Post Type Archives: Training

Advanced Well Cementing and Integrity Management in Upstream Oil and Gas Operations

This advanced course is designed for professionals in the upstream oil and gas, energy storage, and CCUS sectors who are involved in well construction, maintenance, and abandonment operations. The program is structured to provide a comprehensive understanding of well cementing, integrity management, and plug and abandonment (P&A) processes through a series of interconnected modules, case studies, and practical exercises.

The Application of SRMS to Carbon Capture Storage Projects Optimize CO2 Sequestration Through Strategic Storage Resource Management

This 3-day training course is designed to provide a comprehensive understanding of the Storage Resource Management System (SRMS) and its application to Carbon Capture and Storage (CCS) projects. Over three days, participants will learn how to analyze site capacity under various development concepts, predict injection rates, and anticipate commercial outcomes prior to major investment decisions.

EV Battery Design and Charger Technology – Virtual Instructor Led Training (VILT)

In the rapidly evolving landscape of transportation and energy, Electric Vehicles (EVs) infrastructure have emerged as a transformative force, redefining the way we envision and interact with mobility. At the heart of this revolution lies the intricate interplay between EV Battery Design and Charger Technology, two pivotal components shaping the efficiency, range, and sustainability of whole electric vehicle transportation.

EV Battery Design stands as the cornerstone of electric mobility, influencing the performance and viability of electric vehicles. The relentless pursuit of energy density, durability, and cost-effectiveness has propelled battery technology into the forefront of innovation. From advancements in lithium-ion cells to the exploration of emerging technologies like solid-state batteries, the quest for a perfect balance between energy storage capacity and practical application continues to drive research and development.

Complementing the strides in battery design, charger technology plays a pivotal role in shaping the user experience and the widespread adoption of electric vehicles. The evolution of charging infrastructure, ranging from home chargers to high-speed public charging stations, reflects the commitment to ensure electric mobility are accessible and convenient. Moreover, smart charging solutions, bidirectional charging capabilities, and wireless charging technologies are ushering in a new era of efficiency, ease, and sustainability in the charging ecosystem.

This exploration into EV Battery Design and Charger Technology delves into the core innovations propelling the electric vehicle industry forward. From the intricacies of battery chemistries to the engineering marvels behind cutting-edge charging stations, this field is a dynamic fusion of science, engineering, and environmental consciousness. As we navigate this electrified future, understanding the nuances of EV Battery Design and Charger Technology becomes essential for harnessing the full potential of sustainable transportation.

Advanced LNG Markets, Trading and Hedging

This course will provide companies with the advanced risk management and trading strategies to succeed in today’s challenging LNG trading markets. This intensive and highly interactive course will give you the cutting-edge knowledge needed to successfully apply advanced trading and hedging strategies in today’s complex LNG market.

Project Management Professional (PMP)® Examination Preparation Course

The Project Management Professional (PMP)® Examination Preparatory Course is a comprehensive five-day program designed for project practitioners aiming to achieve PMP certification. This course provides an in-depth understanding of project management principles, methodologies, and best practices as outlined in the PMBoK 7th Edition. Participants will engage with both traditional and agile project management frameworks, equipping them with the necessary skills to navigate complex project environments. The course emphasizes adaptive methodologies, ensuring that attendees are well-prepared for the evolving landscape of project management.

Subsurface Uncertainty Quantification using Machine Learning – Improved Reservoir Management through Data Driven Predictions

Quantifying uncertainty in subsurface environment is a complex challenge that machine learning techniques can effectively address and assist. The heterogeneous nature of subsurface formations, characterised by varying properties like porosity and permeability, often defies traditional modelling approaches. Machine learning algorithms excel at identifying patterns in this complexity, offering insights that conventional models might have missed. The energy sector’s data acquisition limitations often result in sparse, unevenly distributed data points. Machine learning mitigates this through techniques like data augmentation and advanced interpolation, enabling more reliable predictions from limited data. Furthermore, these models can better account for measurement errors in well logs and core data by learning to recognise and adjust for data inaccuracies.

Planning, Design, Operation and Maintenance of Digital Substation

This course delves into the pivotal role of digital substations in shaping the future of power grids. The course offers an in-depth exploration of how digital substations contribute to the stability and efficiency of modern energy systems. Participants will uncover the complexities of the changing energy landscape and discover how digital substations effectively tackle these challenges.

Practical Depth Conversion and Depth Imaging for the Interpreter

This 5-day course provides a comprehensive overview of depth conversion and depth imaging for seismic interpreters. Participants will learn how to perform basic and advanced depth conversions, quantify depth conversion uncertainty, and integrate well and seismic data to ensure reliable results.

