The richness and immediacy of wireline log data have advanced immensely in recent year — more data, more curves, more acronyms, and are available sooner. There is vital qualitative and quantitative data in the logs.
Well test analysis has been used for many years to assess well condition and obtain reservoir parameters. With the introduction of pressure-derivative analysis and the development of complex interpretation models that are able to account for detailed geological features, well test analysis has become a very powerful tool for reservoir characterization.
In low oil-price environments, it is customary to cut expenses, reduce staff, and postpone most, if not all, capital investments. While this strategy may be financially sound in the short term, it is ineffective in the long run, particularly for companies with the need to sustain production levels or to replace reserves through drilling, production or reservoir projects. Heavy oil projects are usually more challenging, as production costs are higher and the oil price is even lower.
This presentation addresses the dilemma of controlling cost and at the same time sustaining production and increasing recovery. A balance can be struck by focusing on the quality of decisions, such as when and where to invest, and ensuring that projects are delivered on- budget, a common issue in the E&P industry. The central idea in this presentation is that, in the most complex and financially challenging case of Enhanced Oil Recovery (EOR) projects, the combination of quality decision making and the implementation of “fit-for-purpose” technology offers the most promising middle-point. By providing eight examples of innovative technologies to help reduce uncertainty, cost and time for delivering commercial EOR oil, and three successful case studies, the audience will gain confidence in the proposition that it is perfectly viable to double recoveries for many of our fields in the next 15 years, even in the current price scenario.
Finally, EOR is a business, and as such it needs to compete favorably with other businesses in a company’s E&P portfolio - challenging in low oil price environments. The lecture will close by presenting a strategy, illustrated with an example, on how to divert from the traditional engineering approach in favor of a managerial decision approach, that will help engineers to justify viable recovery projects.
Reservoir simulation is a sophisticated technique of forecasting future recoverable volumes and production rates that is becoming commonplace in the management and development of oil and gas reservoirs, small and large. Calculation and estimation of reserves continues to be a necessary process to properly assess the value and manage the development of an oil and gas producer’s assets. These methods of analysis, while generally done for different purposes, require knowledge and expertise by the analyst (typically a reservoir engineer) to arrive at meaningful and reliable results. Increasingly, the simulation tool is being incorporated into the reserves process. However, as with any reservoir engineering technique, certain precautions must be taken when relying on reservoir simulation as the means for estimating reserves. This discussion highlights some of the important facets one should consider when applying numerical simulation methods to use for, or augment, reserves estimates. The main take away will be an appreciation for the areas to focus on to arrive at meaningful and defendable estimates of reserves that are based on reservoir models.
The lifecycle of developed fields, onshore and offshore will go through different stages of production up to the decline into late field life. Effective reservoir engineering management will lead to prolonging the life of field if a cost effective processing surface facilities strategy is put in place. Factors that lead to the decline in oil production or increase in OPEX may include increased water production, solids handling and the need for relatively higher compression requirements for gas lift. In order to maintain productivity and profitability, an effective holistic engineering approach to optimizing the process surface facilities must be utilized. The challenges of Optimizing Mature Field Production are: 1. Reservoir understanding with potential definition of additional reserves 2. Complete re-appraisal of the operability issues in the production facilities 3. Develop confidence to invest to optimize the process handling capabilities and capacity 4. Low CAPEX simplification of the surface facilities infrastructure to meet challenges 5. An implementation plan that recognizes the ‘Brownfield’ complexities 6. Selection of suitable optimum technology, configuration and training 7. Optimum upgrade plan of the facilities with minimum production losses Successful operation of mature fields and their surface facilities requires successful change management to the new operating strategy. Using a holistic approach can maximize the full potential of mature processing facilities at a manageable CAPEX and OPEX.
Dr. Wally Georgie Dr. Wally Georgie has a B.Sc degree in Chemistry, M.Sc in Polymer Technology, M.Sc in Safety Engineering and PhD in Applied Chemistry with training courses in oil and gas process engineering, production, reservoir and corrosion engineering. He has worked for over 37 years in different areas of oil and gas production facilities, including corrosion control, flow assurance, fluid separation, separator design, gas handling and produced water. He started his career in oil and gas services sector in 1978 based in the UK and working globally with different production issues then joined Statoil as senior staff engineer and later as technical advisor in the Norwegian sector of the North Sea. Working as part of operation team on oil and gas production facilities key focus areas included optimization, operation trouble-shooting, de-bottlenecking, oil water separation, slug handling, process verification, and myriad other fluid and gas handling issues. He then started working in March 1999 as a consultant globally both offshore and onshore, conventional and unconventional in the area of separation trouble shooting, operation assurance, produced water management, gas handling problems, flow assurance, system integrities and production chemistry, with emphasis in dealing with mature facilities worldwide.
Oil and gas are essential parts of a sustainable future. Though these are finite energy resources and sources of greenhouse gas emissions, the world continues to require their production. For this reason, it is imperative that we consider improved industry practices.
To begin, the audience will be presented with the most basic principles of sustainability pertaining to oil and gas operations, including SPE’s position on this matter. When oil is discovered at a location, decisions and guarantees cannot be made without considering the project’s life cycle. Our commitments must be demonstrated consistently along each stage of a project in direct consideration of a sustainable future.
Next, several case studies relating to sustainability, integrating the realities of the social license to operate and operations will be presented to the audience, detailing the required steps for the successful execution of any project facing challenging conditions.
The presentation will conclude by underlining that the inclusion of internal and external stakeholders will only enrich the project and, therefore, pave the road to success. It is our responsibility to create a culture of operational professionalism and reliability through active participation. In order to counterbalance the world’s energy demand, we must produce oil and gas while considering that the more efficiently the energy is produced, the more affordable the energy will be. The oil industry is not only committed to its own sustainability but also to the sustainability of our planet.
Well test analysis has been used for many years to assess well condition and obtain reservoir parameters. With the introduction of pressure-derivative analysis and the development of complex interpretation models that are able to account for detailed geological features, well test analysis has become a very powerful tool for reservoir characterization.
