2271 Energy courses

About this Training Course Gas wells are the most uncertain hence critical component of any gas production system. A successful gas project relies on a reliable forecast of gas well production and on timely implementation of measures that restore, sustain and improve gas well capacity, and maximize reserves. This 5-day course provides the skills to understand and analyze (changes in) gas well performance, and to select and design those remedial measures. It addresses all four gas well components i.e. reservoir performance, inflow performance, outflow performance and surface performance, individually and combined. In depletion-drive reservoirs, the gas well outflow performance becomes inevitably compromised as the reservoir pressure depletes and the gas rate becomes insufficient to lift liquid water and condensate to surface. This condition is referred to as liquid loading and causes significant loss of well capacity and reserves. This 5-day course provides the means to recognize and predict liquid loading, introduces the deliquification techniques that mitigate liquid loading, and then teaches how to select, design, install and operate the optimum suite of deliquification measures. Training Objectives On completion of this course, participants will be able to: Recognize and model gas well reservoir, inflow, outflow and surface performance Understand and model gas well production forecast and reserves Identify and model gas well performance threats and opportunities, specifically liquid loading and deliquification Select and justify remedial measures that mitigate those threats or realize those opportunities, specifically deliquification measures Understand design, installation and operation of those deliquification measures Target Audience This course is intended for production engineer, surveillance engineer, completion engineer, production/process chemist, reservoir engineer, production programmer, production operator, as well as other professionals responsible for selecting, installing, operating, monitoring and optimizing deliquification. Course Level Basic or Foundation Training Methods This course consists of a series of lectures and exercises. The lectures are interactive with field examples to illustrate models and concepts, where participants are encouraged to contribute their own relevant field examples. The exercises make use of a series of Excel worksheets for model calculations. Participants are invited to implement their own field specific well data. When arranged beforehand, PROSPER gas well performance software can be used as well. This course addresses ways and means to monitor and manage gas well performance and deliquification. It covers the purpose, outcome and benefit of gas well surveillance and capacity measures to assist future surveillance and capacity planning. Specifically, it addresses the selection and implementation of deliquification measures. This course introduces the skills and tools required for periodic review of gas well performance in support of critical business processes Trainer Your expert course leader brings with him 38 years of oil and gas field experience largely within Shell of which 25 years as gas well production engineer. He has covered the full spectrum of activities moving from R&D to green field development to brown field surveillance and optimisation, to become a leading gas well performance and deliquification specialist. He likes to capture the complex reality of gas well inflow, outflow and reservoir performance by means of practical data-driven rules and tools that cover a wide range of conditions i.e. shallow-to-deep, prolific-to-tight, dry-to-wet, green-to-brown, 1-1/2'-to-9-5/8' tubing, and depletion-to-aquifer drive. Before his retirement end 2020, He worked for Shell affiliated oil and gas companies including Shell Malaysia, Petroleum Development Oman, NAM Netherlands and Shell R&D in Netherlands and USA. Since then, he has been active as an independent trainer and consultant, amongst others for Cairn India. 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

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

Our Online GCSE Physics Course is the international version. This courses provides knowledge and understanding of facts, concepts and principles of physics. You will also learn about the unifying patterns and themes of physics. Additionally, you will gain an understanding of the importance of the applications of physics in the world. The same International GCSE qualification you'd get in school or college Unlimited 1:1 support from your Physics tutor Fast-track - get the qualification when you need it Study 24/7, 365 on your phone, tablet or laptop You don't need any previous qualifications to study this International GCSE course. This course will teach you the Edexcel International GCSE Physics syllabus (4PH1). You'll study 7 units: Forces and motion Electricity Waves Energy resources and energy transfer Solids, liquids and gases Magnetism and