Electricity Cooperative Rate Regulation and Rate Setting

This course provides a comprehensive overview of the challenges and opportunities in the rapidly evolving tariff structures of rural and distribution utilities driven by changes in the energy integration and power system management.

Design, Development and Operation of Proton Exchange Membrane (PEM) Stack – Precision Engineering for Sustainable Energy

In the rapidly evolving landscape of sustainable energy, Proton Exchange Membrane (PEM) electrolyser technology stands at the forefront of green hydrogen production. As the world intensifies its efforts to decarbonise and transition to clean energy systems, PEM electrolysers have emerged as a crucial technology for efficient, scalable, and environmentally friendly hydrogen generation.

Train the Trainer (TTT) Programme – Transform Subject Matter Expertise in the Energy Industry to Training Excellence

The “Train the Trainer” course is an intensive four-day workshop designed to equip corporate trainers with essential skills needed for effective training delivery. This course is ideal for both experienced subject-matter experts with limited training experience and seasoned trainers seeking to refine their techniques. The course covers critical aspects such as training needs analysis, session planning, and creating a conducive learning environment.

Webinar: Proton Exchange Membrane (PEM) Electrolyser and Balance of Plant

About this Webinar Join Our FREE Webinar on PEM Electrolysers and Balance of Plant Systems Are you ready to deepen your understanding of hydrogen generation technologies? Join our expert-led webinar to explore the world of PEM electrolysers and their essential Balance of Plant (BOP) systems. This session is designed to enhance your knowledge and skills […]

Upstream Petroleum Economics

This comprehensive 3-day course is designed to provide participants with a solid foundation in upstream petroleum economics and energy project valuation. The program combines essential economic principles with practical applications, tailored for professionals in the oil and gas industry who need to make informed decisions about investments, project development, and resource management.

Project Management for Capital Projects

This comprehensive 3-day course offers an in-depth exploration of best practices for managing capital projects across their entire lifecycle. The program provides a robust framework for understanding and implementing key project management concepts, tools, and techniques.

Offshore Marine Operations and HSE Management – Navigating Safety and Efficiency in Offshore Operations for Oil, Gas, and Wind Sectors

This course covers offshore marine operations and HSE (health, safety, and environment) management related to the oil and gas and offshore wind industries. The first module introduces the regulatory framework governing offshore operations, such as key conventions from the International Maritime Organization and the role of industry organizations and classification societies. It details various marine operations like loading, dynamic positioning, personnel transfer, as well as the types of vessels utilized like supply vessels, drilling rigs, and crew boats.

EPCC and O&M Agreements in Solar PV Projects Development – Bridging the Commercial and Technical Terms in Sustainable Energy Projects

The global renewable energy landscape is experiencing unprecedented growth, with solar photovoltaic (PV) projects leading the charge. The International Renewable Energy Agency has reported a significant surge in solar PV capacity, contributing substantially to the global energy. This solar growth presents immense opportunities for companies in the power utilities, renewable energy and EPCC sector. Industry projections suggest that in the coming years, significant EPCC contracts are expected to be awarded through various government initiatives. These contracts will significantly boost solar power generation capacity worldwide.

Advanced Leadership and Management in the Oil and Gas Industry

This 5-Half day aim to develop the competences of leaders to achieve high performance teams and drive the effectiveness and productivity of the organization. In today’s world organizations are facing the biggest transformation in history and with it challenges for leaders and employees. Innovation is necessary for the workplace to stay relevant and competitive in rapidly changing markets. Great leadership is vital in unleashing employee performance, potential and impact.

Advanced Field Development Planning & Drive Performance

This 5-day course is aimed at pulling together the work of the all the technical specialists involved in oil/gas field development, both subsurface and surface, to realize the full value of a truly integrated Field Development Plan. It is assumed that each participant (geologist, reservoir engineer, well engineer, facilities engineer, cost engineer etc.) is an expert in their own discipline and wants to learn how to work more effectively in a team. All the courses are therefore of interest to all disciplines. Experience shows that the courses work much better with a mix of discipline staff in the room.

Smart Oilfield and Sensor Technology

This comprehensive 5-day course provides an in-depth exploration of smart oilfield and sensor technologies, equipping participants with the knowledge and skills to optimize hydrocarbon recovery through advanced digital solutions. The program begins with an introduction to smart wells and smart reservoirs, setting the foundation for understanding the principles of system optimization and control in the oil and gas industry.