In low oil-price environments, it is customary to cut expenses, reduce staff, and postpone most, if not all, capital investments. While this strategy may be financially sound in the short term, it is ineffective in the long run, particularly for companies with the need to sustain production levels or to replace reserves through drilling, production or reservoir projects. Heavy oil projects are usually more challenging, as production costs are higher and the oil price is even lower.
This presentation addresses the dilemma of controlling cost and at the same time sustaining production and increasing recovery. A balance can be struck by focusing on the quality of decisions, such as when and where to invest, and ensuring that projects are delivered on- budget, a common issue in the E&P industry. The central idea in this presentation is that, in the most complex and financially challenging case of Enhanced Oil Recovery (EOR) projects, the combination of quality decision making and the implementation of “fit-for-purpose” technology offers the most promising middle-point. By providing eight examples of innovative technologies to help reduce uncertainty, cost and time for delivering commercial EOR oil, and three successful case studies, the audience will gain confidence in the proposition that it is perfectly viable to double recoveries for many of our fields in the next 15 years, even in the current price scenario.
Finally, EOR is a business, and as such it needs to compete favorably with other businesses in a company’s E&P portfolio - challenging in low oil price environments. The lecture will close by presenting a strategy, illustrated with an example, on how to divert from the traditional engineering approach in favor of a managerial decision approach, that will help engineers to justify viable recovery projects.
Reservoir simulation is a sophisticated technique of forecasting future recoverable volumes and production rates that is becoming commonplace in the management and development of oil and gas reservoirs, small and large. Calculation and estimation of reserves continues to be a necessary process to properly assess the value and manage the development of an oil and gas producer’s assets. These methods of analysis, while generally done for different purposes, require knowledge and expertise by the analyst (typically a reservoir engineer) to arrive at meaningful and reliable results. Increasingly, the simulation tool is being incorporated into the reserves process. However, as with any reservoir engineering technique, certain precautions must be taken when relying on reservoir simulation as the means for estimating reserves. This discussion highlights some of the important facets one should consider when applying numerical simulation methods to use for, or augment, reserves estimates. The main take away will be an appreciation for the areas to focus on to arrive at meaningful and defendable estimates of reserves that are based on reservoir models.
The lifecycle of developed fields, onshore and offshore will go through different stages of production up to the decline into late field life. Effective reservoir engineering management will lead to prolonging the life of field if a cost effective processing surface facilities strategy is put in place. Factors that lead to the decline in oil production or increase in OPEX may include increased water production, solids handling and the need for relatively higher compression requirements for gas lift. In order to maintain productivity and profitability, an effective holistic engineering approach to optimizing the process surface facilities must be utilized. The challenges of Optimizing Mature Field Production are: 1. Reservoir understanding with potential definition of additional reserves 2. Complete re-appraisal of the operability issues in the production facilities 3. Develop confidence to invest to optimize the process handling capabilities and capacity 4. Low CAPEX simplification of the surface facilities infrastructure to meet challenges 5. An implementation plan that recognizes the ‘Brownfield’ complexities 6. Selection of suitable optimum technology, configuration and training 7. Optimum upgrade plan of the facilities with minimum production losses Successful operation of mature fields and their surface facilities requires successful change management to the new operating strategy. Using a holistic approach can maximize the full potential of mature processing facilities at a manageable CAPEX and OPEX.
Dr. Wally Georgie Dr. Wally Georgie has a B.Sc degree in Chemistry, M.Sc in Polymer Technology, M.Sc in Safety Engineering and PhD in Applied Chemistry with training courses in oil and gas process engineering, production, reservoir and corrosion engineering. He has worked for over 37 years in different areas of oil and gas production facilities, including corrosion control, flow assurance, fluid separation, separator design, gas handling and produced water. He started his career in oil and gas services sector in 1978 based in the UK and working globally with different production issues then joined Statoil as senior staff engineer and later as technical advisor in the Norwegian sector of the North Sea. Working as part of operation team on oil and gas production facilities key focus areas included optimization, operation trouble-shooting, de-bottlenecking, oil water separation, slug handling, process verification, and myriad other fluid and gas handling issues. He then started working in March 1999 as a consultant globally both offshore and onshore, conventional and unconventional in the area of separation trouble shooting, operation assurance, produced water management, gas handling problems, flow assurance, system integrities and production chemistry, with emphasis in dealing with mature facilities worldwide.
Oil and gas are essential parts of a sustainable future. Though these are finite energy resources and sources of greenhouse gas emissions, the world continues to require their production. For this reason, it is imperative that we consider improved industry practices.
To begin, the audience will be presented with the most basic principles of sustainability pertaining to oil and gas operations, including SPE’s position on this matter. When oil is discovered at a location, decisions and guarantees cannot be made without considering the project’s life cycle. Our commitments must be demonstrated consistently along each stage of a project in direct consideration of a sustainable future.
Next, several case studies relating to sustainability, integrating the realities of the social license to operate and operations will be presented to the audience, detailing the required steps for the successful execution of any project facing challenging conditions.
The presentation will conclude by underlining that the inclusion of internal and external stakeholders will only enrich the project and, therefore, pave the road to success. It is our responsibility to create a culture of operational professionalism and reliability through active participation. In order to counterbalance the world’s energy demand, we must produce oil and gas while considering that the more efficiently the energy is produced, the more affordable the energy will be. The oil industry is not only committed to its own sustainability but also to the sustainability of our planet.
The Course also covers both successful and unsuccessful Case Histories in HPHT drilling operations from around the globe as reported by Operators & Drilling Contractors. New technologies available to the Industry are also covered.
Reservoir engineers cannot capture full value from waterflood projects on their own. Cross-functional participation from earth sciences, production, drilling, completions, and facility engineering, and operational groups is required to get full value from waterfloods. Waterflood design and operational case histories of cross-functional collaboration are provided that have improved life cycle costs and increased recovery for onshore and offshore waterfloods. The role that water quality, surveillance, reservoir processing rates, and layered reservoir management has on waterflood oil recovery and life cycle costs will be clarified. Techniques to get better performance out of your waterflood will be shared.