electromagnetism Radioactivity and particles For a full breakdown of course content, download the IGCSE Physics Brochure. All of your lessons and assessments are available on CloudPort - our Moodle-based learning environment (Moodle VLEs are used by most colleges and universities in the UK). Start with lesson 1 and work through the course in a linear pathway or choose to jump to the section that you need. Your learning is completely flexible and allows you to set your programme of learning around the skills you need. Submit assessments as you work through the course. Get instant results and feedback on activities to track your progress. Use these assessments as learning launchpads, allowing you to focus your time on the topics you need to brush up on. You will have access to all course materials, assessments and tutor support for 12 months from the day of enrolment. Extensions are available for students who wish to study over a longer period. You are not alone! You will be assigned a personal 1:1 tutor on your day of enrolment. Your tutor will remain by your side, throughout your learning journey until you get qualified. All tutors are qualified teachers and subject matter specialists who will ensure you have the correct guidance and support when you need it. As a CloudLearn student you will have unlimited access to tutor support. CloudLearn GCSEs and A-Levels are structured around formative assessments allowing you to test your knowledge as you work towards qualification. Before taking your exam you will submit a mock exam to give you the practise you need before the big day. When ready we arrange your exam. We have agreements with exam centres all over the UK. Our students also take advantage of preferential pricing due to the volume of students we channel to exam centres. As part of your enrolment service package we will make all the arrangements for your final exam. This includes locating a centre and booking the relevant exam/s. Exam fees are additional. The Edexcel International GCSE Physics exam is available in May/June and Oct/Nov each year. It is assessed over 2 exam papers: Paper 1 4PH1 1P - 2 hour Paper 2 4PH1 2P - 1 hour 15 min We generally ask that you book written exams at least 6 months in advance. Booking your exam after the booking deadline will incur late fees (available for one month after deadline) and high late fees (available up until exam entry closure). Some students will study for the exam over a period of months or years, as they dictate their own study schedule. We do however have students who will study intensively and prepare in a matter of weeks. You are only constrained by the exam diet. GCSE exams are available in May/June of each year, with core subjects also assessed in January. We are so confident in the CloudLearn model of study that we guarantee you will pass your exam. As long as you do what we recommend, we offer a full money-back guarantee. The UK's only GCSE and A-Level specialist Study at your pace, where and when you want Study interactively on any device We guarantee your exam pass We arrange your exams Our flexible study, unlimited support, and interest-free payment plans allow you to fit learning around your busy schedule That's why we support thousands of students every year, to get the GCSEs they need to prosper. Choose to pay in full or spread the cost over our 6 months interest-free payment plans. We offer longer payment plans of 12, 24, 36 or 48 months. These extended plans are subject to interest. For more details contact our student advisors on 0330 111 4006 or visit our payment plan page. By participating in our Online GCSE Physics Course, you will gain invaluable skills that you can use in further learning or a wide-range of professions. You will test your creativity and adaptability whilst improve your problem solving, critical thinking, analytical and interpretative skills through learning how to form hypothesis and design experiments to test them. You will also learn how to be a conscientious, responsible and self-regulated learner through an appreciation of the importance of safe experimental work and accurate reporting as scientific methods. Additionally, you will discover the benefits of open-mindedness and social responsibility by evaluating, in terms of their scientific knowledge and understanding, the benefits and drawbacks of real-life applications of science. Furthermore, you will improve your communication and organisational skills as you will be tasked with selecting, organising and presenting information clearly and logically, using appropriate scientific terms and conventions. We also hope to show you the benefits of continuous learning and intellectual curiosity by inspiring a sustained enjoyment of, and interest in, the scientific world. Therefore, by taking part in the CloudLearn GCSE Physics Course, not only will you learn about the fundamental concepts of physics, you will also gain a comprehensive skill set that can be used in a variety of degrees and careers.