Gas Treatment and Sulphur Recovery

This comprehensive 4-day course provides invaluable training on the processes used to treat natural gas and remove contaminants like acid gases (CO2 and H2S), mercury, BTEX, oxygen, nitrogen, and NORM. Participants will gain an in-depth understanding of the various solvent and non-solvent based treating processes, including chemical solvents (amines, hot potassium carbonate), physical solvents, hybrid solvents, membranes, cryogenics, solid beds, and scavengers. The course covers key selection criteria for choosing the most suitable treating process based on the gas composition and product specifications.

Upstream Gas Conditioning and NGL Recovery

This course is an intermediate-level training program designed to provide a comprehensive understanding of the processes involved in conditioning natural gas and extracting valuable natural gas liquids (NGLs). Participants will gain in-depth knowledge of the physical and chemical properties of natural gas, phase behavior, and the various techniques employed to remove water and extract NGLs from raw gas streams.

Introduction To Oil and Gas Business – Journey Through the Oil & Gas Lifecycle

Embark on a comprehensive, jargon-busting exploration of the Oil and Gas industry with our custom-designed course tailored specifically for Petroleum Sarawak. This unique program is meticulously crafted to align with the region’s distinct needs and challenges, offering a focused examination of the industry’s lifecycle. From the roots of hydrocarbon exploitation to cutting-edge carbon capture technologies, delve into every facet of the sector’s operations.

Hydrogen Storage, Transportation and Distribution – Successfully Navigate the Hydrogen Value Chain

Hydrogen’s unique molecular properties make it an ideal medium for storing large amounts of energy for extended periods and enabling the transportation of energy across countries and industry sectors. However, hydrogen production sites are often located in areas with favorable production conditions, such as low-cost electricity, water availability for electrolysis, natural gas with or without carbon capture capabilities, and other suitable resources. These production sites are rarely situated at or near the points of use, necessitating the storage and transportation of hydrogen from production to consumer sites.

Introduction to Fuel Cell Technology – Building Resilient Energy Solutions for Sustainability

Lately, fuel cell technology is more crucial than ever, as the world faces the urgent need to combat climate change and transition to a low-carbon economy. These electrochemical devices offer a clean and efficient alternative to fossil fuel-based energy generation by converting the chemical energy of hydrogen into electricity, producing no harmful emissions. With the potential to significantly reduce greenhouse gas emissions, especially when powered by hydrogen derived from renewable sources, fuel cells present a compelling solution for decarbonisation and climate change mitigation.

LNG Marine Terminal Loading Master & Certification (3 Day)

This 3-day highly interactive and practical course will allow LNG facilities to achieve a competitive advantage by having an effective and well-managed operation. This will ensure your operational processes and workforce perform up to the highest standards and expectations achieving a competitive advantage.

Oil & Gas Financial Modelling – Unlock the Techniques of Financial Modelling Through Advanced Excel for Effective Oil & Gas Investment Decisions

This dynamic 4-day training course provides a sound understanding of both the principles of financial modelling and the practical application of these to real-world situations using spreadsheets. The course then builds upon the financial modelling principles and practices learned to apply these to project evaluations. In this, participants improve their mastery of project evaluation principles and concepts and then see how to apply these in practical applications.

Mooring and Anchoring Technology in Floating Photovoltaic (FPV) Systems – Site Evaluation, Innovative Structure, and Sustainable Practices

Floating solar represents a relatively new sector, employing innovative technology and expertise related to flotation systems, mooring, and anchoring. The mooring and anchoring of the floatation system are one of the most challenging aspects of this new technology. A mooring system is essential to keep the FSPV array in place with minimum movement based on project tolerances and to maintain sufficient clearance between neighbouring arrays or between an array and other assets (such as pipelines, transformer barges, cables, etc.). Depending upon the project location, the FSPV mooring system needs to be designed to withstand worse storms and weather conditions for a design life of at least 25 years.

Chemical Engineering for Non-Chemical Engineers

This course provides a comprehensive introduction to the fundamental concepts and applications of chemical engineering. Designed for professionals from diverse backgrounds, this course bridges the gap between theory and practice, enabling participants to gain a solid understanding of chemical processes, equipment, and safety considerations relevant to various industries.

Hydrogen Network Optimisation – From Production to Industrial Integration

As the global energy landscape shifts towards sustainability, the production of clean hydrogen is paramount. Pivotable technologies require hydrogen, including the synthesis of ammonia and methanol. Currently, most hydrogen is manufactured via steam/methane reforming, a process that consumes significant energy and co-produces large amounts of CO2. Therefore, recovering, purifying, and reusing hydrogen presents a win-win scenario.
Hydrogen network optimisation, at a relatively low cost, enables producers to meet stringent environmental regulations while increasing profitability and decreasing carbon emissions.