HPHT (High Pressure - High Temperature) wells have a downhole environment of more than 10,000psi (690 bar) and/or 300 deg F (140 deg C). These conditions are increasingly encountered in many basins worldwide, as exploration and production examine deeper and hotter objectives.
In attending this course, participants will gain knowledge and develops skills relating to HPHT Well Engineering. The course focuses on key characteristics and challenges of HPHT wells from well design, planning, engineering and operational perspectives.
A DIFFERENT PERSPECTIVE ON STORAGE TANK MANAGEMENT. REGULATIONS HELP MITIGATE RISK TO THE PUBLIC AND THE ENVIRONMENT. THESE RISKS ALSO HAVE A HEFTY FINANCIAL PENALTY ASSOCIATED WITH THEM. HOW SHOULD RISK MITIGATION BE PRIORITIZED?
PRESENTED AT THE 2014 NEW ENGLAND UST & SHOP-FABRICATED STORAGE TANK CONFERENCE WORCESTER, MA, DECEMBER 4, 2014
in detail description of previous gate papers of petroleum engineering and some assumptions for 2021, with a brief of future steps. reference textbooks
PetroSync - Applied Petrophysics for Low Resistivity Thin-Bedded FormationsPetroSync
Thin bedded reservoirs are increasingly common exploration targets. However, evaluating such formations is difficult due to challenging and sometimes misleading data.
This course examines the difficulties, challenges and problems facing today’s deepwater drilling programme designers and personnel where wells are being drilled in increasingly difficult downhole and environmental conditions with ever increasing cost and legislation further contributing to design and operational pressures.
PetroSync - Exploration & Production AccountingPetroSync
This course provides an overview through the fundamentals of accounting in the O&G industry with focus on different methods for the expenditure capitalization, depreciation & depletion together with fundamentals for accounting for international operations represented by JVs and PSCs.
The Course also covers both successful and unsuccessful Case Histories in HPHT drilling operations from around the globe as reported by Operators & Drilling Contractors. New technologies available to the Industry are also covered.
Reservoir engineers cannot capture full value from waterflood projects on their own. Cross-functional participation from earth sciences, production, drilling, completions, and facility engineering, and operational groups is required to get full value from waterfloods. Waterflood design and operational case histories of cross-functional collaboration are provided that have improved life cycle costs and increased recovery for onshore and offshore waterfloods. The role that water quality, surveillance, reservoir processing rates, and layered reservoir management has on waterflood oil recovery and life cycle costs will be clarified. Techniques to get better performance out of your waterflood will be shared.
HPHT (High Pressure - High Temperature) wells have a downhole environment of more than 10,000psi (690 bar) and/or 300 deg F (140 deg C). These conditions are increasingly encountered in many basins worldwide, as exploration and production examine deeper and hotter objectives.
In attending this course, participants will gain knowledge and develops skills relating to HPHT Well Engineering. The course focuses on key characteristics and challenges of HPHT wells from well design, planning, engineering and operational perspectives.
A DIFFERENT PERSPECTIVE ON STORAGE TANK MANAGEMENT. REGULATIONS HELP MITIGATE RISK TO THE PUBLIC AND THE ENVIRONMENT. THESE RISKS ALSO HAVE A HEFTY FINANCIAL PENALTY ASSOCIATED WITH THEM. HOW SHOULD RISK MITIGATION BE PRIORITIZED?
PRESENTED AT THE 2014 NEW ENGLAND UST & SHOP-FABRICATED STORAGE TANK CONFERENCE WORCESTER, MA, DECEMBER 4, 2014
in detail description of previous gate papers of petroleum engineering and some assumptions for 2021, with a brief of future steps. reference textbooks
PetroSync - Applied Petrophysics for Low Resistivity Thin-Bedded FormationsPetroSync
Thin bedded reservoirs are increasingly common exploration targets. However, evaluating such formations is difficult due to challenging and sometimes misleading data.
This course examines the difficulties, challenges and problems facing today’s deepwater drilling programme designers and personnel where wells are being drilled in increasingly difficult downhole and environmental conditions with ever increasing cost and legislation further contributing to design and operational pressures.
PetroSync - Exploration & Production AccountingPetroSync
This course provides an overview through the fundamentals of accounting in the O&G industry with focus on different methods for the expenditure capitalization, depreciation & depletion together with fundamentals for accounting for international operations represented by JVs and PSCs.
PetroSync - Practical Accounting in Joint Ventures & Production Sharing Contr...PetroSync
Joint ventures allow companies to preserve autonomy, share investment risk and enhance competitiveness. The financial statements of many oil & gas companies can be different in future as a
result of the changes to the accounting for joint ventures, which raises the question of how such changes should be communicated to the investors and other stakeholders.
PetroSync - Budgeting and Forecasting in Oil & Gas IndustryPetroSync
Our Budgeting & Forecasting in Oil & Gas Industry shares insight of budgeting and forecasting process, enables fit-for-purpose budgets and business plans to be developed that robustly model complex, but realistic situations in a flexible and auditable manner.
PetroSync - Mastering Production Sharing ContractsPetroSync
course is specifically designed for professionals involved nationally and internationally in the oil and gas industry, it offers a unique opportunity to rapidly increase your understanding of the legal issues involved in production sharing contracts and to improve your negotiation techniques and skills in drafting a variety of related contracts.
PetroSync Wellsite and Operations GeologyPetroSync
Wellsite Geologists are mainly involved in evaluating offset data before beginning any drilling operations. The focus of this course is aimed at improving the conduct of data acquisition of the subsurface region. Because the subsurface data acquisition entails big capital expenditure, it is important to obtain quality information for future use in field development designs and drilling operations.
PetroSync - IWCF Well Intervention Pressure Control Level 3 & 4PetroSync
This program is offered with either IWCF or IADC certification and follows new progressive, role specific curriculum. Each course concludes with up to 5 closed-book examinations leading to the required certificate of competence in well intervention.
PetroSync - Cost Engineering Risk Management-Earned Value ManagementPetroSync
Will cover the latest techniques and practical methodologies of project cost engineering and risk management to successfully manage project cost and risk, in order to maximize business ROI in the long run.
