BEGIN:VCALENDAR VERSION:2.0 PRODID:-//Opus Kinetic - ECPv6.15.12.2//NONSGML v1.0//EN CALSCALE:GREGORIAN METHOD:PUBLISH X-ORIGINAL-URL:https://www.opuskinetic.com X-WR-CALDESC:Events for Opus Kinetic REFRESH-INTERVAL;VALUE=DURATION:PT1H X-Robots-Tag:noindex X-PUBLISHED-TTL:PT1H BEGIN:VTIMEZONE TZID:Asia/Singapore BEGIN:STANDARD TZOFFSETFROM:+0800 TZOFFSETTO:+0800 TZNAME:+08 DTSTART:20170101T000000 END:STANDARD END:VTIMEZONE BEGIN:VEVENT DTSTART;VALUE=DATE:20180903 DTEND;VALUE=DATE:20180906 DTSTAMP:20260411T113723 CREATED:20180514T025350Z LAST-MODIFIED:20190221T074637Z UID:10000454-1535932800-1536191999@www.opuskinetic.com SUMMARY:Introduction to Drilling and Completion and Well Intervention (CWI) DESCRIPTION:Overview\nThe drilling and CWI discipline is a very specialized field\, with a lot of unique and dedicated equipment. The technology is difficult to understand as it happens underground and can only be imagined. For young\, new and/or staff from support departments there is a lot value added to have an introduction to and get better background understanding of the technologies. \nWho Should Attend\nPersonnel directly responsible and or involved in Drilling and Intervention operations or about to be involved after having completed Pre-study. Personnel in support function for the drilling and intervention operations\, like HSE\, Finance\, Production of HR staff. \n  \nKey Learning Objectives\n\nUnderstanding the drilling process\, its risks\, difficulties and terminology\nUnderstanding the Well Intervention process\, why it needs to be performed\, risk\, terminology\, difficulties and effects on Unit Technical Cost\nUnderstand the drilling process\nUnderstand the terminology used\, names of material and equipment\nUnderstand the need and requirement of WRM\, cost of regrets\, economics of intervention\nUnderstand the terminology used\, names of material and equipment\nDiscuss well design and construction to create a “integer” well with lowest Unit Technical Cost\nDevelop sufficient understanding of the full selection process of a well\, the design\, complication during construction\nDevelop the need for Well and Reservoir Maintenance (WRM) in design and execution\nAppreciate the planning and execution of drilling wells and well interventions\n\nEnquiry Form\n\n\n \n \n SalutationMr.Miss.Mrs.Mdm.Dr.Prof.Capt.Name\n \n \n \n First\n \n \n \n \n Last\n \n \n PhoneEmail\n \n CompanyAdditional Comments:CAPTCHA URL:https://www.opuskinetic.com/training/introduction-to-drilling-and-completion-and-well-intervention-cwi/ LOCATION:Kuala Lumpur\, Federal Territory of Kuala Lumpur\, Kuala Lumpur\, Malaysia CATEGORIES:Downstream,Oil/Gas/Petrochemicals GEO:3.1384965;101.7099933 END:VEVENT BEGIN:VEVENT DTSTART;VALUE=DATE:20180905 DTEND;VALUE=DATE:20180907 DTSTAMP:20260411T113723 CREATED:20180525T090624Z LAST-MODIFIED:20190221T074636Z UID:10000460-1536105600-1536278399@www.opuskinetic.com SUMMARY:Risk and Reliability Engineering for Operational Excellence DESCRIPTION:Overview\nAsset / maintenance managers are increasingly faced with situations in which they have to comply with specified risk and reliability targets or have to demonstrate a cost – benefit analysis of their activities. Governments and regulatory bodies are the main actors in setting such levels of the first type in public private partnerships; the current shareholder interests drive the second. Many companies are involved with ISO 5500 Asset management programmes. \nReliability Engineering (RE)\, a sub-branch of Operational Research\, then is advocated to be an appropriate tool. However\, experience shows that the mathematical background of RE in many cases fails to recognise practical situations\, assuming information and operational conditions to be known to such extent that precise\, in-depth analysis is possible. Practical engineers\, generally being risk-aversive\, thus have an easy excuse of shying away from such “advanced scientific techniques”\, relying more on technical insight\, in many cases “gut feeling”. However\, the RE framework\, if properly used\, has proved to be an effective tool in decision support.  \nWho Should Attend\nThis workshop is designed to be beneficial to all individuals who are involved in maintenance in the oil and gas and petrochemical industry. Job titles include but are not limited to: \n\nMaintenance Engineers/Supervisors/Managers\nOperations Engineers/Supervisors/Managers\nProduction Engineers/Supervisors/Managers\nProject Engineers/Supervisors/Managers\nLogistics co-ordinators\nPlanners\nPlant Manager/ Asset Manager\n\nKey Learning Objectives\n\nTransform the vision of your organisation from maintenance support to Asset Management\nDeal with decisions requiring a proper understanding of chance and risk\nAnalyse system configuration in terms of potential production in relation with reliability and maintenance characteristics\nTo select and apply appropriate Reliability and Maintenance engineering methods (FMECA\, RBD\, FTA\, RCM\, RBM\, CBM) given available information\nSelect and store field information to steer and secure this management process\nUnderstand the methods that contribute to asset performance\, and that interact with and support each other\n\nEnquiry Form\n\n \n \n SalutationMr.Miss.Mrs.Mdm.Dr.Prof.Capt.Name\n \n \n \n First\n \n \n \n \n Last\n \n \n PhoneEmail\n \n CompanyAdditional Comments:CAPTCHA URL:https://www.opuskinetic.com/training/risk-and-reliability-engineering-for-operational-excellence-4/ LOCATION:Singapore\, Singapore CATEGORIES:Downstream,Oil/Gas/Petrochemicals GEO:1.352083;103.819836 END:VEVENT BEGIN:VEVENT DTSTART;VALUE=DATE:20180905 DTEND;VALUE=DATE:20180908 DTSTAMP:20260411T113723 CREATED:20180904T062122Z LAST-MODIFIED:20190221T074636Z UID:10000534-1536105600-1536364799@www.opuskinetic.com SUMMARY:ALARP Principles & Guidelines DESCRIPTION:Overview\nRisk reduction measures are required to be demonstrated in Safety Case as per Singapore WSH (MHI) Regulations. One of the key components of Safety Case is to demonstrate risk reduction to As Low As Reasonably Practicable (ALARP) level by adopting and implementing control measures. Therefore\, there is a need to understand the use of these principles with respect to the level of uncertainty and on the risk criteria. In this case-study led workshop\, delegates will be taught on the key concepts\, and approaches taken to demonstrate or provide evidence on ALARP. \nThis course covers the important principles of ALARP. It discusses the variability of ALARP requirements for managing similar hazards in different circumstances and the application of risk targets. It looks at different ways of assessing risk from quantified approaches to qualitative approaches for both consequence and frequency analysis and when to use these. The application of inherent safety principles and recognised good practice are discussed along with Cost Benefit Analysis (CBA) and the concepts of reasonably practicable and disproportionality. Besides demonstrating ALARP in the Safety Case\, ALARP should be applied throughout the life cycle of any facility. \nThis workshop will touch on how to apply the concept in different situations such as during design\, specifying instrumented safety systems\, operating procedures\, and coverage during maintenance of safety critical equipment. Several case studies are presented for the delegates to work through and a discussion on common errors and how the concept is often misused. Throughout this workshop\, participants will be taught on how to prove that ALARP has been properly implemented as part of effective risk management and how ALARP is implemented in the design\, development\, and operation of engineering systems. \nWho Should Attend\nEngineers\, Executives\, Supervisors\, and Managers especially those who work in Technical & Planning\, Production/Operation\, Engineering\, and SHE departments in Refinery\, Chemicals\, and Petrochemical settings will benefit by attending this course.\nPotential attendees are: \n\nProcess Engineer\nProcess Champion\nEHS Engineer\nProduction Engineer\nProduction Supervisor\nMaintenance Engineer\nOperations Engineer\nMechanical Engineer\nPiping Engineer\nProduction Manager\nTechnical Manager\nTechnical Development Manager\n\nKey Learning Points\n\nLearn the essential principles of ALARP and how it fits within a Safety Case\nGain the key concepts of ALARP principles and the fundamental approaches for its applications\nKnow the HSE principles for CBA in support of ALARP decisions\nUnderstand the approaches to good practice and to demonstrate ALARP using different decision making criteria\nAcquire tools and techniques to determine factors in selecting or rejecting control measures\nWith each process deviation\, apply the concept of ALARP or risk elimination on the causes and consequences\nBecome familiar with PHA study\, its context in WSH Act and its relation in Safety Case regime\nExercise caution in regards to reverse ALARP whereby CBA or QRA is used to justify higher risk\n\nEnquiry Form\n\n \n \n SalutationMr.Miss.Mrs.Mdm.Dr.Prof.Capt.Name\n \n \n \n First\n \n \n \n \n Last\n \n \n PhoneEmail\n \n CompanyAdditional Comments:CAPTCHA URL:https://www.opuskinetic.com/training/alarp-principles-guidelines-8/ LOCATION:Kuala Lumpur\, Federal Territory of Kuala Lumpur\, Kuala Lumpur\, Malaysia CATEGORIES:Corporate, Business Management and HR,Downstream,Oil/Gas/Petrochemicals GEO:3.1384965;101.7099933 END:VEVENT BEGIN:VEVENT DTSTART;VALUE=DATE:20180917 