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Why Choose Revit Basic to Advanced Training Course? Course info. Revit Basic to Advanced Master complex 3D modeling, BIM workflows, and project phasing. In-person or live online options available. Enroll now to elevate your architectural, engineering, and construction projects with advanced Revit techniques. Duration: 16 hours Methof: Personalized 1-on-1. Customized Schedule: Choose a convenient hour from Mon to Sat between 9 am and 7 pm to create your own schedule.   Revit Basic to Advanced Training Course: Learn the fundamentals of Revit for architecture and structural design, supporting BIM workflows for efficient building construction. Delivery Options: In-class at our center Live online sessions Who Should Attend? Ideal for architects, building designers, structural engineers, and general users. Course Outline: I. Introduction to Revit  Explore Revit's purpose and applications Familiarize yourself with the user-friendly interface and essential tools Navigate efficiently and control viewports Initiate and save projects for future reference II. Setting up a Project  Create new projects and use templates for efficiency Establish project levels, grids, and crucial building information Configure project units for precision and consistency III. Basic Modeling  Master the creation and customization of walls, doors, and windows Develop floors, ceilings, and roofs for complete building structures Craft functional and aesthetically pleasing stairs and railings IV. Advanced Modeling  Learn to design custom parametric families to enhance productivity Explore conceptual modeling tools for creative freedom Integrate lighting and materials for realistic 3D rendering V. Views and Sheets  Efficiently manage views and organize them effectively Generate informative and well-structured sheets for documentation Integrate schedules and tags to enhance information clarity VI. Annotation and Detailing  Add clear and concise text and dimensions to your designs Customize detail components for precise annotations Employ symbols and keynote legends for standardized documentation VII. Phasing and Worksharing Grasp the concepts of phasing and design options Manage and modify phases effectively Collaborate seamlessly with worksharing features VIII. Project Collaboration and Management Establish a productive worksharing environment Monitor and track worksets and user activities Synchronize worksets for a coordinated team effort IX. Advanced Documentation  Create specialized and advanced schedules for comprehensive project insights Develop legends and keynotes to enhance documentation clarity Finalize construction documents with professional-looking sheets and title blocks X. Conclusion and Next Steps  Recapitulate the course content and achievements Receive valuable tips for continuous learning and further resources Engage in a Q&A session to address any remaining queries or concerns For more information and to start your learning journey, visit our website or download the free trial of Autodesk Revit from the provided link: https://www.autodesk.co.uk/autodesk/revit

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About this Training Course Geomechanical evaluations are about the assessment of deformations and failure in the subsurface due to oil & gas production, geothermal operations, CO2 storage and other operations. All geomechanical evaluations include four types of modelling assumptions, which will be systematically addressed in this training, namely: 1. Geometrical modelling assumption: Impact of structural styles on initial stress and stress redistribution due to operations 2. Formation (or constitutive) behaviour: Linear elastic and non-linear behaviour, associated models and their parameters, and methods how to constrain these using 3. Initial stress: Relation with structural setting and methods to quantify the in-situ stress condition 4. Loading conditions: Changes in pore pressure and temperature on wellbore and field scale This 5 full-day course starts with the determination of the stresses in the earth, the impact of different structural styles, salt bodies, faulting and folding on the orientation of the three main principal stress components. Different (field) data sources will be discussed to constrain their magnitude, while exercises will be made to gain hands-on experience. Subsequently, the concepts of stress and strain will be discussed, linear elasticity, total and effective stress and poro-elasticity in 1D, 2D and 3D, as well as thermal expansion. Participants will be able to construct and interpret a Mohr-circles. Also, different failure mechanisms and associated models (plastic, viscous) will be discussed. All these concepts apply on a material point level. Next, geomechanics on the wellbore scale is addressed, starting with the