Failure investigations are tough rigorous challenges form the best in engineering. This course will teach delegates the range of thinking and subjects, which need to be considered in driving to find the real root cause of a failure.
PetroSync - Acoustic and Flow Induced VibrationPetroSync
Failures of piping systems in the oil, gas and petrochemical industries can lead to damage of assets, personal injury and loss of life. Piping failure can be caused by excessive vibration, in the form of high levels of acoustic energy (AIV), or by flow turbulence (FIV) created by shear forces within the piping system.
PetroSync - Surface Geochemical Exploration for Oil and GasPetroSync
The great majority of oil and gas pools and mature source rocks have recognizable surface geochemical expression. The O&G industry devotes significant time and resources in finding and defining traps, but little or none in establishing the likely presence of hydrocarbon in those traps, especially for older onshore basins.
A significant part of the course will discuss recent geochemical and isotopic methods of determining the origin of the gas, its thermal maturity (i.e. temperature of generation), the influence of mixing of gases from different sources and the origin of inorganic components such as nitrogen and carbon dioxide.
PetroSync - API Specification Q1 9th Edition Quality Management System Traini...PetroSync
This four-days course will provide an informative look at the requirements, interpretations, and practical applications of the quality management principles as based on the 9th Edition of API Specification Q1, Specification for Quality Management System Requirements for Manufacturing Organizations for the Petroleum and Natural Gas Industry.
This course will concentrate on Offshore Marine Operations and will cover Operational and Managerial requirements for Loadout; Barge Transportation; Towing of Offshore Facilities; Lifting; Steel Jackets; Gravity-Based Structures; Lift-Off, Transportation and Inshore Mating of Topsides; Offshore Pipelines; Marine Operations Overview; Special Topics, and other essential topics related to Export/Import Oil & Gas.
PetroSync - LNG & Gas Sales Contracts-Negotiation and Pricing ReviewPetroSync
The course will start by going deep into the two main contracts, the SPA(GSPA) and the Capacity Agreement. By looking at their neuralgic clauses we will be able to understand the risk reward balance in contracts and how everything is dependent on everything.
This drilling string design program is a unique course discussing all factors that influence the drill string during operations. The participants will learn about the drill pipe grade, the limitation for torque and tension, and the drill collars tensional stress. Delegates will be able to optimize the drilling operations by performing a proper drill string design and eliminating the corresponding problems.
Participants will be acquainted with the problems of string vibrations and the ways to solve them. Delegates will perform a string design for directional drilling and choose the best BHA to address the problems. This course will provide several examples to the participants and train them to estimate the torque and drag. This program will be discussing all the challenges of drill string design, and the best practices applied by the oil industry in addressing these problems.
Most organizations have accident investigation procedures. However, these procedures are often based on a blame culture & do not inspire the investigator to nd & correct the defects in the management system (root causes) that allowed the hazards to exist & the accident to occur.
Several industries have adopted excellent accident investigation & analysis techniques. Competence in the application of modern accident/incident investigation tools will assist organizations to learn & to prevent the recurrence of accidents & to evaluate the extent & location of management defects (root-causes), which contributed to the accident event. A good analytical accident investigation is invaluable to achieve continuous improvement in an organization’s HSE performance.
Designed to provide comprehensive of the fundamentals of estimation & control, this masterclass covers many subtle and advanced estimating & control concepts for specific industry like Oil & gas which are “equipment-centric”, and this influence is important in the selection of estimating methodologies and techniques used in estimate preparation. This process will be covered from both the contractor and owner’s points of view, noting the similarities and differences in the respective approach of each.
An emphasis will be placed on examining the conceptual estimating methodologies that can assist in preparing accurate estimates at early design stages of project. The cost control process will be based on the concept of Plan-Do-Check-Assess of total cost management framework.
This course is designed to provide basic knowledge about petroleum geology, exploration, drilling, production, and the overall business of the petroleum industry.
Seismic interpretation is a critical step in evaluating the subsurface, as it turns the large investments in seismic data to tangible value to base all E&P decisions. It is essential for explorationists to learn to execute this key skill in their career.
Advanced Basin Analysis is key to understanding and identification major basin settings for petroleum prospectivity. It evaluates the potential successful basins in exploration for hydrocarbons.
Well intervention extends the life of producing wells by improving performance access to stranded or additional hydrocarbon reserves. Being challenged by the current oil price crisis, it is crucial to polish your intervention skills to avoid further asset loss and improve sustainability.
PetroSync - Drilling Engineering for Non-Drilling EngineerPetroSync
During the first day of this course, the entire drilling process will be discussed. The language of drillers - understanding their terminology. Understanding the abbreviations and acronyms associated with drilling.
PetroSync - Play Fairways Analysis & Prospect EvaluationPetroSync
The proposed workshop will cover the key topics prospect appraisal and play fairway analysis. The aim of the course is to provide the exploration geology and play fairway context for prospect evaluation, and then concentrate on the geological understanding of the specific risks associated with hydrocarbon charge, seals, traps, reservoirs and timing, with special attention paid to the risks associated with geophysical evaluation.
Tool Physcis cover the operating principles of modern logging tools, their applicability to varied environmental (borehole, formation and drilling fluid) condition and their use for defining petrophysical properties. It is important to properly select logging tool suites that are fit-for-purpose calls to know their limitations in specific well conditions.
Our Advanced Logging Tools Physics focuses on Basic Logging Operations and Quality HSE, Basic Nuclear Logging, Resistivity Logging, Acoustic (Sonic Logging), Nuclear Magnetic Resonance, Borehole Imaging & Dipmeters and Modern Nuclear Tools.
PetroSync - Incident Investigation for Upstream Drilling and Well OperationPetroSync
Incident management starts when the initial emergency response activities are over. Then we must secure the site, secure perishable information, inform stakeholders, and consider quarantine of the site and equipment, maybe issue Stop Work-order and a Safety Alerts.
