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TZID:Asia/Krasnoyarsk
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DTSTART:20250101T000000
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BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260407T083000
DTEND;TZID=Asia/Krasnoyarsk:20260410T160000
DTSTAMP:20260209T081850Z
CREATED:20241122T160422Z
LAST-MODIFIED:20260209T081850Z
UID:981-1775550600-1775836800@smart-training-center.com
SUMMARY:Downhole & Surface Production Equipment
DESCRIPTION:Background & About the Course:\nEfficient production in the oil and gas industry relies heavily on the optimal performance of both downhole and surface equipment. These components play a critical role in enhancing well productivity\, minimizing downtime\, and ensuring the safe operation of production facilities. Understanding the design\, selection\, operation\, and maintenance of this equipment is essential for maximizing reservoir output and prolonging asset life. \nThis course provides participants with in-depth knowledge of downhole and surface production equipment\, focusing on their functions\, failure modes\, and maintenance strategies. The training will cover essential topics such as artificial lift systems\, wellheads\, flowlines\, and separators. Participants will gain practical insights through case studies and discussions on emerging technologies and industry best practices. \nCourse Objectives:\n\nUnderstand the types and functions of downhole and surface production equipment.\nIdentify key factors affecting the performance and lifespan of production equipment.\nLearn troubleshooting techniques to address equipment malfunctions and failures.\nGain insights into the latest technologies and advancements in production systems.\nApply best practices for the maintenance and optimization of production equipment.\nDevelop skills to evaluate equipment selection based on reservoir conditions.\n\nWho Should Attend:\n\nProduction and operations engineers.\nWell services and intervention teams.\nMaintenance and field technicians.\nAsset integrity and reliability engineers.\nDrilling and completion personnel.\nProject managers involved in oil and gas production.\n\nCourse Content:\n\nIntroduction to Production Equipment\n\n\nOverview of downhole and surface production equipment.\nKey considerations in equipment selection and installation.\n\n\nDownhole Equipment\n\n\nTypes and functions of downhole equipment (tubing\, packers\, subsurface safety valves).\nArtificial lift systems (ESP\, gas lift\, rod pumps).\nCompletion equipment and design considerations.\nCommon downhole failures and troubleshooting techniques.\n\n\nSurface Production Equipment\n\n\nWellheads\, chokes\, and flowlines – design and operation.\nSeparators\, heaters\, and scrubbers – working principles and configurations.\nStorage tanks and surface piping systems.\nPressure control and fluid handling.\n\n\nMonitoring and Maintenance\n\n\nInspection\, monitoring\, and performance evaluation.\nPreventive and corrective maintenance strategies.\nVibration analysis\, corrosion monitoring\, and failure analysis.\n\n\nOptimization and Technology Integration\n\n\nInnovations in production equipment and automation.\nDigital tools for equipment monitoring and predictive maintenance.\nCase studies on equipment upgrades and retrofits.\n\n\nCase Studies and Practical Applications\n\n\nReal-world case studies of production challenges and solutions.\nGroup discussions and problem-solving exercises.\n\nABOUT THE COURSE LEADER:\nProf. Dr.-Ing. Bonar Tua Halomoan Marbun \nPublic Training berikutnya : 27 – 30 July\, 2026 | 19 – 22 Oktober\, 2026
URL:https://smart-training-center.com/event/downhole-surface-production-equipment/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Electrical,Engineering,Instrument and control,Maintenance,Mechanical,Oil & Gas,Production Operation
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2024/11/Downhole-Surface-Production-Equipment.jpg
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260414T083000
DTEND;TZID=Asia/Krasnoyarsk:20260417T160000
DTSTAMP:20260209T074451Z
CREATED:20241122T163307Z
LAST-MODIFIED:20260209T074451Z
UID:1041-1776155400-1776441600@smart-training-center.com
SUMMARY:Gas Production Optimization
