Danvic Concepts 2013 Bronchure
15
2013
description
Danvic Concepts 2013 Bronchure
Transcript of Danvic Concepts 2013 Bronchure
2013
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Company Profile
Our VisionTo be a leader in Geological and Petroleum Engineering Consultancy
Our MissionTo provide a service that is evidently excellent and well received by our clients.
What We Do:· Exploration and Production Training Services (Nigeria, USA)· Recruitment & Manpower supply (Onsite and Well-site Support Services) · Integrated Reservoir Studies· Seismic Data Processing and Multi Client Services· Software and Support Services (OpendTect)
Partners:Danvic Concepts International Nigeria is in technical cooperation with dGB Earth Sciences Netherlands, Pan Terra Geo – Consultants B.V. Netherlands and Spectrum Geo UK. This is to ensure that local resources are complemented by a worldwide pool of the most advanced and most competent technology and experience to benefit our clients.
DANVIC CONCEPTS International (Nig.) Limited
OVERVIEW OF DANVIC COURSES 2013
General* Introduction to the E&P business for non Geoscientists* Essential Leadership skills for Technical Professionals in the Oil & Gas Industry
Geology & Geophysics* Sequence Stratigraphy: Principles and Applications* Managing Wellsite Operations* Sedimentology and Stratigraphy of Deepwater settings* Petroleum Geology for Engineers* AVO, Inversion and Attributes: Principles and Applications* Geological Principles of Integrated Static Reservoir Modelling
Petrophysics* Petrophysics: Practice and Pitfalls
Reservoir Engineering* Reservoir Engineering for Geoscientist• PVT-Reservoir Fluid Properties: Preparation for Reservoir Engineering
and Simulation Studies
Field Trip Training• Nigeria field trip course - the Igarra-Auchi-Fugar-Agenebode Traverse• USA Field Trip: Structure, Tectonics and Sedimentary Basin Analysis in the Nothern
Rocky Mountain, USA
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1. Introduction to the E&P Business for non-GeoscientistsFacilitator: Prof. C.S. Nwajide; 5 Days
WHO SHOULD ATTEND: New technical staff and administrative staff in the oil & gas business.Staff in organizations working with the oil industry (investment banks, service industry).
OVERVIEW: New and administrative staff in the oil & gas business, or staff in organizations working with the oil industry, often has insufficient understanding of the "upstream" part of the business. This course provides a full overview of exploration for hydrocarbons, field development and operations, processing and transportation of oil and gas. The history of the business, project economics and global and political issues are also discussed.
CONTENT:This course will cover the following: History of the oil industry, current issues.Geological concepts, global distribution of hydrocarbons, nature and geometry of hydrocarbon reservoirs. Methods and tools used for hydrocarbon exploration, including drilling. Field appraisal and static models of reservoirs. Assessing amounts of hydrocarbons-in-place and its uncertainties. Dynamic mode ls and subsur face development options, surface engineering and field operationsProject economics Environmental issues.
LEARNING, METHODS AND TOOLS: At the end of the course participants will have a good but general understanding of the 'upstream' oil and gas industry: how hydrocarbons are found, developed, produced and treated prior to sales. Participants will work in teams on an actual field case, and will go through all steps that lead to a field development plan, including an economic assessment.
2. Petroleum Geology for EngineersFacilitator: Prof. C.S. Nwajide; 5 Days
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WHO SHOULD ATTEND: Petroleum engineers and reservoir engineers with no formal geological training.
OVERVIEW: Hydrocarbon-bearing basins and reservoirs are often far more complex than is appreciated by the non-geologist. This course is designed to provide petroleum and reservoir engineers, who are unfamiliar with geological concepts and work practices, with a background to structural development and the characteristics of source rocks, reservoirs and seals. It will cover problems of predicting reservoir geometry and connec t i v i t y i n th ree d imens ions i n heterogeneous rocks penetrated by a limited number of widely spaced wells, problems associated with mineral composition on the pore scale, and the contribution that geology can make to volumetric assessment of reserves.
CONTENT: Source rocks and the origin of oil and gas: Depositional environment; kerogen; thermal maturation; migration of hydrocarbons; classification of natural gases and crude oil.
Reservoirs and seals: Clastic and carbonate reservoir sedimentology; Deposi t ional environments; Sandbody geometry and connectivity; Permeability profiles; Porosity and the effects of diagenesis; Formation damage and clays; 3-D modelling Structural geology: Basin types and plate tectonics; Trap types, structural, stratigraphic, and combination; Geological maps; Reservoir, structure and isopach maps Seismic mapping; Generating cross-sections
Exploration geology: Wireline logs; Play fairways and prospects Seismic stratigraphy Volumetrics: Geological input to reserves estimates.