This course examines different deepwater depositional systems and considers how deepwater process, topography and sediment supply impact on these systems. The course examines analogue data from turbidite reservoirs and modern turbidite systems. Depositional settings and sequences associated with clastic deepwater systems are reviewed, along with the geological controls on reservoir quality and architecture. It also examines post-depositional process that can have a major impact on reservoir quality and architecture, and considers this within the context of the petroleum system.
PetroSync - IWCF Certification Drilling Well Control Level 3 & 4PetroSync
This course is designed for people in critical well control positions on drilling installation as well as onshore roles. The candidates will complete an IWCF accredited training course, taught according to IWCF syllabus, in order to prepare them for assessment.
PetroSync - IWCF Certification Drilling Well Control Level 2PetroSync
This course is designed for people in critical well control positions on drilling installation as well as onshore roles. The candidates will complete an IWCF accredited training course, taught according to IWCF syllabus, in order to prepare them for assessment.
PetroSync - Financial Assets Valuation for Oil & GasPetroSync
The Financial Assets Valuation For Oil & Gas course is structured specially for professionals in the oil & gas industry to equip participants with the financial understanding when valuing oil & gas assets.
PE981 Fundamentals of E & P Data Management & Physical Asset Management petroEDGE
In collaboration with CGG DMS, this separately bookable 5-days training course is developed to present the fundamental principles of efficient management of E & P Data and physical asset.
Fundamentals of E & P Data Management will be covered in a 4-days programme and Physical Asset Management will extensively be covered in 1 day.
Each module will address a separate topic of E & P Data Management and physical asset and also highlight the links between the various aspects that are considered. The course is led by data management specialist who is also a qualified trainer and taught by modern training techniques, combining informative discussions and practical exercises.
In collaboration with CGG DMS, this 4-days training course is developed to present the fundamental principles of efficient
management of E & P Data. The course is presented as a series of modules over 4 days.
Each module will address a separate topic of E & P Data Management and also highlight the links between the various aspects that
are considered. The course is led by data management specialist who is also a qualified trainer and taught by modern training
techniques, combining informative discussions and practical exercises.
By the end of this course, delegates will have learned:
The value of effective E & P Data Management and the sources and formats of E & P data
To recognize the Lifecycle Stages of E & P Data starting with Data receipt
Accurate cataloguing, recognition of significant metadata and compliance to standards
Best practices for physical data handling and digital Data Management
To appreciate key technology solutions for E & P Data Management
Importance of Data Security and Data Quality
How to create operational workflows and procedures, and business continuity
Management data archives effectively, retention and destruction strategies
Awareness of legislative data retention requirements
Exploration and Production Data Management trainingEaswaran Kanason
In collaboration with CGG DMS, this 4-days training course is developed to present the fundamental principles of efficient management of E & P Data. The course is presented as a series of modules over 4 days.
Each module will address a separate topic of E & P Data Management and also highlight the links between the various aspects that are considered. The course is led by data management specialist who is also a qualified trainer and taught by modern training techniques, combining informative discussions and practical exercises.
By the end of this course, delegates will have learned:
The value of effective E & P Data Management and the sources and formats of E & P data
To recognize the Lifecycle Stages of E & P Data starting with Data receipt
Accurate cataloguing, recognition of significant metadata and compliance to standards
Best practices for physical data handling and digital Data Management
To appreciate key technology solutions for E & P Data Management
Importance of Data Security and Data Quality
How to create operational workflows and procedures, and business continuity
Management data archives effectively, retention and destruction strategies
Awareness of legislative data retention requirements
PetroSync - Advanced Seismic Data Acquisition and ProcessingPetroSync
Advanced Seismic Data Acquisition and Processing course will cover both seismic acquisition procedures as well as data processing methodologies in application to various complex environments and case studies. They will learn the tools available in the industry to ensure quality control on the conduct of the survey and the type of data acquired. Theories will be presented along with practical exercises on situational cases in application of the core skills of data acquisition. Delegates will also learn about the best practices and the new technologies available for seismic data acquisition and how this can be applied to their own operations.
The course focuses on the practical applications of various techniques and methodologies in well completion --- from the selection of completion type, perforating strategies, fluid selection, and installation of production heads.
PetroSync - API 580 & API 581 Risk Based Inspection & Base Resource DocumentPetroSync
The course is based on API RP 580 Risk-Based Inspection and API Publication 581, Base Resource Document. The course first explains feasible means and alternatives for achieving a successful RBI program without undue complications. This course deals with RBI framework and methodology in a simple straight forward manner to establish and implement a risk-based inspection program best suited for the company objectives.
PetroSync - Chemically Enhanced Water Alternating GasPetroSync
It is know that two-third of the original oil in place are still in the ground. Petroleum companies are looking for techniques to improve sweep efficiency and increase recovery factors. As a result, Enhanced Oil Recovery (EOR) processes need to be carried out. Successful WAG floods can yield 5-20% additional oil recovery over waterflood because of improved microscopic displacement efficiency by the solvent coupled with improving areal and vertical sweep efficiency.
The course introduces the participants to modern carbonate environments and explain how the constituents of a carbonate sediment become lithified and changed after deposition to provide potential reservoir rocks.
This training course is a comprehensive course to the technology of shell and tube heat exchangers as these robust type of heat exchangers are the most commonly used in the process and refinery industries, where they provide flexibility and are easy to maintain.
Fitness-For-Service (FFS) assessments are quantitative engineering evaluations that are performed to demonstrate the structural integrity of an in-service component that may contain a flaw or damage.
This is an in-depth course that is designed to provide the participants with a solid understanding of reservoir engineering and associated modern theories in order to manage and maximize hydrocarbon recovery. Hands-on examples and exercises are used throughout the course to help participants with understanding key performance concepts. Participants are encouraged to bring their own laptop computer to class.
PetroSync - Fractured Reservoir Modeling with Application to Fractured BasementPetroSync
This course provides a unique opportunity to learn all the aspects related to the understanding and modeling of fractured reservoirs. Participants will gain knowledge of how fractured reservoirs differ from conventional reservoirs, and how to approach their fractured reservoir projects in a systematic manner.