DESCRIPTION:Background & About the Course\nThe Indonesia Oil Fields need to obtain more reserves\, gas can be the second backbone for national energy reserves. Hence\, the existing ones need to be optimized. The Gas Production Optimization training is to help participants understand the considerations involved in designing and selecting gas well production operation methods. This includes aspects from the reservoir\, wellhead\, separator\, gas processing\, pumps\, piping\, to gas metering. Participants will learn the theory\, applications\, and calculations starting from the fundamentals of reservoir engineering and production engineering\, as well as gas properties\, equipment for gas production\, pipeline design\, and production problem-solving. \nThe training will cover how reservoir rock\, porosity\, permeability\, and fluid properties are measured in the laboratory\, and how these fluid properties affect fluid flow from the reservoir to the surface and ultimately to the end user. Participants will also learn about gas well testing methods\, including Pressure Build-up Tests\, Drawdown Tests\, and other gas well testing techniques\, supported by various field case studies. With years of experience\, Prof. Herianto continuously updates and enhances the training material. By the end of this training\, participants will be equipped to optimize natural gas production effectively. \nCourse Objectives\n\nUnderstand reservoir and resource fundamentals.\nAcquire technical knowledge in production.\nOptimize production systems.\nDevelop field management strategies.\nAchieve operational excellence.\n\nWho Should Attend\nThis training is recommended for: \n\nPetroleum Engineers and Reservoir Engineers\nGas Plant Supervisors and Engineers\nProduction Operators\, Supervisors\, and Engineers\nGas Engineers and Equipment Engineers\nMaintenance Managers and Supervisors\nPiping and Pipeline Supervisors and Engineers\n\nCourse Outline\n\nReservoirs of Oil and Natural Gas\nReserve Forecasting and Decline Curve Analysis\nFundamentals of Production Engineering\nPhysical Properties of Gas\nGas Processing Techniques\nGas Piping Systems\nCompressors and Pumps\nMeasurement of Natural Gas and Liquids\nGas Measurement under AGA Standards\nPigging Operations\nFluid-Rock Interactions\nWater Injection Techniques\nGas Field Management\n\nAbout the Course Leader:\nProf. Dr.-Ing. Bonar Tua Halomoan Marbun \nPublic Training berikutnya : 1 – 4 September\, 2026 | 5 – 8 Oktober\, 2026
URL:https://smart-training-center.com/event/gas-production-optimization/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Oil & Gas
ATTACH;FMTTYPE=image/png:https://smart-training-center.com/wp-content/uploads/2024/11/Gas-Production.png
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260421T080000
DTEND;TZID=Asia/Krasnoyarsk:20260421T170000
DTSTAMP:20260420T232148Z
CREATED:20260420T232148Z
LAST-MODIFIED:20260420T232148Z
UID:2855-1776758400-1776790800@smart-training-center.com
SUMMARY:Basic Petroleum Resource Management System
DESCRIPTION:Background\nDalam industri minyak dan gas bumi\, pengelolaan sumber daya dan cadangan hidrokarbon harus dilakukan secara terstandar\, transparan\, dan dapat dipertanggungjawabkan. Petroleum Resource Management System (PRMS) merupakan kerangka kerja internasional yang digunakan untuk klasifikasi\, estimasi\, dan pelaporan sumber daya dan cadangan migas secara konsisten. \nPemahaman dasar PRMS menjadi penting bagi personel yang terlibat dalam perencanaan pengembangan lapangan\, evaluasi keekonomian\, pengambilan keputusan manajemen\, serta pelaporan kepada regulator dan stakeholder. Training ini dirancang untuk memberikan pemahaman fundamental PRMS bagi peserta yang belum atau baru mengenal sistem ini. \nObjectives\nSetelah mengikuti training ini\, peserta diharapkan mampu: \n\n\nMemahami tujuan dan filosofi dasar PRMS. \n\n\nMengenali klasifikasi sumber daya dan cadangan migas. \n\n\nMemahami perbedaan resources dan reserves dalam PRMS. \n\n\nMemahami konsep ketidakpastian dan tingkat keyakinan (confidence level). \n\n\nMenggunakan PRMS sebagai dasar komunikasi teknis dan manajerial. \n\n\nRecommended Participants \n\n\nTraining ini direkomendasikan untuk: \n\n\nProduction Engineer & Reservoir Engineer (junior) \n\n\nGeoscientist (Geologist & Geophysicist) \n\n\nPlanning & Development Engineer \n\n\nAsset & Project Engineer \n\n\nNon-technical staff migas yang terlibat dalam perencanaan dan pelaporan \n\n\nSupervisor dan staf manajemen operasional migas \n\n\n\n\nCourse Outline\nA. Pengantar Petroleum Resource Management System\n\n\nLatar belakang dan tujuan PRMS \n\n\nPeran PRMS dalam