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🔬 Chemistry isn't just in the lab; it's all around us! From the medicines we take, the fuels that power our vehicles, to the food we eat, chemistry is at the heart of everything. Through our A-Level Chemistry Distance Learning Course, we bring this captivating science to your doorstep! Learn about elements on the Periodic Table, the creation of new compounds, and the profound interactions of chemistry with our world. This course equips you not only with a solid grounding in Chemistry but also develops critical skills such as data analysis, problem-solving, and creative thinking, making it an invaluable stepping-stone for careers in health, teaching, research, and beyond.  🎓 Our A-Level Chemistry course, respected in academic circles, aligns with the new AQA A-Level Chemistry syllabus and is structured for optimal online learning. With unlimited tutor support, well-structured assignments, and guaranteed exam centre access for UK students, we ensure a seamless learning experience. This flexible, self-paced course is enriched with dynamic and engaging content, alongside a network of partnership exam centres, and a promise to support you until you pass the exam.  📝 Enrol to reap benefits such as: - Engaging and up-to-date course content - Fast-track option available for 2022 exams - A dedicated study plan with constant support - An exam pass guarantee   About the awarding body Awarding body: AQA Our course code: X909 Qualification code: 7405 📜 The AQA qualifications we offer are internationally recognised, taught in 30+ countries, and highly valued by employers and universities. With an AQA A-Level in Chemistry, you open doors to an array of opportunities worldwide.  ⏱ Study Hours:  Plan for between 250-300 hours of study time, plus time for assignments. 👩‍🏫 Study Method:  Our course is delivered via our engaging online learning platform with a mix of videos, quizzes, and interactive activities. You can also opt to print the learning materials. 📆 Course Duration:  The course spans up to 24 months from enrolment, accessible via our MyOxbridge portal. 📋 Assessment: Enrol now for exams from Summer 2022. There will be three standard A-Level written exams. We provide a guaranteed exam space in one of our UK exam centres, alongside an exam pass guarantee.  Three standard A-Level written exams form the core of the assessment: - Paper 1: 2 hours, 35% of A-Level, 105 marks. - Paper 2: 2 hours, 35% of A-Level, 105 marks. - Paper 3: 2 hours, 30% of A-Level, 90 marks. These exams mix short and long answer questions and extended response questions. We provide a guaranteed exam space in one of our UK centres, and if you don't pass at the first attempt, our exam pass guarantee offers you free support until you succeed. You'll also complete various assignments throughout the course for feedback from your tutor. 🔬 Practical Endorsements: If your university course or career path requires it, you may need to complete a practical endorsement as part of your qualification. We can arrange this through our examination partners, Tutors & Exams. Unravel the magic of Chemistry at your own pace and convenience with Oxbridge. Enrol today to get started on your scientific journey! 🚀 👩‍🎓 Course Outcomes: Upon successful completion, you receive an AQA-issued A-Level in Chemistry, identical to that received by on-campus students. ℹ️ Additional Information: Difficulty: Level 3 Entry requirements: GCSE Science (double award) or GCSE Chemistry (min grade 4) and GCSE Maths (or equivalent) UCAS Points: 56 Course Content includes Atomic Structure, Chemical Reactions, Energy Changes, Equilibria, Electrochemical Cells, Inorganic Chemistry, and more.  🔍 Course Details: Our curriculum is carefully curated to give you a comprehensive understanding of chemistry and its various facets: 1. Structure of the Atom and Bonding: Start your journey by learning about the evolution of atomic structure, supported by evidence from advances in science and technology. 2. Chemical Reactions and Calculations: Understand key terms like relative atomic mass and relative molecular mass and discover the importance of the mole in measuring amounts of substances. 3. Rate of Reaction and Energy Changes in Chemical Reactions: Delve into the collision theory and how changes in conditions can impact the speed of a chemical reaction. 4. Chemical Reactions in Equilibria: Learn about the factors influencing reaction progression, and how Le Chatelier’s principle can be used to predict the effects of changes in conditions. 5. Redox Reactions and Electrochemical Cells: Explore the changes during redox reactions, deduce whether oxidation or reduction has occurred, and construct half-equations for these processes. 6. Inorganic Chemistry: Uncover how elements are classified based on their position in the periodic table and understand trends in atomic radius. 7. Inorganic Chemistry Part One: Familiarise yourself with the IUPAC system for naming organic compounds, their reactions, and different types of isomerism. 8. Inorganic Chemistry Part Two: Finish with a comprehensive look at optical isomerism, aldehydes, ketones, carboxylic acids, aromatic chemistry, amines, polymers, amino acids, organic synthesis, and chromatography.