stress distribution around the wellbore (Kirsch equations). The impact of mudweight on shear and tensile failure (fracturing) will be calculated, and participants will be able to determine the mudweight window stable drilling operations, while considering well deviation and the use of oil-based and water-based muds (pore pressure penetration). Fracturing conditions and fracture propagation will be addressed. Field-scale geomechanics is addressed on the fourth day, focussing on building a 3D geomechanical model that is fit-for-purpose (focussing on the risks that need evaluation). Here, geological interpretation (layering), initial stress and formation property estimation (from petrophysical logs and lab experiments) as well as determining the loading conditions come together. The course is concluded with interpretation of the field-wide geomechanical response to reservoir depletion with special attention to reservoir compaction & subsidence, well failure and fault reactivation & induced seismicity. Special attention is paid to uncertainties and formulating advice that impacts decision-making during development and production stages of a project. This course can also be offered through Virtual Instructor Led Training (VILT) format. Training Objectives Upon completing of this course, the participants will be able to: Identify potential project risks that may need a geomechanical evaluation Construct a pressure-depth plot based on available field data (density logs, (X)LOT, FIT, RFT) Employ log-based correlation function to estimate mechanical properties Produce a simplified, but appropriate geometrical (layered, upscaled) model that honours contrasts in initial stress, formation properties and loading conditions, including Construct and interpret a Mohr-circle for shear and tensile failure Calculate the mud weight that leads to shear and tensile failure (fracturing conditions) Identify potential lab experiments to measure required formation properties Describe the workflow and data to develop a field-wide fit-for-purpose geomechanical model Discuss the qualitative impact of pressure and temperature change on the risk related to compaction, well failure, top-seal integrity and fault reactivation Target Audience This course is intended for Drilling Engineers, Well Engineers, Production Technologists, Completion Engineers, Well Superintendents, Directional Drillers, Wellsite Supervisors and others, who wish to further their understanding of rock mechanics and its application to drilling and completion. There is no specific formal pre-requisite for this course. However, the participants are requested to have been exposed to drilling, completions and production operations in their positions and to have a recommended minimum of 3 years of field experience. Course Level Intermediate Trainer Your expert course leader has over 30 years of experience in the Oil & Gas industry, covering all geomechanical issues in the petroleum industry for Shell. Some of his projects included doing research and providing operational advice in wellbore stability, sand failure prediction, and oil-shale retortion among others. He guided multi-disciplinary teams in compaction & subsidence, top-seal integrity, fault reactivation, induced-seismicity and containment. He was also involved in projects related to Carbon Capture Storage (CCS). He is the founding father of various innovations and assessment tools, and developed new insights into the root causes seismicity induced by Oil & Gas production. Furthermore, he was the regional coordinator for technology deployment in Africa, and Smart Fields (DOFF, iField) design advisor for Shell globally. He was responsible for the Geomechanical competence framework, and associated virtual and classroom training programme in Shell for the last 10 years. He served as one of the Subject Matter Expert (SME) on geomechanics, provided Technical Assurance to many risk assessments, and is a co-author of Shell's global minimun standard on top-seal integry and containment. He has a MSc and PhD in Civil Engineering and computational mechanics from Delft University of Technology, The Netherlands. Training experience: Developed and delivered the following (between 2010 and 2020): The competence framework for the global geomechanical discipline in Shell Online Geomechanical training programs for petroleum engineers (post-doc level) The global minimum standard for top-seal integrity assessment in Shell Over 50 learning nuggets with Subject Matter Experts Various Shell virtual Geomechanical training courses covering all subjects Developed Advanced Geomechanical training program for experienced staff in Shell Coaching of KPC staff on Geomechanics and containment issues on an internship at Shell in The Netherlands, Q4 2014 Lectured at the Utrecht University summer school (The Netherlands, 2020) on