Cosmetic shop management system project report.pdfKamal Acharya
Buying new cosmetic products is difficult. It can even be scary for those who have sensitive skin and are prone to skin trouble. The information needed to alleviate this problem is on the back of each product, but it's thought to interpret those ingredient lists unless you have a background in chemistry.
Instead of buying and hoping for the best, we can use data science to help us predict which products may be good fits for us. It includes various function programs to do the above mentioned tasks.
Data file handling has been effectively used in the program.
The automated cosmetic shop management system should deal with the automation of general workflow and administration process of the shop. The main processes of the system focus on customer's request where the system is able to search the most appropriate products and deliver it to the customers. It should help the employees to quickly identify the list of cosmetic product that have reached the minimum quantity and also keep a track of expired date for each cosmetic product. It should help the employees to find the rack number in which the product is placed.It is also Faster and more efficient way.
Vaccine management system project report documentation..pdfKamal Acharya
The Division of Vaccine and Immunization is facing increasing difficulty monitoring vaccines and other commodities distribution once they have been distributed from the national stores. With the introduction of new vaccines, more challenges have been anticipated with this additions posing serious threat to the already over strained vaccine supply chain system in Kenya.
Courier management system project report.pdfKamal Acharya
It is now-a-days very important for the people to send or receive articles like imported furniture, electronic items, gifts, business goods and the like. People depend vastly on different transport systems which mostly use the manual way of receiving and delivering the articles. There is no way to track the articles till they are received and there is no way to let the customer know what happened in transit, once he booked some articles. In such a situation, we need a system which completely computerizes the cargo activities including time to time tracking of the articles sent. This need is fulfilled by Courier Management System software which is online software for the cargo management people that enables them to receive the goods from a source and send them to a required destination and track their status from time to time.
CFD Simulation of By-pass Flow in a HRSG module by R&R Consult.pptxR&R Consult
CFD analysis is incredibly effective at solving mysteries and improving the performance of complex systems!
Here's a great example: At a large natural gas-fired power plant, where they use waste heat to generate steam and energy, they were puzzled that their boiler wasn't producing as much steam as expected.
R&R and Tetra Engineering Group Inc. were asked to solve the issue with reduced steam production.
An inspection had shown that a significant amount of hot flue gas was bypassing the boiler tubes, where the heat was supposed to be transferred.
R&R Consult conducted a CFD analysis, which revealed that 6.3% of the flue gas was bypassing the boiler tubes without transferring heat. The analysis also showed that the flue gas was instead being directed along the sides of the boiler and between the modules that were supposed to capture the heat. This was the cause of the reduced performance.
Based on our results, Tetra Engineering installed covering plates to reduce the bypass flow. This improved the boiler's performance and increased electricity production.
It is always satisfying when we can help solve complex challenges like this. Do your systems also need a check-up or optimization? Give us a call!
Work done in cooperation with James Malloy and David Moelling from Tetra Engineering.
More examples of our work https://www.r-r-consult.dk/en/cases-en/
Final project report on grocery store management system..pdfKamal Acharya
In today’s fast-changing business environment, it’s extremely important to be able to respond to client needs in the most effective and timely manner. If your customers wish to see your business online and have instant access to your products or services.
Online Grocery Store is an e-commerce website, which retails various grocery products. This project allows viewing various products available enables registered users to purchase desired products instantly using Paytm, UPI payment processor (Instant Pay) and also can place order by using Cash on Delivery (Pay Later) option. This project provides an easy access to Administrators and Managers to view orders placed using Pay Later and Instant Pay options.
In order to develop an e-commerce website, a number of Technologies must be studied and understood. These include multi-tiered architecture, server and client-side scripting techniques, implementation technologies, programming language (such as PHP, HTML, CSS, JavaScript) and MySQL relational databases. This is a project with the objective to develop a basic website where a consumer is provided with a shopping cart website and also to know about the technologies used to develop such a website.
This document will discuss each of the underlying technologies to create and implement an e- commerce website.
Immunizing Image Classifiers Against Localized Adversary Attacksgerogepatton
This paper addresses the vulnerability of deep learning models, particularly convolutional neural networks
(CNN)s, to adversarial attacks and presents a proactive training technique designed to counter them. We
introduce a novel volumization algorithm, which transforms 2D images into 3D volumetric representations.
When combined with 3D convolution and deep curriculum learning optimization (CLO), itsignificantly improves
the immunity of models against localized universal attacks by up to 40%. We evaluate our proposed approach
using contemporary CNN architectures and the modified Canadian Institute for Advanced Research (CIFAR-10
and CIFAR-100) and ImageNet Large Scale Visual Recognition Challenge (ILSVRC12) datasets, showcasing
accuracy improvements over previous techniques. The results indicate that the combination of the volumetric
input and curriculum learning holds significant promise for mitigating adversarial attacks without necessitating
adversary training.
Democratizing Fuzzing at Scale by Abhishek Aryaabh.arya
Presented at NUS: Fuzzing and Software Security Summer School 2024
This keynote talks about the democratization of fuzzing at scale, highlighting the collaboration between open source communities, academia, and industry to advance the field of fuzzing. It delves into the history of fuzzing, the development of scalable fuzzing platforms, and the empowerment of community-driven research. The talk will further discuss recent advancements leveraging AI/ML and offer insights into the future evolution of the fuzzing landscape.
Water scarcity is the lack of fresh water resources to meet the standard water demand. There are two type of water scarcity. One is physical. The other is economic water scarcity.
Event Management System Vb Net Project Report.pdfKamal Acharya
In present era, the scopes of information technology growing with a very fast .We do not see any are untouched from this industry. The scope of information technology has become wider includes: Business and industry. Household Business, Communication, Education, Entertainment, Science, Medicine, Engineering, Distance Learning, Weather Forecasting. Carrier Searching and so on.
My project named “Event Management System” is software that store and maintained all events coordinated in college. It also helpful to print related reports. My project will help to record the events coordinated by faculties with their Name, Event subject, date & details in an efficient & effective ways.
In my system we have to make a system by which a user can record all events coordinated by a particular faculty. In our proposed system some more featured are added which differs it from the existing system such as security.