industri migas global \n\n\nHubungan PRMS dengan pengambilan keputusan bisnis \n\n\nB. Konsep Dasar Resources dan Reserves\n\n\nDefinisi petroleum resources \n\n\nDefinisi petroleum reserves \n\n\nPerbedaan resources vs reserves \n\n\nIstilah penting dalam PRMS \n\n\nC. Klasifikasi PRMS\n\n\nProspective Resources \n\n\nContingent Resources \n\n\nReserves (Proved\, Probable\, Possible) \n\n\nProject maturity dan decision gate \n\n\nD. Ketidakpastian dan Tingkat Keyakinan\n\n\nLow\, Best\, dan High estimate \n\n\nKonsep probabilitas dalam PRMS \n\n\nPengantar P90\, P50\, dan P10 \n\n\nE. Faktor Teknis dan Non-Teknis\n\n\nTechnical maturity \n\n\nCommerciality dan economic factors \n\n\nRegulatory dan environmental considerations \n\n\nF. Pelaporan dan Aplikasi PRMS\n\n\nPrinsip dasar pelaporan resources dan reserves \n\n\nKonsistensi dan transparansi data \n\n\nPeran PRMS dalam komunikasi internal dan eksternal \n\n\nG. Studi Kasus dan Diskusi\n\n\nContoh sederhana klasifikasi resources dan reserves \n\n\nDiskusi interpretasi dan penerapan PRMS \n\n\n4. Output Training\n\n\nPemahaman dasar sistem PRMS \n\n\nKemampuan membaca dan memahami laporan resources & reserves \n\n\nDasar yang kuat untuk pelatihan lanjutan reservoir dan evaluasi lapangan \n\n\n\n\nAbout The Course Leader\nIr. Sudiharto\, M.T. \n| Training Berikutnya: 24 – 26 November\, 2026
URL:https://smart-training-center.com/event/basic-petroleum-resource-management-system/
CATEGORIES:Oil & Gas
ATTACH;FMTTYPE=image/webp:https://smart-training-center.com/wp-content/uploads/2026/04/Petroleum-Resources-Management-System.webp
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260421T080000
DTEND;TZID=Asia/Krasnoyarsk:20260423T160000
DTSTAMP:20260209T080738Z
CREATED:20260107T235418Z
LAST-MODIFIED:20260209T080738Z
UID:2292-1776758400-1776960000@smart-training-center.com
SUMMARY:Formation Damage & Well Stimulation
DESCRIPTION:Background:\nFormation damage is often unavoidable and remains one of the major contributors to lost well productivity and injectivity throughout the life of an oil and gas well. From drilling and completion to production and workover operations\, improper fluid selection\, mechanical disturbances\, and chemical incompatibilities can significantly impair near-wellbore and reservoir performance. Therefor Formation Damage & Well Stimulation often come as one package after drilling. \nBeyond understanding formation damage mechanisms\, engineers are increasingly required to design and implement effective well stimulation strategies to restore or enhance well productivity. Acidizing\, hydraulic fracturing\, and other stimulation techniques must be properly selected\, designed\, and evaluated based on reservoir characteristics\, damage mechanisms\, and operational constraints. \nThis course provides an integrated understanding of formation damage diagnosis and well stimulation solutions\, enabling participants to identify damage\, prevent its occurrence\, and apply the most appropriate stimulation techniques to maximize well performance in sandstone\, carbonate\, and unconventional reservoirs. \nTraining Objectives:\n\n\nUnderstand formation damage mechanisms in sandstones\, carbonates\, and shales \n\n\nIdentify damage sources throughout the well lifecycle\, from drilling to production and workover \n\n\nDiagnose formation damage using production data\, pressure analysis\, and logging tools \n\n\nEvaluate damage severity and stimulation candidacy \n\n\nSelect appropriate well stimulation techniques (non-acid\, acidizing\, hydraulic fracturing) \n\n\nUnderstand the principles\, limitations\, and risks of acidizing and fracturing treatments \n\n\nIntegrate formation damage diagnosis with effective stimulation design to improve well productivity and injectivity \n\n\nWho Should Attend:\n\n\nProduction Engineers \n\n\nCompletion & Well Intervention Engineers \n\n\nReservoir Engineers \n\n\nDrilling Engineers \n\n\nPetroleum & Geological Engineers \n\n\nField Supervisors & Production Foremen \n\n\nEngineering Technicians \n\n\nProduction\, Reservoir\, and Asset Managers \n\n\nApplicable for professionals involved in: \n\n\nVertical\, horizontal\, and multilateral wells \n\n\nConventional and unconventional reservoirs \n\n\nOil\, gas\, and injection wells \n\n\nTraining Outline:\n1. Reservoir Fundamentals & Formation Damage Overview\n\n\nGeological and depositional environment review \n\n\nReservoir rock and fluid properties \n\n\nNear-wellbore versus deep formation damage \n\n\nImpact of formation damage on productivity and injectivity \n\n\n2. Rock Properties Influencing Formation Damage\n\n\nPorosity\, permeability\, wettability \n\n\nPore throat size distribution \n\n\nStress sensitivity and compaction effects \n\n\nClay mineralogy and its impact on damage \n\n\n3. Formation Damage Mechanisms\n\n\nDamage in sandstones\, carbonates\, and shales \n\n\nFluid and polymer-related damage \n\n\nDamage during: \n\n\nDrilling operations \n\n\nRunning casing and cementing \n\n\nPerforating \n\n\nWell completion activities \n\n\nProduction (fines migration\, scale\, paraffin\, asphaltenes) \n\n\nWorkover and well intervention \n\n\n\n\nDamage to injection wells \n\n\n4. Formation Damage Evaluation & Diagnosis\n\n\nLaboratory testing and core analysis \n\n\nDamage potential assessment \n\n\nProduction performance analysis \n\n\nPressure transient analysis \n\n\nProduction and injection logging \n\n\nIdentifying candidates for damage removal or stimulation \n\n\n5. Formation Damage Prevention Strategies\n\n\nProper fluid selection and compatibility testing \n\n\nDrilling and completion best practices \n\n\nMinimizing invasion and solids plugging \n\n\nOperational controls to reduce damage risk \n\n\n6. Well Stimulation Fundamentals\n\n\nObjectives of well stimulation \n\n\nStimulation vs. damage removal \n\n\nCandidate selection for stimulation treatments \n\n\nProductivity enhancement concepts \n\n\n7. Non-Acid Stimulation Techniques\n\n\nSolvent treatments \n\n\nSurfactant applications \n\n\nChemical treatments for fines\, scale\, and organic deposits \n\n\nLimitations and field considerations \n\n\n8. Acidizing Treatments\n\n\nMatrix acidizing principles \n\n\nSandstone acidizing \n\n\nCarbonate acidizing \n\n\nAcid systems and additives \n\n\nTreatment design considerations \n\n\nRisks\, limitations\, and post-treatment evaluation \n\n\n9. Hydraulic Fracturing as a Stimulation Method\n\n\nFracturing concepts and objectives \n\n\nFracture geometry and conductivity \n\n\nFracturing as a damage bypass technique \n\n\nOverview of fracture design parameters \n\n\nSmall-scale fracturing for damage remediation \n\n\nOperational and reservoir constraints \n\n\n10. Post-Stimulation Evaluation & Performance Assessment\n\n\nProduction response analysis \n\n\nPressure behavior after stimulation \n\n\nSuccess criteria and common failure causes \n\n\nLessons learned and best practices \n\n\nKey Value of This Training\n\n\nLinks formation damage understanding directly with well stimulation decision-making \n\n\nProvides a practical framework for selecting the right remediation or stimulation method \n\n\nEnhances engineers’ ability to maximize well productivity and asset value \n\n\nSuitable for both mature fields and challenging new developments \n\n\nAbout the Course Leader:\nProf. Dr.-Ing. Bonar Tua Halomoan Marbun\n  \nPublic Training berikutnya : 9 – 11 September\, 2026 | 10 – 12 November\, 2026
URL:https://smart-training-center.com/event/formation-damage-well-stimulation/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Oil & Gas
ATTACH;FMTTYPE=image/jpeg:https://smart-training-center.com/wp-content/uploads/2026/01/Formation-Damage-well-stimulation-1.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260422T083000
DTEND;TZID=Asia/Krasnoyarsk:20260424T160000
DTSTAMP:20260207T130335Z
CREATED:20260207T125834Z
LAST-MODIFIED:20260207T130335Z
UID:2480-1776846600-1777046400@smart-training-center.com
SUMMARY:Marginal Field Development
DESCRIPTION:Technical Solutions & Study Cases from Various Fields in Indonesia\nBACKGROUND:\nMarginal fields refer to discoveries which have not been exploited for long\, due to one or more of the following factors: \n\nVery small sizes of reserves/pool to the extent of not being economically viable\nLack of infrastructure in the vicinity and profitable consumers\nProhibitive development costs\, fiscal levies and or technological constraints\n\nThe various cycles which affect our oil industry have emphasized the need for detailed control of expenditure for development and production of such small discoveries. However\, should technical or economic conditions change\, such fields may become commercial fields. Marginal fields have several parameters that affect them. This includes environmental concerns\, political stability\, access\, remoteness and\, of course\, the price and price stability of the produced gas/liquids. \nThis course will describe parts of unconventional methods to develop the marginal fields and mainly focus on innovative methods and new technology in developing those marginal fields. \nOBJECTIVES:\n\nRecognize production & reservoir characteristics of marginal fields.