induced seismicity among renowned earthquake experts (Prof. Mark Zoback, Prof. Jean-Philippe Avouac, Prof. Jean-Pierre Ampuero and Prof. Torsten Dahm) (https://www.nwo.nl/onderzoeksprogrammas/deepnl/bijeenkomsten/6-10-juli-2020-deepnl-webinar-series-induced-seismicity) Lectured at the Danish Technical University summer school (Copenhagen, 2021) summer school on Carbon Capture and Storage (https://www.oilgas.dtu.dk/english/Events/DHRTC-Summer-School) Virtual Carbon Capture and Storage (CCS): Project Risks & How to Manage Them training course (October and November 2021) POST TRAINING COACHING SUPPORT (OPTIONAL) To further optimise your learning experience from our courses, we also offer individualized 'One to One' coaching support for 2 hours post training. We can help improve your competence in your chosen area of interest, based on your learning needs and available hours. This is a great opportunity to improve your capability and confidence in a particular area of expertise. It will be delivered over a secure video conference call by one of our senior trainers. They will work with you to create a tailor-made coaching program that will help you achieve your goals faster. Request for further information post training support and fees applicable Accreditions And Affliations

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About this VILT Tripod can be used in any area of business where the organisation has a management system in place to prevent unwanted events e.g., health, safety, environment, quality, security, productivity, project management, and many more Tripod Beta is one of several tools based on Tripod's fundamental principles. Tripod Beta is based on proven theories, man years of academic research, and testing in the workplace. The Swiss Cheese Model originated from this work. Features of the methodology are: 1) the Tripod Beta diagram; it provides an easy-to-read summary of the entire investigation on a single page, 2) it accommodates deficiencies in leadership and worker participation, 3) it accommodates deficiencies in human behaviour, and 4) it highlights missing controls (not just controls that failed). Quality throughout all aspects of Tripod is assured by the Stichting Tripod Foundation (STF) and the Energy Institute. The participants will gain a theoretical understanding of the Tripod Beta methodology and terminology. They will be able to read Tripod diagrams and reports, and be able to assist incident investigation/analysis as a team member. This is the first step to becoming an accredited silver or gold practitioner. Tripod Beta Practitioner Accreditation is meant to build these skills, through a blend of support, coaching and assessments. Feedback is provided on Tripod incident investigation reports, giving the Practitioner the opportunity to hone their skills and become confident in their ability to use Tripod effectively. Training Objectives Upon completion of this course, participants will be able to: Pass the Tripod Beta Practitioner (Bronze Level) exam Act as a team member or Tripod facilitator on an incident investigation Plan and schedule activities for an incident investigation Focus line of enquiry during an investigation Engage with the most relevant people at each stage of the investigation Describe the incident causation paths in terms that align with their management system Consider issues relating to leadership, worker participation and human behaviour Assess the quality of an incident report Apply the process to any type of unwanted event that should have been prevented by a management system e.g., health, safety, environment, financial, security, productivity, quality, project management etc. Combine the findings from many incidents with data from other initiatives e.g., audits and inspections, to spot trends to prioritise actions and product a single improvement plan Target Audience The course is recommended for anyone who is expected to play a role in designing, reviewing, auditing, and following your organizations OH&S management system. Successful participants will be awarded the Stitching Tripod Foundation Tripod Beta Bronze certificate. The following oil & gas company personnel will benefit from the knowledge shared in this course: CEO Team Leaders Legal, insurance and finance departments Managers (Line and Function) Maintenance Engineers Quality Assurance Engineers Process Engineers Incident Investigators (Team member & Tripod facilitator) Project Managers System Custodians Technical Authorities Key Contractor's Management Contract Managers/Holders Safety Representatives Risk Management Engineers HSE Advisors Supervisors Auditors Regulators Course Level Basic or Foundation Trainer Your expert course leader has over 30 years of experience in construction, operations and maintenance with the upstream exploration and production sector. He joined