering and its application in industrial system and facility design.\nIntegrate safety aspects into the design process to reduce risks from the project’s early stages.\nEnhance their ability to identify hazards and evaluate risks during the design process.\nComprehend the concept of inherently safer design to create systems that are naturally safer.\nApply analytical tools and methods such as HAZID\, HAZOP\, FMEA\, Fault Tree Analysis (FTA)\, and Event Tree Analysis (ETA) for comprehensive safety design evaluation.\nDesign safety controls\, including barriers and safeguards\, to prevent accidents.\nUtilize case studies and real-world experiences to understand challenges and best solutions in Safety Engineering in Design.\n\nWho Should Attend\nRecommended Participants: \n\nHSE Professionals\nProcess\, Piping\, and Rotating Equipment Professionals\nOperations and Maintenance Professionals\nInstrumentation and Electrical Professionals\nProject Engineers\, Site Managers\, and Field Superintendents\nProduction\, Oil and Gas Processing\, and Drilling Supervisors and Engineers\nPipeline Inspectors\, Supervisors\, and Engineers\nSafety and HSE Officers\n\nCourse Outline\n\nSafety Engineering Terminologies: Hazard\, danger\, risk\, event\, incident\, accident\nDesign Process & Safety Engineering: Basic engineering design data\, process calculation examples\, Front End Engineering Design (FEED)\, detailed design\nLayers of Protection for Safety & Reliability: Independent Protection Layer (IPL)\, process control\, alarm systems\, relief systems\nEngineering Drawings in Design: Process Flow Diagram (PFD)\, Piping & Instrumentation Diagram (P&ID)\nBasic Process Control System (BPCS): Process control loops\, measuring elements\, controllers\, final control elements\nSafety Instrumentation System (SIS): Sensors\, logic solvers\, final elements\, Safety Integrity Level (SIL)\nHAZID (Hazard Identification): Project safety activities\, checklists\, “What If” analysis\, process hazard analysis\nHazard and Operability Study (HAZOPS): Nodes\, deviations\, causes\, consequences\, recommendations\nFault Tree Analysis (FTA)\nEvent Tree Analysis (ETA)\nHazardous Area Classification (HAC): Class\, division\, zone\, temperature class\, material class\nCase Studies\n\nAbout the Course Leader\nIr. In Jumanda K\, M.T.   \nIn addition to his role as a lecturer\, Mr. Jumanda has conducted nearly 280 training sessions (both public and in-house) across various industries\, particularly in oil and gas\, since 1997. He holds both Bachelor’s and Master’s degrees in Chemical Engineering from the Bandung Institute of Technology. He has also completed nine specialized courses in the oil and gas field at PETEX (Petroleum Extension)\, University of Texas at Austin\, in 2018. \nMr. Jumanda possesses numerous professional certifications\, including a Lecturer Certificate from the Indonesian Minister of Education\, Construction\, Electrical\, and Fire Protection Certificates from the HSE Association Indonesia (ALPK3)\, and Risk-Based Inspection (RBI) Facilitator certification. He is also certified in Instrumentation Engineering Design for Oil & Gas Projects with INtools and has qualifications in HAZOPS and HAZID from the Indonesian Certifying Agency (BNSP). \nHe has delivered training to major capital-intensive companies such as Pertamina\, PHE\, PHI\, PHR\, PGN\, Chevron\, ConocoPhillips\, Total Indonesia\, CNOOC\, Medco\, and many others. Mr. Jumanda has been directly involved in numerous projects\, including Feasibility Studies (FS)\, Front-End Engineering Design (FEED)\, and Risk-Based Inspection (RBI) in the oil and gas industry for both national and international companies.