\nRecognize the unique production & reservoir characteristics that define marginal fields & differentiate them from larger\, more developed oil & gas assets.\nUnderstand the Improved Recovery Methods\nUnderstand the appropriate application of IOR (Improved Oil Recovery) methods to enhance production & maximize the economic potential of marginal fields.\nIdentify under-performing wells or field areas & recommend appropriate intervention\nDetermine the “upside potential” of a field\, distinguishing between incremental reserves & reserve acceleration\nDescribe the unconventional methods of developing marginal fields\nDescribe all new technologies applied on the marginal fields\n\n\n\nRecommended Participants\n\nReservoir engineers\nProduction engineers\nDrilling & Completion Engineer\nDevelopment geoscientists\nBusiness Development\, Asset team leaders\, Acquisition & divestiture managers\n\n\n\nCourse Outline\n\nMarginal fields definition\nWhy opportunities emerge; nature of reserves growth; operating practices and their effect on new opportunities; the contribution of evolving technology\nRecognizing opportunities\, reservoir characteristics & production performance indicative of new opportunities\, unravelling limited data and linking operator practices to new opportunities\nNovel wells for increased production rates\, improved recovery and reduced cost\nInnovative facilities solutions to reduce capital & operating costs for marginal fields\nNew technology/ the future of marginal fields\nProduction optimization techniques that involve types of wells\, well completions\, artificial lift\, stimulation methods\, matrix stimulation & hydraulic fracturing methods\nEnhance Oil Recovery EOR and new technology; water injection/flooding; polymer flooding/ bright water and gas injection\nCase studies and possibility of new technology applications for various fields:\n\nPHR\nPHM\nPHE-ONWJ\nPHE-OSES\nPHE-WMO\n\n\nConclusions and final review\n\n\n\nAbout The Course Leader:\nProf. Dr.-Ing. Bonar Tua Halomoan Marbun is a seasoned academic and industry expert with over 25 years of experience in petroleum and geothermal engineering. Currently serving as a Permanent Professor in Drilling Engineering at Institut Teknologi Bandung (ITB)\, he has held key academic leadership roles including Head of both Undergraduate and Postgraduate Petroleum Engineering Programs. His academic credentials include a Diplom-Ingenieur and Doctorate from Clausthal University of Technology\, Germany\, with research focused on drilling materials and unconventional cement systems. \nProf. Bonar has actively contributed to national and international energy sectors through consultancy\, training\, and policy advising. He has served as an Independent Safety Control Team member for Indonesia’s Ministry of Energy and Mineral Resources\, and as a reviewer and expert for the U.S. Department of Energy. He is also an experienced instructor for Schlumberger NexT and a frequent speaker at industry training programs across Asia and Europe. His teaching and consulting portfolio spans companies such as Pertamina\, Chevron\, and SKK Migas\, with specializations in drilling engineering\, production optimization\, and oil & gas regulations. \nPublic Training berikutnya : 7 – 9 September\, 2026 | 23 – 25 November\, 2026
URL:https://smart-training-center.com/event/marginal-field-development/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Oil & Gas
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
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BEGIN:VEVENT
DTSTART;TZID=Asia/Krasnoyarsk:20260427T083000
DTEND;TZID=Asia/Krasnoyarsk:20260429T160000
DTSTAMP:20260209T081640Z
CREATED:20260208T000448Z
LAST-MODIFIED:20260209T081640Z
UID:2491-1777278600-1777478400@smart-training-center.com
SUMMARY:Sand Control Management