Shell International E&P in 1971 and for 28 years worked in several locations around the world. Following the Piper Alpha incident he led Shell's two year, £10M major overhaul of their permit to work system. He first made use of the Tripod Beta principles during this period and since then he has delivered over 100 Tripod Beta courses in more than 25 locations around the world. He is a Chartered Engineer, a member of the Institution of Engineering and Technology and holds a postgraduate diploma from the University of Birmingham (UK). POST TRAINING COACHING SUPPORT (OPTIONAL) To further optimise your learning experience from our courses, we also offer individualized 'One to One' coaching support for 2 hours post training. We can help improve your competence in your chosen area of interest, based on your learning needs and available hours. This is a great opportunity to improve your capability and confidence in a particular area of expertise. It will be delivered over a secure video conference call by one of our senior trainers. They will work with you to create a tailor-made coaching program that will help you achieve your goals faster. Request for further information post training support and fees applicable Accreditions And Affliations

Duration 3 Days 18 CPD hours This course is intended for This course is designed for project leaders, scrum masters, coaches, product owners, and team members who intend on taking the PMI-ACP© exam. Overview Upon successful completion of this course, you will know: ? Agile principles and practices that will enhance team productivity and improve customer satisfaction ? How to create transparent communication among stakeholders ? How to manage project's scope, schedule and budget in an Agile environment ? How to maximize business value and deliver most value early in the project ? How to build high-performing team ? How to plan at multiple levels and manage stakeholders' expectations ? How to detect, track and resolve risks in an Agile project This course provides participants with a solid foundation of the PMI-ACP© exam. Participants will be introduced to PMI Agile concepts and practices. Introduction to the PMI-ACP© Course and ExamAgile Principles and Mindset Agile project Management Framework: ? What is Agility ? Agile Manifesto ? Agile Principles ? Agile Methodologies: Scrum, Kanban, Extreme programming (XP), Lean ? Agile leadership ? Agile process overview Value-Driven Delivery What is Value-driven delivery, how to deliver value early and minimize waste Assessing Value - Return on Investment (ROI), net present value (NPV), Internal rate of return (IRR), earned value management, managing risk Value Based prioritization ? Customer-Valued prioritization, prioritization schemes (Kano analysis, MoSCoW, relative prioritization / ranking Delivering incrementally ? Minimal Viable Product (MVP), Minimal marketable Feature (MMF), Work In progress (WIP), WIP Limits, Bottlenecks, Cumulative Flow Diagram (CFD) Contracting in Agile projects Verification and validation Stakeholder Engagement Identifying project stakeholders Managing stakeholder engagement Establishing a shared vision ? Agile chartering, Definition of 'Done' (DoD), Agile modelling, wireframes, personas Communication Management ? face to face communication, two-way communication, knowledge sharing, information radiators, social media Working collaboratively ? workshops, brainstorming, collaboration games Interpersonal skills for Agile success ? emotional intelligence, active listening, facilitation, negotiation, conflict resolution, participatory decision making Team Performance Agile team roles High-performing Agile teams ? stages of team development Adaptive leadership Creating collaborative team spaces ? co-located teams, osmotic communication, distributed teams Tracking team performance in Agile teams ? burn charts, velocity Adaptive Planning Defining adaptive planning Principles of Agile planning Tools for sizing and estimating Releases and Iterations planning Problem Detection ?nd Resolution How problems impact a project Detecting problems ? lead time and cycle time, defects, variance analysis, trend analysis, control limits Managing projects threats and issues ? risk-adjusted backlog, risk severity, risk burndown graphs Solving problems Continuous Improvement Multiple levels of improvement ? processes, product, people Implementing continuous process improvement ? process tailoring, systems thinking, process analysis, value stream mapping, project pre-mortems Working towards continuous product improvement ? product feedback loops and learning cycle Leading continuous people improvement ? retrospectives, team self-assessments PMI-ACP© Exam Preparation PMI-ACP© Exam Particulars Overview PMI-ACP© Exam Particulars PMI-ACP© Candidate Requirements PMI-ACP© Candidate Fees PMI-ACP© Exam Application Process