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About this Training Course Managing process hazards in the hydrocarbon and chemical processing industries is a critical function that requires relevant knowledge and skills due to the risks involved. The Advanced Process Safety Engineering course will discuss the interrelation of the various techniques of process safety for analysing, with a particular emphasis on engineering design aspects, as well as how to manage process hazards in a safe and effective way and how they can potentially be avoided. In this 3 full-day advanced level course, the expert course leader will provide participants with insights and examples from his career and experience to show how their learning should be applied in real-life situations. Feedback and questioning is highly encouraged. Reference material and reports can be provided to give more information on any particular topic of interest. Individual and group exercises, tutored exercises and video case studies will be provided throughout the course to underpin the key learning points. Training Objectives Upon completion of this course, participants will acquire in-depth knowledge of: Risk management and 'As Low as Reasonably Practicable' (ALARP) principles. Different aspects of process design that influence process safety. Approach to 'inherently safer' design. Defence in depth using 'layers of protection'. Process for ensuring the technical integrity of safety-critical equipment. Hazards associated with process materials. Range of hazard identification and consequence modelling techniques. Causes and mitigation of human error. Reliability and availability of safety-critical protection equipment. Role of engineered safety-critical equipment and systems. Target Audience This course is suitable for industry professionals who need to acquire a comprehensive understanding of process safety. This includes those who are required to make managerial decisions where process safety is a key consideration, those who are moving into process safety positions or those who wish to broaden their process safety knowledge within their existing discipline. It is particularly suited for anyone involved in the design, operation, modification or maintenance of a major hazard installation, and will demonstrate a substantial understanding of process safety for those engaged in Continuous Professional Development or aiming for Chartered Engineer status. This course will benefit professionals such as: Operations and maintenance supervisors Process, mechanical and chemical engineers and technicians Design engineers, project engineers and HSE managers Control, automation and instrumentation engineers Course Level Advanced Trainer Your expert course leader has 50 years' experience in chemical and process safety engineering. His early career included 20 years in design and project engineering with various fine chemical and pharmaceutical companies where he designed chemical processes, specified plant equipment and selected materials for highly corrosive and toxic processes, often where textbook data was not available. This was followed by 10 years in offshore oil and gas design projects where he was responsible for setting up a Technical Safety group to change design safety practices in the aftermath of the 1988 Piper Alpha disaster. In recent years, he has been called upon to conduct various offshore and onshore incident investigations. His career has given him experience in project engineering, project management, process design and operations, safety engineering and risk management. He is a Fellow of the UK Institution of Chemical Engineers. He served on the Scottish Branch committee, and was elected chairman for a two-year term in 1991. He has also been chairman of the Safety and Reliability Society - North of Scotland Branch. He has delivered training courses in Process Hazard Analysis (HAZOP and HAZID), Process Safety Management, Hazard Awareness, Risk Assessment, Root Cause Analysis, Failure Modes & Effect Analysis and has lectured on Reliability Analysis to the M.Sc. course in Process Safety and Loss Prevention at Sheffield University. In addition to delivering training courses, he currently facilitates HAZOP / HAZID / LOPA studies and undertakes expert witness roles advising lawyers engaged in contractual disputes, usually involving the design or construction of chemical plants or Oil & Gas production facilities, or criminal prosecutions. 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

About this Training Course  Seismic interpretation requires an understanding of structural development and its interrelation with the stratigraphic system. Bias and misunderstanding have unfortunately resulted in countless dry holes. So go beyond tracing horizons and understand their context within the structural system by extracting key information from seismic surveys and other datasets. In this 5 full-day training course, participants will learn a variety of modern structural concepts and techniques and their role in the interpretation of seismic data. Using an applied 'hands-on' approach, participants will be exposed to a diversity of worldwide case examples with complementary exercises - both of an individual and group nature. The course is designed from an applied standpoint, with numerous examples and hands-on exercises from the petroleum