3. Sequence Stratigraphy: Principles and Applications
Facilitator: Prof. C.S. Nwajide; 5 Days
WHO SHOULD ATTEND: Geologis ts , geophysicists and reservoir engineers who want to learn the method of sequence (and seismic) stratigraphy for correlation, facies prediction, and the delineation of stratigraphic traps.
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Exploration and Production Training for Young
Professionals commences from January, 2013.
Check the inside back page for more details.
COURSE CONTENT AND OBJECTIVES: This workshop presents the concepts and practical applications of sequence stratigraphy for petroleum exploration and production. All concepts are illustrated with field examples of seismic, well-log, core, and outcrop data. In-class exercises emphasize the recognition of sequence stratigraphic surfaces and systems tracts on well-log cross-sections, seismic lines, and outcrop profiles. The points of agreement and difference between the various sequence stratigraphic approaches (models) are discussed, and guidelines are provided for a standardized process-based workflow of sequence stratigraphic analysis. This enables the practitioner to eliminate nomenclatural or methodological confusions, and apply sequence stratigraphy effectively for facies predictions in exploration and production.
COURSE CONTENT INCLUDES: Historical development of sequence stratigraphy Methods and workflow of sequence stratigraphic analysis Fundamental concepts of sequence stratigraphySequence stratigraphic surfacesSystems tractsSequences and sequence modelsTime attributes of stratigraphic surfacesHierarchy of sequences and sequence boundariesApplications to all depositional systems
4. B a s i c R e s e r v o i r E n g i n e e r i n g ( R e s e r v o i r E n g i n e e r i n g f o r Geoscientist)
Facilitator: Mr. Chike Chinwuba; 5 Days
WHO SHOULD ATTEND: Geologists, geophysicists, engineers, engineering trainees, technical managers, technical assistants, technicians, chemists, physicists, technical supervisors, service company personnel, sales representatives, data processing personnel, and support staff working with reservoir definition, development and production.
YOU WILL LEARNThe fundamentals of fluid flow in porous media How reservoirs are characterized by fluid type and drive mechanisms The basis for reservoir fluid distribution About oil and gas well performance and
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pressure buildup analysis About oil displacement and optimizing reservoir performance The basics of enhanced oil recovery How oil and gas in place can be estimated and recovery predicted
ABOUT THE COURSEThe intent of Basic Reservoir Engineering is d e v e l o p m e n t o f a m o r e c o m p l e t e "understanding" of the characteristics of oil and gas reservoirs, f rom f lu id and rock characteristics through reservoir definition, delineation, classification, development plan, and production. Data collection, integration and application directed toward maximizing recovery are stressed. Basic reservoir engineering equations are introduced with emphasis directed to parameter significance and an understanding of the results. 3-D and 4-D seismic concepts are introduced. For nearly 30 years this has been one of our most popular and successful courses.
As part of the Basic Reservoir Engineering course, there are class exercises designed to be solved by hand with a calculator. For those that prefer to use spreadsheets to do the calculations, participants are welcome to bring their own laptop computer.
COURSE CONTENTReservoir fluid properties Coring practices and rock properties Fundamentals of fluid flow Reservoir fluid distribution Reservoir classification Reservoir drive mechanisms Oil and gas well performance Pressure buildup analysis Oil displacement concepts Estimation of oil-in-place and gas-in-place Recovery
5. PVT- Reservoir Fluid Properties: Preparation for Reservoir Engineering and Simulation Studies
Facilitator: Mrs. Lucian Pirlea; 5 Days
WHO SHOULD ATTEND: Reservo i r, production and facilities engineers who have a need to determine values of reservoir fluid properties and use Equations of State for engineering studies and reservoir simulation
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YOU WILL LEARN HOW TOIdentify the type of fluid in a particular reservoir and in general how that fluid will behave during production Use laboratory data to determine values of fluid properties for use in engineering calculations Use correlations to determine values of fluid properties in the absence of laboratory data Select the best available fluid property correlations for oils, gases, and oilfield watersApply Equations of State and tune EOS to match experimental PVT dataShape PVT Data to get the best results out of analytical and numerical software.