Managing Integrated and Digitalized Oil and Gas Assets

This course is designed to provide in-depth knowledge and practical insights into the implementation of digital technologies within upstream and midstream operations. The course will cover a comprehensive range of topics such as enabling technologies, real-time data collection, collaborative working, advanced digital technologies like Industrial Internet of Things (IIoT) and analytics, as well as the importance of change management. This course aims to equip participants with the necessary expertise to leverage digital solutions effectively in the oil and gas sector and to add value to their operational assets.

Marginal Field Development and Planning

This course is designed to address the challenges and opportunities associated with the development and production of marginal oil and gas fields. These fields are typically characterized by small reserve sizes, lack of infrastructure, high development costs, and technological constraints, which have prevented their exploitation in the past.

Electrical Power Failure Analysis and Investigations – Insightful Investigations For Precision Resolutions

Power systems have grown to become the single largest most connected system humans have ever designed. As we scale up in production, connectivity, and consumption, the impact of our failures become proportionately larger. Today a large blackout on the grid level may impact millions of users. A failure offers a great opportunity to asset owners, engineers and operators acquire knowledge by identifying the cause(s) and use this knowledge to enhance safety and improve performance. Failure investigations often play an integral part of the total asset management process and provide essential information for risk assessments – be it related to engineering specifications, manufacturing, transportation, installation, commissioning tests, maintenance, operation, or ageing mechanisms.

Exploration Concepts for Tight Sand Plays

This 2-day intermediate-advanced level course provides a comprehensive understanding of tight oil and gas plays, which have gained significant importance in recent years due to technological advancements. Participants will gain in-depth exposure to the critical working elements and success factors of these unconventional reservoirs through an integrated approach.

EV Battery Design and Charger Technology – Understand The Applications Of Sustainable Mobility

In the rapidly evolving landscape of transportation and energy, Electric Vehicles (EVs) infrastructure have emerged as a transformative force, redefining the way we envision and interact with mobility. At the heart of this revolution lies the intricate interplay between EV Battery Design and Charger Technology, two pivotal components shaping the efficiency, range, and sustainability of whole electric vehicle transportation.

EV Battery Design stands as the cornerstone of electric mobility, influencing the performance and viability of electric vehicles. The relentless pursuit of energy density, durability, and cost-effectiveness has propelled battery technology into the forefront of innovation. From advancements in lithium-ion cells to the exploration of emerging technologies like solid-state batteries, the quest for a perfect balance between energy storage capacity and practical application continues to drive research and development.

Complementing the strides in battery design, charger technology plays a pivotal role in shaping the user experience and the widespread adoption of electric vehicles. The evolution of charging infrastructure, ranging from home chargers to high-speed public charging stations, reflects the commitment to ensure electric mobility are accessible and convenient. Moreover, smart charging solutions, bidirectional charging capabilities, and wireless charging technologies are ushering in a new era of efficiency, ease, and sustainability in the charging ecosystem.

This exploration into EV Battery Design and Charger Technology delves into the core innovations propelling the electric vehicle industry forward. From the intricacies of battery chemistries to the engineering marvels behind cutting-edge charging stations, this field is a dynamic fusion of science, engineering, and environmental consciousness. As we navigate this electrified future, understanding the nuances of EV Battery Design and Charger Technology becomes essential for harnessing the full potential of sustainable transportation.

Hydrogen Production with Integrated CO2 Capture and Geological Storage (CCS) – Shaping A Sustainable Hydrogen Ecosystem

Hydrogen is gaining momentum as a critical energy source for enabling the global transition to a low-carbon future. However, most hydrogen today is produced from fossil fuels through processes that generate high carbon emissions. Integrating carbon capture and storage (CCS) technologies with hydrogen production can help reduce emissions and unlock hydrogen’s potential as a clean energy carrier. Furthermore, the application of hydrogen as an alternative future fuel has become the primary objective of most governments for achieving net zero emissions within a short period of time. Large-scale production of ‘Blue Hydrogen’ from fossil fuels through reforming or gasification processes makes it possible to achieve this.

Integrated Field Development Planning

This course provides a comprehensive introduction to the technical and commercial aspects of field development planning in the oil and gas industry. This course considers the technical and commercial influences on Field Development Planning within the global oil and gas industry. It also considers the need for understanding field development choice, resource size, facility choice and cost. The course covers the full field development workflow from exploration and appraisal through concept selection, facilities design, project execution, and field management. Through lectures, exercises, and case studies, participants will gain key skills needed to contribute to interdisciplinary field development planning teams and projects.