URL:https://smart-training-center.com/event/safety-engineering-in-design/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Engineering,Maintenance,Production Operation,Q-HSE
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/09/Safety-Engineering-in-Design.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260805T083000
DTEND;TZID=Asia/Krasnoyarsk:20260807T160000
DTSTAMP:20260422T055137
CREATED:20241122T100847Z
LAST-MODIFIED:20260414T055427Z
UID:888-1785918600-1786118400@smart-training-center.com
SUMMARY:Manajemen Risiko sesuai ISO 31000
DESCRIPTION:BACKGROUND:\nManajemen Risiko sesuai ISO 31000\nISO 31000 ini merupakan salah satu standar internasional untuk manajemen risiko yang dikeluarkan oleh International Standard Organization. ISO 31000 adalah pedoman penerapan manajemen resiko dalam sebuah organisasi yang keefektifanya telah di akui oleh dunia internasional\, dimana standar ini bersifat generik dan tidak spesifik bagi industri atau sektor tertentu. Perencanaan dan penerapan manajemen resiko akan tergantung pada kebutuhan yang bervariasi dari setiap organisasi\, khususnya sasaran dari setiap organisasi yang berbeda\, konteks\, struktur\, produk\, jasa\, proyek dan proses operasi.. \nPelatihan Manajemen Risiko ISO 31000 dirancang untuk membantu organisasi mengelola risiko secara efektif sesuai standar internasional. ISO 31000 memberikan kerangka kerja komprehensif yang dapat diterapkan di berbagai sektor dan industri\, memungkinkan perusahaan meningkatkan ketahanan operasional dan mencapai tujuan strategis. Program ini membekali peserta dengan keterampilan praktis dalam mengidentifikasi\, mengevaluasi\, dan mengendalikan risiko yang berpotensi mempengaruhi operasional dan keberlanjutan bisnis. \nOBJECTIVES:\n\nMemahami konsep dan prinsip manajemen risiko sesuai ISO 31000.\nMerancang dan menerapkan sistem manajemen risiko yang sesuai dengan kebutuhan perusahaan.\nMengidentifikasi\, menilai\, dan mengendalikan risiko secara efektif.\nMengintegrasikan manajemen risiko ke dalam proses bisnis dan budaya organisasi.\nMeningkatkan pengambilan keputusan berbasis risiko untuk mencapai tujuan perusahaan.\n\nRECOMMENDED PARTICIPANTS:\n\nManajer Risiko\nSupervisor Operasional\nManajer Proyek\nStaf HSE\nManajer Keuangan\nKepala Departemen atau Divisi\nCompliance Officers\nTim Manajemen Strategis\nProfesional di bidang Tata Kelola dan Kepatuhan\nKonsultan Manajemen Risiko\n\nCOURSE OUTLINE:\n\n Pengantar ISO 31000\n\n\nSejarah dan latar belakang ISO 31000\nManfaat penerapan ISO 31000 dalam organisasi\n\n\n Prinsip dan Kerangka Kerja ISO 31000\n\n\nPrinsip dasar manajemen risiko\nStruktur dan kerangka kerja manajemen risiko\n\n\n Proses Manajemen Risiko\n\n\nIdentifikasi risiko\nAnalisis dan evaluasi risiko\nPengendalian dan mitigasi risiko\n\n\n Implementasi Manajemen Risiko\n\n\nIntegrasi manajemen risiko dalam proses bisnis\nPeran dan tanggung jawab dalam manajemen risiko\n\n\n Tantangan dan Solusi dalam Manajemen Risiko\n\n\nKendala umum dalam implementasi ISO 31000\nStrategi mengatasi tantangan implementasi\n\n\n Studi Kasus dan Diskusi\n\n\nAnalisis kasus nyata penerapan ISO 31000\nSesi diskusi dan tanya jawab\n\nABOUT THE COURSE LEADERS:\nIr. Suharto\, MBA \nPublic Training berikutnya : 9 – 11 Desember\, 2026
URL:https://smart-training-center.com/event/manajemen-risiko-sesuai-iso-31000/
LOCATION:Jakarta
CATEGORIES:General,Manajemen,Production Operation,Project,Q-HSE
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/manajemen-risiko-sesuai-iso-31000.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260810T083000
DTEND;TZID=Asia/Krasnoyarsk:20260812T160000
DTSTAMP:20260422T055137
CREATED:20241122T160451Z
LAST-MODIFIED:20260414T055910Z
UID:987-1786350600-1786550400@smart-training-center.com
SUMMARY:Production Safety System