About
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
• Remote control: Parallel or serial interface.
• Compatible with MAFI CCR system.
• Compatible with IDM8000 CCR.
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
• Easy in configuration using DIP switches.
Technical Specifications
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
Key Features
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
• Remote control: Parallel or serial interface
• Compatible with MAFI CCR system
• Copatiable with IDM8000 CCR
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
Application
• Remote control: Parallel or serial interface.
• Compatible with MAFI CCR system.
• Compatible with IDM8000 CCR.
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
• Easy in configuration using DIP switches.
Sachpazis:Terzaghi Bearing Capacity Estimation in simple terms with Calculati...Dr.Costas Sachpazis
Terzaghi's soil bearing capacity theory, developed by Karl Terzaghi, is a fundamental principle in geotechnical engineering used to determine the bearing capacity of shallow foundations. This theory provides a method to calculate the ultimate bearing capacity of soil, which is the maximum load per unit area that the soil can support without undergoing shear failure. The Calculation HTML Code included.
Sachpazis:Terzaghi Bearing Capacity Estimation in simple terms with Calculati...
PetroSync - Geological Interpretation of Well Logs
1. Supported By
PETROSYNC’S PETROPHYSICS SERIES
Enhance Your Geological Interpretation with the Right Well Log Data Analysis
18-22 July 2016
Kuala Lumpur, Malaysia
GEOLOGICALINTERPRETATION
OFWELLLOGS
2. 2
The course describes all aspects of the principles and methods associated with the geological
interpretation of open-hole well logs. The class deals with both well-established and newer,
more experimental tools, showing how log data can be used to determine lithology and
interpret facies, stratigraphic and structural features.
PETROPHYSICS | GEOLOGICAL INTERPRETATION OF WELL LOGS
How Does This Course Benefits You?
PetroSync Quality Assurance
All PetroSync courses are developed with top quality to
address all your training needs and purposes. Our courses
are vetted strictly to ensure that we always deliver the best
courses with the best industry expert.
Learn What Logging Tools to Use and When to Use them
Differentiate the functions, physical principles, and limitations of logging tools used in a
standard logging suite and their applications for geological interpretation. Attendees will be
able to demonstrate the differences between logs acquired using wireline conveyance and
logs acquired whilst drilling.
Enhanced Geological Interpretation through Logging Tools & Data
Attendees will be able to analyse well logs and cores, together with other available data, to
produce a coherent geological evaluation. The well logs will be used to determine lithologies
and interpret facies, stratigraphic and structural features. Furthermore, attendees will be
able to know how to employ dipmeter and borehole imaging tools and analyse their
interpretation patterns to indicate structural and stratigraphic features.
Generate Important Geological & Geophysical Data from Well Logs
Determine shale volume, porosity, and water saturation from well logs. You will also learn
how to correlate between wells using well logs, integrating other available down-hole data to
enhance data analysis in the field.
PetroSync Inhouse Solutions
PetroSync can tailor our courses to meet your specific
needs at your preferred location and schedule. Contact us
for more information at +65 6415 4500 or email to general
@petrosync.com
The richness and immediacy of wireline log data have advanced
immensely in recent year — more data, more curves, more
acronyms, and are available sooner. There is vital qualitative and
quantitative data in the logs.
general@petrosync.com | +65 6451 4500 | www.petrosync.com
Course Overview
Comprehensive Geological Analysis through Logging Data
This program shall teach how logging data can be a complementary set for lithology
interpretation, facies recognition, log sequence analysis and correlation. Individual logging
tools will be described in terms of basic functions, physical principles, and geological
interpretation.
Includes Specific and Practical Case Studies
There will be frequent work sessions throughout the course using real data. The course will
include computer-based demonstrations of well-log interpretation software.
3. 3
PETROPHYSICS | GEOLOGICAL INTERPRETATION OF WELL LOGS
PetroSync Distinguished Instructor
Who Needs This Program
Practical & Consulting
Jenny has over 27 year of experience in the industry.
Previously, she was with Enterprise Oil for almost 15 years and
then moved to consulting work with AGR/TRACS International
Consultancy. She has been a consultant working on multi-
disciplinary and standalone evaluation projects in a variety of
global and geological settings. Including in depth knowledge of
most UKCS reservoirs.
Training
Jenny had taught industry courses to a number of professionals
for sub-surface disciplines. Her specialisation has been with
petrophysics application, reservoir characterisation, integrating
core-analysis, geological and geophysical information. Her
programs has always been well-received by industry
practioners internationally.
Jenny Garnham
Consultant
Petrophysicist
The course best suits those beginning to acquaint themselves with logs or those who do
not use logs all the time and need a refresher. The class is aimed primarily at inexperienced
Petrophysicists, Geologists, and Geophysicists, whether in exploration or exploitation, but
is also good for Technologists, Petroleum Engineers and new-hire Petrophysicists.
Job Titles Include:
Petrophysicists
Geologists
Geophysicists
XXX
Geoscientists
Subsurface Managers
Exploration Managers
PetroSync Inhouse Solutions
PetroSync can tailor our courses to meet your specific
needs at your preferred location and schedule. Contact us
for more information at +65 6415 4500 or email to
general @petrosync.com
PetroSync Quality Assurance
All PetroSync courses are developed with top quality to
address all your training needs and purposes. Our courses
are vetted strictly to ensure that we always deliver the best
courses with the best industry expert.