ABOUT THE COURSEThis course goes beyond the usual description of reservoir fluid properties. The underlying purpose is to be able to prepare the most accurate possible set of values of fluid properties for use in other engineering calculations. An understanding of the advantages of the application of both laboratory data and correlations will be provided. Exercises that utilize actual field and laboratory data are used to illustrate the principles and to ensure understanding of the applications of the procedures. The course also introduces the participants to the evolution of modern computational capabilities that allow engineers to use EOS models to study phenomena such as the development of miscibility during gas injection, compositional gradient and the behavior of near-critical hydrocarbon systems. The participants are encouraged to bring their own PVT laboratory date to discuss in class.
One personal computer is provided, at additional cost, for each two participants.
COURSE CONTENTFundamentals of Hydrocarbon Phase Behavior: Single-Component Systems, Two-Component Systems, Mul t i -component Systems, Classification of Reservoirs and Reservoir Fluids, Location of Gas-Oil Contact
Characterizing Hydrocarbon-Plus Fractions: Generalized Correlations, PNA Determination, Splitting and Lumping Schemes for Equation of State Applications, Natural Gas Properties: Behavior and Properties of Ideal Gases, Behavior and Properties of Real Gases, Wet Gases and their Behavior, Analysis of Gas Condensate Behavior
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PVT Properties of Crude Oils: Crude Oil Properties, Surface and interfacial tension, Properties of Reservoir Water, Understanding Laboratory Data, Constant-Composition Expansion Test, Differential Liberation Test, Separator Test, Liquid Dropout, Swelling test, Slim Tube test, Calculations of Minimum Miscibility Pressure, Modeling of Compositional Variation with EOSEquations of State and Phase Equilibria: Equilibrium Ratios, Flash Calculations, Van der Waals' Equation of State, Redlich-Kwong Equation of State, Soave-Redlich-Kwong EOS, Peng-Robinson EOS, Fugacity and Fugacity Coefficient, Binary Interaction Coefficient, Volume Shift Parameter, Gibbs Free Energy, Chemical Potential, Three-Phase Flash Calculations, Simulation of laboratory Tests by Equations of State, Compositional Gradient, Tuning of Equations of State
6. Petrophysics: Practices & Pitfalls Facilitator: Mr. Chike Chinwuba; 5 Days
WHO SHOULD ATTEND: Reservoir engineers, geoscientists, petrophysicists and others involved in the subsurface management life cycle, having some experience of formation evaluation and who wish to broaden their practical knowledge and understanding of petrophysical data acquisition, quality control, integrated interpretation and the potential petrophysical pitfalls.
AIMSPetrophysics is fundamental to understanding the properties of oil and gas fields. It lies at the centre of all subsurface activities: whether in the context of open-hole operations on new-drill wells, cased hole operations on producing wells, or in an integrated team - building reservoir models for asset evaluation, field development or reservoir management. However, lack of awareness of petrophysical pitfalls can lead to wrong, costly and often embarrassing decisions. How can we ensure that the petrophysical data input does not compromise the subsurface models?
In this course, emphasis will be placed on the integration of all available subsurface data, understanding the context in which the data are acquired and the analyses used to refine the data. The objective is to identify common pitfalls often encountered during the interpretation process and realize the effects they can have on
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ultimate outcomes. Interpretation exercises are an important element of the course.YOU WILL LEARN ABOUT:logging tool measurement principles and the logging environment data quality assurance and the integration of all subsurface data quick-look interpretation and deterministic petrophysical interpretation in both clean and shaly formations the pitfalls of Petrophysics uncertainty in petrophysical interpretations practicalities of database building reporting and delivery to other disciplines
7. Geological Principles of Integrated Static Reservoir Modelling
Facilitator: Mr. Chike Chinwuba; 5 Days
WHO SHOULD ATTENDReservoir modellers who need to understand the diverse range and geological significance of data provided to them for the model build.Technical specialists who supply data to modellers and want to provide the best possible input data (e.g. geologists, geophysicists, petrophysicists, stratigraphers, engineers).
OVERVIEW: This course is designed to identify and understand the geological interpretation and integration processes linking in to the structural, Stratigraphic, lithofacies and object model components of a typical static reservoir model . This evaluat ion wi l l lead to recommended approaches for incorporating greater geological understanding into static reservoir models. The course aims to establish a common language that better enables specialists and modellers to collaborate effectively.
CONTENTS: Following the introduction of the static modelling process, each of the data input streams will be reviewed in terms of the following: the available analytical methods; quality control issues; the integration of the analytical methods; key uncertainties with the combined methods, including strategies for dealing with those uncertainties
The following sessions will take place over the 5 days of the course.