DESCRIPTION:BACKGROUND:\nIn oil & gas production\, sand production remains a critical issue can significantly impact equipment integrity\, production efficiency\, & overall operational safety. If not properly managed\, produced sand can lead to severe erosion of equipment\, flow restrictions\, & even complete system failures. Hence\, effective sand control management is essential to ensuring long-term well productivity & minimizing risks. \nThis sand control management training is designed to equip participants with a comprehensive understanding of sand control challenges & solutions. It covers the fundamentals of sand production mechanisms\, sand prediction techniques\, & a range of sand control methods such as gravel packing\, screen technologies\, & chemical consolidation. Practical case studies and technical simulations are also included to strengthen analytical and decision-making skills in field operations. \nOBJECTIVES:\n– How to Determine the causes of sand production\n– Determine the need for sand control\n– Select the best sand control method\n– Prepare the well for the proper application of sand control\n– Apply best practices to ensure successful sand control completions\n– Conduct successful frac-packs\n– Evaluate sand control performance\n– Minimize production losses\n– Evaluate new technologies for proper applications\n– operational issues related to sand control failure \n\n\nRecommended Participants\nDrilling\, completion\, production\, and research engineers; field supervisors and production foremen; technical personnel who supply services and equipment \n\nCourse Outline\n1. Sand Control Techniques\n\no Overview of mechanical\, chemical\, and rate control methods\nAdvantages\, limitations\, and selection criteria of each technique\nCase histories and field applications\n\n2. Radial Flow and Formation Damage\n\nFundamentals of radial flow in porous media\nMechanisms of formation damage during drilling\, completion\, and production\nMitigation and remediation strategies\n\n3. Causes and Effects of Sand Production\n\nReservoir and rock mechanics considerations\nWellbore stresses and drawdown effects\nEconomic\, operational\, and safety impacts of sand production\n\n4. Predicting Sand Production\n\nRock strength evaluation and failure mechanisms\nAnalytical and numerical modeling approaches\nLaboratory testing and field data interpretation\n\n5. Gravel Pack Design\n\nPrinciples of gravel sizing and selection\nGravel-pack carrier fluids and placement techniques\nDesign optimization and common challenges\n\n6. Slotted Liners and Wire-Wrapped Screens\n\nTypes\, construction\, and applications\nFlow efficiency and plugging mechanisms\nSelection criteria and performance evaluation\n\n7. Gravel Pack Completion Equipment and Service Tools\n\nPackers\, crossover tools\, and fluid systems\nPumps\, blenders\, and surface equipment\nOperational considerations and troubleshooting\n\n8. Well Preparation for Gravel Packing\n\nWell cleanout and conditioning procedures\nFluid compatibility and filter cake removal\nPre-job checks and readiness verification\n\n9. Perforating for Gravel Placement Techniques\n\nPerforation strategies for effective gravel placement\nGun selection\, shot density\, & phasing considerations\nMinimizing damage and ensuring connectivity\n\n10. Perforation Prepacking and Enhanced Prepacking\n\nConcept and advantages of prepacking techniques\nFluid systems and placement methods\nApplication in unconsolidated formations\n\n11. Frac Packing\n\nPrinciples of fracturing with gravel placement\nFluid and proppant selection\nDesign\, execution\, and performance monitoring\n\n12. Open Hole Gravel Packing\n\nTechniques and challenges in open hole completions\nScreen installation and gravel placement methods\nCase histories and lessons learned\n\n13. Expandable Screens\n\nTechnology overview and deployment methods\nAdvantages compared to conventional screens\nApplication in complex wellbore geometries\n\n14. Gravel Pack Performance\n\nKey performance indicators and monitoring techniques\nSand control longevity and failure mechanisms\nPost-job evaluation and optimization strategies\n\n15. Horizontal & Directional Wells Completions\n\nSand control challenges in deviated & horizontal wells\nCompletion options: stand-alone screens\, gravel packs\, expandable systems\nBest practices and case examples\n\n\n\nAbout The Course Leader:\n\nTrainer   : Prof. Dr.-Ing. Bonar Tua Halomoan Marbun \nPublic Training berikutnya : 3 – 5 Agustus\, 2026 | 9 – 11 November\, 2026
URL:https://smart-training-center.com/event/sand-control-management/
LOCATION:Bandung\, Jawa Barat\, Indonesia
CATEGORIES:Engineering,Oil & Gas
ORGANIZER;CN="PT Fiqry Jaya Manunggal":MAILTO:info@fiqry.com
END:VEVENT
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