DESCRIPTION:Background & About the Course:\nKeselamatan dalam sistem produksi merupakan aspek kritis yang memastikan operasi berjalan dengan lancar\, efisien\, dan bebas dari insiden yang berpotensi merugikan. Sistem keselamatan produksi tidak hanya melibatkan penerapan teknologi canggih tetapi juga pemahaman mendalam tentang prosedur\, regulasi\, dan pengelolaan risiko yang sesuai dengan standar internasional. \nPelatihan ini dirancang untuk memberikan pemahaman komprehensif mengenai konsep dan praktik terbaik dalam sistem keselamatan produksi. Peserta akan mempelajari cara mengidentifikasi\, mengevaluasi\, dan mengendalikan risiko operasional untuk meminimalkan kecelakaan dan meningkatkan efisiensi operasional. Dengan pendekatan berbasis kasus nyata\, pelatihan ini memberikan pengalaman yang relevan untuk menghadapi tantangan keselamatan di lingkungan kerja. \nCourse Objectives:\n\nMemahami prinsip dasar dan elemen utama sistem keselamatan produksi.\nMengidentifikasi potensi risiko dalam proses produksi dan cara mitigasinya.\nMengimplementasikan standar keselamatan yang sesuai dengan regulasi lokal dan internasional.\nMengembangkan rencana tanggap darurat untuk situasi darurat.\nMengintegrasikan budaya keselamatan ke dalam lingkungan kerja.\n\nWho Should Attend:\n\nManajer produksi dan supervisor.\nPetugas keselamatan dan kesehatan kerja (K3).\nInsinyur yang terlibat dalam proses desain dan operasi produksi.\nPersonel operasional yang bertanggung jawab atas implementasi sistem keselamatan.\nProfesional yang ingin memperdalam pemahaman tentang sistem keselamatan produksi.\n\nCourse Content:\n\nIntroduction to Production Safety System\n\n\nDefinisi dan pentingnya sistem keselamatan produksi.\nRegulasi dan standar keselamatan internasional (ISO\, OSHA\, dll.).\n\n\nHazard Identification and Risk Assessment (HIRA)\n\n\nTeknik identifikasi bahaya dalam proses produksi.\nMetode penilaian risiko dan langkah mitigasi.\n\n\nSafety Management System Framework\n\n\nElemen utama sistem manajemen keselamatan.\nPengembangan kebijakan dan prosedur keselamatan.\n\n\nEmergency Response Planning\n\n\nPenyusunan rencana tanggap darurat.\nSimulasi dan latihan untuk situasi darurat.\n\n\nSafety Culture and Human Factors\n\n\nPenerapan budaya keselamatan di tempat kerja.\nPeran manusia dalam menjaga keselamatan operasional.\n\n\nCase Studies and Best Practices\n\n\nAnalisis kasus nyata kecelakaan dalam produksi.\nImplementasi praktik terbaik untuk mencegah insiden.\n\n\nMonitoring\, Auditing\, and Continuous Improvement\nTeknik pemantauan sistem keselamatan.\nAudit keselamatan dan pengembangan berkelanjutan.\n\nAbout the Trainer:\nIr. In Jumanda Kasdadi\, MT (IJK) is an experienced instructor and he has been conducting training for oil and gas companies since 1997. \nHe has BS and MS in chemical engineering degrees from the Institute Technology Bandung. \nCompanies that have received Mr. Kasdadi’s in-house training include Chevron\, PertaminaHulu Energi–ONWJ\, ConocoPhillips\, Total\, Medco\, Petrochina\, Pertamina\, Star Energy\, Freeport\, and many others. \nIr. In Jumanda Kasdadi\, MT was involved in several projects of Front-End Engineering Design (FEED)\, Risk-Based Inspection (RBI)\, HAZID\, HAZOPS\, QRA\, FTA\, etc; for national and international companies. \nIJK 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) \nPublic Training berikutnya : 10 – 12 November\, 2026
URL:https://smart-training-center.com/event/production-safety-system/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Production Operation,Q-HSE
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/Production-Safet-System.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260811T083000
DTEND;TZID=Asia/Krasnoyarsk:20260813T160000
DTSTAMP:20260422T055137
CREATED:20241122T163252Z
LAST-MODIFIED:20260415T001227Z
UID:1039-1786437000-1786636800@smart-training-center.com
SUMMARY:Safety Integrity Level (SIL)