Static Reservoir Modelling Overview: Explanation and discussion of the modelling process.
Fault and Fault Seal Analysis: Recognition of faults in seismic and core, fault displacement models, fault seal analysis.Stratigraphic Analysis: core- and log-based sequence stratigraphy; seismic stratigraphy; b i o s t r a t i g r a p h y, c h e m o s t r a t i g r a p h y, magnetostratigraphy, pressure data, residual salt analysis.
Facies Analysis: Facies analysis using cores and logs; constructing depositional models; constraining models with biofacies and ichnofacies; use of analogues in facies analysis; defining the most appropriate scale for facies; geological analysis of seismic.
Reservo i r Body Character isa t ion: Depositional models; Sandbody architectures; geological analysis of seismic Sandbody analogues (ancient and modern) .
Petrophysical Characterisation: Review of petrophysical logging tools (conventional and advanced); Archie and non-Archie formation evaluation; conventional and special core analysis; seismic attributes and seismic inversion.
8. Essential Leadership Skills for Technical Professionals in the Oil & Gas Industry.
Facilitator: Mr. Victor Adimora (5 days)
WHO SHOULD ATTEND: Supervisors, team leaders, managers, and others interested in increasing the effectiveness of their leadership and communication skills.
YOU WILL LEARNTo enhance your leadership, decision-making and communication stylesCoaching and leading an empowered teamRecognize and solve conflictsHow to negotiate difficult situations
ABOUT THE COURSEThis seminar will include lecture, discussion, readings, role-playing, video examples and creation of participant action plans. This course will help you unleash natural motivation in your team. You will lower your stress level by working more efficiently and effectively by tapping into the emotional intelligence of your team. Under the guidance of the seminar leaders, you will use competency maps in Leadership and Management to assess yourself in seven major
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skill areas before and after the seminar.
COURSE CONTENTThe nature of groupsLeadership vs. ManagementSelf-centeringListeningMotivationGroup dynamicsConflict managementTeam buildingCritical thinking and taking action
9. Managing Wellsite Operations Facilitator: Mr. Chike Chinwuba; 5 Days
WHO SHOULD ATTEND: Operations managers, dr i l l ing managers dr i l l ing superintendents, drilling supervisors, well site dri l l ing engineers, r ig managers, r ig superintendents, contract drilling engineers YOU WILL LEARN HOW TO
Define a well's technical limit and implement a plan that will work to reach it Identify and mitigate hidden risks to reduce lost time Apply practical organizational learning techniques to benefit from lessons learned Build effective rig site teams
ABOUT THE COURSEDrilling and service personnel struggle daily with the oil and gas industry's inexperienced labor force. This inexperience at the well site results in excessive non-productive time, trouble time, and invisible lost time. These, in turn, lead to unsafe incidents and excessive costs to the operator, the contractor and the service industry. Managing Wellsite Operations teaches participants to apply organizational learning processes; well site technical limits analysis and more efficient use of all resources at the well site.
Good well planning is essential. However, in spite of very good planning and design there exist geological and reservoir uncertainties, surface and down hole environmental cons t ra in t s , f a i l ed equ ipmen t , and misunderstood practices coupled with inexperienced well site personnel that are creating unsafe work conditions and driving up drilling cost. Participants will learn how to identify and mitigate hidden risks that often are overlooked during the planning, design and
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execution phases of a drilling operation. The participant will learn how to dissect and analyze an operational plan. In addition, applying operational innovations and advanced motion and time processes will lead to improved efficiency of well site rotary operations and individual well site tasks. Participants will be introduced to models, templates, techniques, and real case studies that can be used on the job.
This course brings together a documented planning and design process, maximizes drilling efficiency and transfers the execution plan to the well site for implementation. Participants will learn to build effective teams by using a case study and applying the skills of the company representative, drilling contractor and service company personnel. Critical issues are identified and analyzed to maximize safety and reduce drilling costs. Similarly, engineering, technical service, and drilling contract personnel learn to analyze inefficient practices at the well site and utilize their newfound skills to improve the operation. Drilling organizations are using new and complex drilling technology to maximize return on capital costs. Combine the known variables with the influx of inexperienced personnel in the planning, design, and execution phases and you have high cost and unsafe operations at the well site. Mastering the drilling operations at the well site will reduce costs, improve drilling budgets and maximize resources.