industry. This course can also be offered through Virtual Instructor Led Training (VILT) format. Training Objectives By the end of this course, the participants will be able to: Go beyond tracing horizons and marking faults and truly understand the structural and stratigraphic system. Understand the role of tectonics and deformation in the formation of various types and orientations of geologic structures. Understand the interaction of the structural system with the stratigraphic and sedimentologic environment for better prediction of reservoir formation. Integrate data from the large seismic scale to subseismic scale, including seismic anisotropy, to understand better the overall petroleum system. Learn about the common pitfalls of interpretation. Target Audience This course is intended for geologists, geophysicists, reservoir engineers, and exploration/production managers. Course Level Intermediate Trainer Your expert course leader received his B.S. and M.S. degrees in Geology from the now University of Louisiana-Lafayette in 1989 and 1990 respectively, and his Ph.D. as a National Science Foundation fellow at Baylor University, Waco, Texas, in 1993. From 1994 - 1996, he studied planetary tectonics as a NASA-funded postdoctoral fellow at Southern Methodist University. In 1996, he returned to UL-Lafayette, where he was awarded in 1997 the Hensarling-Chapman Endowed Professorship in Geology. He began independent consulting activities in 1991, and in 2001, he left academia for full-time consulting for clients ranging from one-man shops to supermajors. He rejoined UL-Lafayette as an adjunct professor from 2011 - 2018. He is an active researcher, receiving several million dollars in grants from federal, state, and industry sources, presenting numerous talks, including a 2019 AAPG Levorsen award, and publishing on a diversity of geoscience topics, including a Grover E. Murray Best Published Paper award in 2017. He is co-author of the inaugural GCAGS/GCSSEPM Transactions Best Student Paper award in 2018. He served as the GCAGS Publisher since 2006 and in various GCAGS/GCSSEPM Transactions editing capacities since 2006, including the 2014 and 2017 - 2022 Editor (named Permanent Transactions Editor in 2017), and Managing Editor since 2011, receiving a GCAGS Distinguished Service Award in 2018. He served as the General Chair for GeoGulf 2020 (70th GCAGS/GCSSEPM Convention), the 1st hybrid geoscience conference in the world. He is a Past President of the Lafayette Geological Society and served as its Editor and Publisher from 2002 - 2018. In 2018, he founded the Willis School of Applied Geoscience, reformulating decades of industry-training experience to provide alternative opportunities for graduate-level education. In 2020, he received an Honorary Membership from GCSSEPM. He also joined the LSU faculty as an adjunct professor in 2020. In 2021, he co-founded the Society of Applied Geoscientists and Engineers, serving as its President, General Chair for the SAGE 2022 Convention & Exposition, and Vice-Chair for the Benghazi International Geoscience & Engineering Conference 2022 (BIGEC 2022). 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 about post training coaching support and fees applicable for this. Accreditions And Affliations

About this training This 5-day training course enables participants to learn and understand the fundamental concepts of well test analysis. The methodology described in the course, which has become the standard of the industry, presents a systematic way of interpreting well tests in homogeneous and heterogeneous reservoirs, including fissured and multilayered systems. Recommendations for designing tests in such formations, examples, and problem-solving sessions for practical experience and immediate application are included in the course. Training Objectives Upon completion of this course, participants will be able to: Understand the well test analysis methodology Present the straight line, log-log pressure, derivative and deconvolution analysis methods Learn the most common reservoir behaviours and boundary effects Carry out the gas and multiphase analysis Target Audience The course is intended for individuals who involved with the design and interpretation of well tests. The following personnel will benefit from the knowledge shared in this course: Petroleum Production Engineers Production and Wellsite Geologist Geophysicist Reservoir Engineer Drilling Engineer Trainer Your expert course leader has taught numerous well test interpretation industry courses around the world and has been involved in many consulting projects. He is a member of the Society of Petroleum Engineers (SPE) since 1969, and he was elected a Distinguished Member in 2002 and an Honorary Member in 2009. He has chaired or organized many SPE Advanced Technology Workshops. He is a recognized expert in well test analysis and has published over one hundred technical papers and was responsible for many advances in well test interpretation, including: the use of Greens functions; wellbore storage and skin, fractured wells, and wells with double porosity behavior; the first major commercial computer-aided interpretation software; single-well and multi-well deconvolution; and a well test interpretation methodology which has become standard in the oil industry. 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