DESCRIPTION:Background & About the Course\nIn functional safety\, Safety Integrity Level (SIL) is defined as the relative level of risk reduction provided by a Safety Instrumented Function (SIF). It measures the performance required from a SIF to ensure safety. According to the IEC 61508 standard\, there are four SIL levels\, with SIL4 being the most reliable and SIL1 the least. The applicable SIL is determined based on quantitative factors combined with qualitative factors\, such as risk assessment and safety lifecycle management. \nThe design process encompasses everything from procurement\, engineering work\, construction\, to commissioning\, with safety considerations integrated at every stage. This Safety Integrity Level (SIL) training program equips participants with the skills to design\, analyze\, and create engineering reports for projects while considering the safety factors of the designs produced. \nCourse Objectives\nThis training aims to: \n\nUnderstand the fundamental concepts and importance of \n (SIL) in industrial safety systems.\nExplain the relationship between operational risk and the required safety integrity level in a process.\nIdentify methods for determining the appropriate SIL based on risk analysis and system requirements.\nUnderstand international standards such as IEC 61508 and IEC 61511 relevant to SIL.\nProvide knowledge on the selection\, application\, and evaluation of hardware and software to achieve the targeted SIL.\nDevelop skills for verifying and validating SIL in safety instrumentation systems.\nEnhance awareness of functional safety and its impact on operational performance.\n\nWho Should Attend\nRecommended Participants: \n\nEngineers and Managers working in Process Safety\, Instrumentation\, and Control Systems.\nHSE (Health\, Safety\, and Environment) Teams\nMaintenance and Reliability Professionals\nSafety Auditors and Consultants\n\nCourse Outline\n\nFunctional Safety Overview & Safety Instrumented System Scope\nFundamentals of Safety Integrity Level Engineering\nOverview of Process Control\nComponents of Control Loops\nSteps for Safety Integrity Level Analysis\nHazard Identification Techniques\nRisk Estimation and Calculation\nRisk Reduction Requirements & Tolerable Risk\nDetermining Safety Functions and SIL Targets\nSafety Integrity Levels\, Risk Reduction Factor (RRF)\, & Probability of Failure\nSIL Management and Lifecycle\nCase Studies\n\nAbout the Course Leader\nIr. In Jumanda Kasdadi\, M.T.   \nMr. Jumanda is a dedicated lecturer with nearly 280 training sessions conducted across various industries\, particularly in oil and gas\, since 1997. He holds both Bachelor’s and Master’s degrees in Chemical Engineering from the Bandung Institute of Technology. Additionally\, he completed nine specialized courses in the oil and gas sector at PETEX (Petroleum Extension)\, University of Texas at Austin\, in 2018. \nMr. Jumanda possesses numerous professional certifications\, including a Lecturer Certificate from the Indonesian Minister of Education\, Construction\, Electrical\, and Fire Protection Certificates from the HSE Association Indonesia (ALPK3)\, and Risk-Based Inspection (RBI) Facilitator certification. He is also certified in Instrumentation Engineering Design for Oil & Gas Projects with INtools and has qualifications in HAZOPS and HAZID from the Indonesian Certifying Agency (BNSP). \nHe has trained prestigious companies in capital-intensive industries\, including Pertamina\, Chevron\, Total Indonesie\, and Freeport\, among others. Mr. Jumanda has been involved in key projects such as Feasibility Studies (FS)\, Front-End Engineering Design (FEED)\, and SIL Classification\, showcasing his extensive expertise in the oil and gas industry. \nPublic Training berikutnya : 16 – 18 November\, 2026
URL:https://smart-training-center.com/event/safety-integrity-level-sil/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Maintenance,Production Operation,Q-HSE
ATTACH;FMTTYPE=image/png:https://smart-training-center.com/wp-content/uploads/2024/11/SIL-STC-1.png
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
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