COURSE CONTENTCritical elements of effective planning and management of drilling operations Design and implement a program "checklist" for critical well drilling operations Investigate various elements of a drilling operation and mitigate visible and hidden risk Investigate and perform an analysis of trouble time events, non-productive time occurrences and invisible lost time for a drilling operation Dissect the drilling plan and apply total task analysis to well site activities Enhance your knowledge of organizational learning systems and transfer lessons learned Perform technical limit analysis to improve well site performance Measure and performance monitoring of the drilling operation
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Maximize the inexperienced resources through total task analysis in a case study to reduce drilling costs and improve safety
10. AVO, Inversion, and Attributes: Principles and Applications
Who should attend: Geophysicists, geologists, explorationists, seismic interpreters, technical support personnel, seismic data processors, exploration, production, and acquisition managers, who need a clear understanding of the details of implementation and application of this technology YOU WILL LEARN HOW TO
Clearly understand how hydrocarbons affect the seismic image Use direct hydrocarbon indicators and AVO in the assessment of projects Understand the limits of seismic resolution Integrate these technologies into an interpretation project Better understand the nature of the seismic image as it relates to hydrocarbons Utilize the information available in the literature from experts in this rapidly developing part of seismic imaging
ABOUT THE COURSEThe subject of direct hydrocarbon indicators and AVO has rapidly expanded to include AVO inversion, offset AVO inversion, and 4D AVO inversion. A significant part of the course deals with rock physics as it relates to the other topics in the course. Further insight into the seismic data is supplied by looking at seismic attributes. The technology has provided the interpreter with a very new and exciting package of tools that allow us to look at the seismic image as being truly representative of both the rock properties and the pore filling material. This course is intended to provide the users and applicationists with a clear and useable understanding of the current state of these technologies. The focus of the course is on both understanding and application.
Exercises: Each topic in the course outline is reinforced by an exercise that gives the participants many practical and simple methods of integrating the course material into their everyday work.
COURSE CONTENTSeismic fundamentals as they relate to
defining the appearance of hydrocarbons in the data An inventory of direct hydrocarbon indicators, including AVO Risk rating prospects that display AVO anomalies Understanding rock properties and the effect of pore filling material AVO and how it relates to the typical production zones around the world with various ages and depths of burial Various methods of displaying AVO effects in the seismic data Acquisition and processing considerations to display hydrocarbons as a pore filling material Various approaches to seismic modeling and fluid replacement Rock properties and pore filling material from seismic inversion Spectral decomposition and seismic attributes as other ways of extracting reservoir information from the seismic image
11. Nigeria Field Trip (Geological Field trip to Anambra Basin)
Facilitator: Prof. C.S. Nwajide; 6 Days
WHO SHOULD ATTEND: Geologists, Geophysicists and Reservoir Engineers
Summary: The Geological field trip will be to Anambra Basin. A Four-day field trip to demonstrate modern day depositional processes, growth faults and rollover anticlines, outcrop sequence stratigraphy, sedimentary facies of tidalites; view of a sedimentary basin from an underlying one across a major unconformity
Day 1- Assembly at Enugu Pre trip briefing - logistics and HSEDay 2 - Enugu area - Anambra Basin fill facies - coal measures, source rock facies, soft sediment deformation including growth faults, some environmental problems Day 3 - Enugu to Onitsha and Umunya - inselberg topography in the Anambra Basin, present-day depositional processes, outcropping Niger Delta faciesDay 4 - Enugu to Lokpanta - Nose of the Abakaliki Anticlinorium (southern Benue Trough) pressed against the Enugu Cuesta (Anambra Basin) Day 5 - Enugu to Leru - traverses from southern Benue Trough into the Anambra
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Basin; black shale (source rock type); outcrop sequence stratigraphyDay 6 - Review/debriefing and departure
Logistics- Fly Lagos - Enugu and check into a hotel as
base camp- Carry packed lunch, water, first aid kit- Air-conditioned coach avaliable for 15 - 20
persons
12. USA Field Trip: Structure, Tectonics and Sedimentary Basin Analysis in the Northern Rocky Mountain, USA
Facilitator: Prof. Lee Suttner; (13 Days)
WHO SHOULD ATTEND: Geologists and Geophysicists
THE FIELD STATION:The field station is situated in an area of truly remarkable structural , tectonic, and Stratigraphic diversity. It is the single site where the three major structural regimes which characterize interior western North America converge-basement-cored lock uplifting and supra-crustal fold-thrusting of Laramide age, and Cenozoic extensional (basin and range) faulting. It is also an ideal location to study the sedimentary, plutonic and volcanic records associated with a variety of plate-tectonic settings. These include an aulacogen, passive continental margin, back-arc foreland basin and extensional intermountain basins. The Indiana University Geologic Field station is located in the Tobacco Root Mountain Range within the northern Rocky Mountain province. It is considered by many to be among the premier facilities of its kind in North America, and at or near the forefront of teaching geosciences in the field. Since its construction began in 1949, over 4500 students from over 200 Universities, nearly all in the U.S., have enrolled in its undergraduate and graduate-level courses.