DTEND;VALUE=DATE:20180919 DTSTAMP:20260411T113723 CREATED:20180525T091333Z LAST-MODIFIED:20190221T074636Z UID:10000461-1537142400-1537315199@www.opuskinetic.com SUMMARY:Advanced Fire and Explosion Investigation DESCRIPTION:Overview\nA US Chemical Safety Board study found 26 explosions and fires since 1983 at conventional oil and gas sites that killed 44 members of the public and injured 25 others. The percentage of death caused by fire and gas explosions while a small percentage\, is certainly unacceptable\, and industry safety should be a no. 1 priority. \nMeasures have been adopted throughout the industry to prevent fires and explosions\, such as better design standards\, gas detectors\, strict control of potential ignition sources\, rigid smoking restrictions and new firefighting equipment. Fire and gas explosion investigation continues to be of paramount importance to understand what could go wrong and how to prevent past fatalities from happening. \nWho Should Attend\nPersonnel involved in HSE\, Risk and Safety\, Fire Safety\, Process Safety or others involved in the fire and gas safety and investigation. \nKey Learning Points\n\nApply a systematic approach to fre and gas explosion investigation\nRelating fire investigations to the scientific method\nUnderstand fire science and fire patterns\nOrganise investigation functions effectively and have proper documentation of scene\nExamine possible ignition sources and how to determine the most likely culprit\nConduct preliminary assessment and origin determination\nLearn fire cause determination and the elimination process\nUnderstand Failure Analysis and the use of analytical tools\n\nEnquiry Form\n\n \n \n SalutationMr.Miss.Mrs.Mdm.Dr.Prof.Capt.Name\n \n \n \n First\n \n \n \n \n Last\n \n \n PhoneEmail\n \n CompanyAdditional Comments:CAPTCHA\n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n\n  URL:https://www.opuskinetic.com/training/advanced-fire-and-explosion-investigation-3/ LOCATION:Singapore\, Singapore CATEGORIES:Downstream,Oil/Gas/Petrochemicals GEO:1.352083;103.819836 END:VEVENT BEGIN:VEVENT DTSTART;VALUE=DATE:20180924 DTEND;VALUE=DATE:20180928 DTSTAMP:20260411T113723 CREATED:20180305T034214Z LAST-MODIFIED:20190221T074636Z UID:10000419-1537747200-1538092799@www.opuskinetic.com SUMMARY:TÜV Rheinland Functional Safety Training Program DESCRIPTION:Overview\nThis training focuses on functional safety aspects for process\, oil & gas\, petrochemical and chemical industries according to IEC 61508 / IEC 61511. This includes the complete safety lifecycle in the context of Safety Instrumented Systems (SIS) projects. \nThese courses comprise 3 days of classroom tuition and practical guidance\, for understanding and mastering the application\, principles and requirements of Edition 2 IEC 61508 & Edition 2 of IEC 61511 for SIS. We also include many fundamental topics that we know you need to understand\, but are not covered in the standards. Practical exercises will be performed throughout the course based on real life examples. There is a 4 hour competency examination on the last day. \nWho Should Attend\nInstrument Engineer\, Process Engineers\, Process Safety Engineers and Safety Engineers as well as senior Operating and Maintenance personnel who are involved in any of the safety lifecycle phases for safety instrumented systems from hazard and risk analysis through design of shutdown systems/fire and gas systems to installation\, commissioning\, testing and maintenance. \nIn accordance with the TÜV Rheinland Functional Safety Training Program: \nParticipants should have a minimum of 3 years of experience in the field of functional safety and a University degree or equivalent engineering experience and responsibilities as certified by their employer or engineering instituition. \nKey Learning Objectives\n\nProcess hazard analysis and associated risk management using the most popular and internationally adopted methods and tools\nRequirements for a Safety Requirement Specification (SRS) and shown how to undertake appropriate cost effective designs for Safety Instrumented Systems (SIS) and Safety Instrumented Functions (SIF) and how optimal test and maintenance strategies for them can be achieved\nApplication software requirements for safety instrumented systems (SIS) and the relationships between hardware and software architecture\n\nEnquiry Form\n\n \n \n SalutationMr.Miss.Mrs.Mdm.Dr.Prof.Capt.Name\n \n \n \n First\n \n \n \n \n Last\n \n \n PhoneEmail\n \n CompanyAdditional Comments:CAPTCHA URL:https://www.opuskinetic.com/training/tuv-rheinland-functional-safety-training-program-3/ LOCATION:Singapore\, Singapore CATEGORIES:Downstream,Oil/Gas/Petrochemicals GEO:1.352083;103.819836 END:VEVENT END:VCALENDAR