general@petrosync.com | +65 6451 4500 | www.petrosync.com
08:00—09:00 Registration (Day 1) 13:00—14:00 Lunch
09:00—11:00 Session I 14:00—15:30 Session III
11:00—11.15 Refreshment Session I 15:30—15:45 Refreshment Session II
11:15—13:00 Session II 15:45—17:00 Session Iv (Last Session)
Course Schedule
4. 4
PETROPHYSICS | GEOLOGICAL INTERPRETATION OF WELL LOGS
Course Agenda — 5 Days
general@petrosync.com | +65 6451 4500 | www.petrosync.com
DAY 1
Introduction to Logging Tools and Data
Introduction & Logging Environment
Work Session (Log Header)
Caliper Logs
Simple Gamma Ray
Work Session (Simple Gamma Ray)
Spectral Gamma Ray
DAY 2
Resistivity & Sonic Logs
Work Session (Spectral Gamma Ray)
Resistivity Logs I
Work Session (Resistivity)
Resistivity Logs II
Sonic Logs
Work Session (Sonic
DAY 3
Density Logs, Lithodensity Logs, & Neutron Logs
Density and Lithodensity Logs
Work Session (Density)
Neutron Logs
Neutron Density Combination & Lithology
Work Session (Lithology)
DAY 4
Image Logs || Sequence Analysis
SP
Work Session (Core Photos)
Dipmeter tools & Processing and Interpretation
Modern Image Logs
Facies and Sequence Analysis from Logs
Work Session (Sequence Analysis)
Hydrostatic Calculations, WHY and WHEN they are used
DAY 5
Log Correlation with Stratigraphy
Stratigraphy and Correlation with Logs
Work Session (Correlation)
Basic Petrophysics
Work Session (Petrophysics)
Register For This Course Now!
Kindly fill up your particulars in the
registration form placed at the end of this
brochure, and send it to us or email to
registration@petrosync.com
5. 5
By Credit Card:
Please debit my credit card: Visa MasterCard AMEX Security Code:
Card Number: Expiry Date:
Name Printed on Card:
By Direct Transfer: Please quote invoice number(s) on remittance advice
PetroSync Global Pte Ltd Bank Details:
Account Name: PetroSync Global Pte Ltd
Bank Name: DBS Bank Ltd
Bank Code: 7171—Bank Swift Code: DBSSSGSGXXX—Branch Code: 288
Account No: SGD: 288-901898-0 USD: 0288-002682-01-6
Bank Address: 12 Marina Boulevard, Level 3. Marina Bay Financial Centre Tower 3. Singapore 018982.
All bank charges to be borne by payer. Please ensure that PetroSync Global Pte Ltd receives the full invoiced
amount.
Title : GEOLOGICAL INTERPRETATION OF WELL LOGS
Date : 18-22 ULY 2016
Location : Kuala Lumpur, Malaysia
COURSE DETAILS
INVESTMENT PACKAGE DEADLINE FULL MASTERCLASS
Standard Price 15 JULY 2016 USD 4,295
Early Bird Offer 17 JUNE 2016 USD 4,095
Group Discount
(3 or more Delegates)
15 JULY 2016 USD 3,995
INVESTMENT PACKAGES (Please Circle)
Group Discount is based on Standard Price
*To enjoy the promotion & discount offer, payment must be made before dateline
* For 7 or more delegates, please inquire for more attractive package.
* Prices include lunches, refreshments and materials. Promotion & discount cannot be combined with other
promotional offers.
* Important: Please note that registration without payment will incur a SGD 200 administration fee.
COURSE CONSULTANT
Name : Cay Aagen
Email : registration@petrosync.com
Phone : +65 6415 4500
Fax : +65 6415 4322
TERMS AND CONDITIONS
DISCLAIMER
Please note that trainers and topics were confirmed at
the time of publishing; however, PetroSync may
necessitate substitutions, alterations or cancellations
of the trainers or topics. As such, PetroSync reserves
the right to change or cancel any part of its published
courseme due to unforeseen circumstances. Any
substitutions or alterations will be updated on our web
page as soon as possible.
DATA PROTECTION
The information you provide will be safeguarded by
PetroSync that may be used to keep you informed of
relevant products and services. As an international
group we may transfer your data on a global basis for
the purpose indicated above. If you do not want us to
share your information with other reputable
companies, please tick this box
CANCELLATION POLICY
You may substitute delegates at any time as long as
reasonable advance notice is given to PetroSync. For
any cancellation received in writing not less than
fourteen (14) working days prior to the training
course, you will receive credit voucher less a SGD $200
administration fee and any related bank or credit card
charges.
Delegates who cancel less than fourteen (14) working
days of the training course, or who do not attend the
course, are liable to pay the full course fee and no
refunds will be granted.
In the event that PetroSync cancels or postpones an
event for any reason and that the delegate is unable or
unwilling to attend in on the rescheduled date, you will
receive a credit voucher for 100% of the contract fee
paid. You may use this credit voucher for another
PetroSync to be mutually agreed with PetroSync,
which must occur within a year from the date of
postponement.
PetroSync is not responsible for any loss or damage as
a result of the cancellation policy. PetroSync will
assume no liability whatsoever in the event this event
is cancelled, rescheduled or postponed due to any Act
of God, fire, act of government or state, war, civil
commotion, insurrection, embargo, industrial action,
or any other reason beyond management control.
CERTIFICATE OF ATTENDANCE
70% attendance is required for PetroSync’s Certificate
of Attendance
DETAILS
Please accept our apologies for mail or email that is
incorrectly addressed.
Please email us at registration@petrosync.com and
inform us of any incorrect details. We will amend them
accordingly.
CHARGES & FEE(S)
- For Payment by Direct Telegraphic Transfer, client
has to bear both local and oversea bank charges.
- For credit card payment, there is additional 4%
credit card processing fee.
1st Delegate Name:
Direct Line Number: Email:
Job Title: Department:
Head of Department:
Mr Mrs Ms Dr Others
2nd Delegate Name:
Direct Line Number: Email:
Job Title: Department:
Head of Department:
Mr Mrs Ms Dr Others
3rd Delegate Name:
Direct Line Number: Email:
Job Title: Department:
Head of Department:
Mr Mrs Ms Dr Others
Attention Invoice to:
Direct Line Number: Fax:
Company: Industry:
Address: Postcode:
Country: Email:
Please note:
- Indicate if you have already registered by Phone Fax Email Web
- If you have not received an acknowledgement before the training, please call us to confirm your booking.
CONFIRMATION
I agree to PetroSync’s terms & conditions, payment terms and cancellation policy.
Authorized Signature:
PAYMENT TERMS : Payment is due in full at the time of registration. Full payment is mandatory for event attendance.
PAYMENT METHOD
INVOICE DETAILS
DELEGATES DETAILS