APPROACH:95% field based and hands onInstructor-led team investigation, self-discovery, and problem solving.Rigorous data collection on air photos and topographic maps.
CONTENTS:(3 days) Comparative analysis of the facies architecture and reservoir characteristics of rocks formed:
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In a Proterozoic aulacogenAlong a Paleozoic passive continental marginIn a Mesozoic back-arc foreland basinIn a Cenozoic extensional intermountain basin (9 days ) Mapp ing , c ross -sec t ion construction, and 3D and 4D modelling of:L a r g e ( k m - s c a l e ) t h r u s t - r e l a t e d compressional structures within a carbonate rock sequence.Small (100's of meters) thrust related compressional structures within a siliciclastic rock sequence Multiple scales of structures inter-associated with thrusting, basement-cored block uplifting and extensional basin/range formation.(2 days) Mid-course trip to study thermal activity associated with the Yellow hot-spot and to examine structure of the Beartooth Plateau. Root Mountain, Mon
TAKE- AWAYS:Better appreciation of actual scale and geometry of a variety of reservoir architectures and products of rock deformation Enhanced ability to make interpretation from a limited data baseIncreased self-confidence in integrating a variety of Stratigraphic, Sedimentological, structural and geophysical information in problem solving Improved skills in working as part of a team.
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Prof. OctavianCatuneanu
TRAINERS PROFILE
LucianPirlea
Octavian Catuneanu is Professor in the Department of Earth and Atmospheric Sciences at the University of Alberta, Canada, with Ph.D. degrees from the University of Toronto (1996) and the University of Bucharest (1992). He is the recipient of several distinctions in the field of Geology, including best paper awards from the Geological Society of America (2002) and the Romanian Academy (1994). Octavian Catuneanu has served as the Chair of the North American Commission on Stratigraphic Nomenclature (2005-2006), the Chair of the Canadian Sedimentology Research Group (a division of the Geological Association of Canada; 2004-2007), and he is the current Chair of the International Working Group on Sequence Stratigraphy (working towards the standardization of sequence stratigraphy in the International Stratigraphic Guide and in the North American Stratigraphic Code). He is the Editor-in-Chief of the Journal of Marine and Petroleum Geology, and also serves on the editorial board of the Journal of African Earth Sciences and as an Associate Editor of the Bulletin of Canadian Petroleum Geology. He is the author of Elsevier's textbook titled "Principles of Sequence Stratigraphy" (Elsevier's 2006-2007 best seller, and recipient of a 2007 "Outstanding Academic Title" CHOICE Award), co-editor or senior editor of several books and special issues, and author of numerous publications in the fields of sedimentology, stratigraphy and basin analysis. He is currently involved in several international research programs and as an instructor of sequence stratigraphy and basin analysis workshops for conferences and companies worldwide.
Lucian is a Petroleum engineer with an extensive international experience in Reservoir Fluids Analysis. After an initial few years of involvement in reservoir engineering, since 2001, he has actively carried out PVT analysis, from the position of lab analyst to supervisor. He undertook exhaustive hands-on field sampling and on-site analysis at various locations mainly in Western Canada. As a data evaluator and later PVT supervisor trainee for Core Laboratories Petroleum Services he worked at various locations around the world, including North America, Europe and Asia, helping setting up new labs, implementing company's quality policy at subsidiaries and helping reduce the work backlogs. Since October 2006, he is the PVT supervisor with PanTerra Geoconsultants BV in The Netherlands, in charge of setting up and running the PVT laboratory. Throughout his career, Lucian has conducted studies on all types of fluids, from lean gas condensates to very heavy oils, acquiring an extensive experience in the process. The range of studies varying from the basic determination of fluid properties to the more complex tasks of differential and swelling experiments gave him the knowledge and confidence to provide fluids analysis training either at PanTerra facilities in The Netherlands or at customer's base. Lucian's training program is part of a wider PanTerra tailored learning program, a blend of traditional classroom teaching and on-the-job training, where executing a project and learning run hand in hand. Learning facilitation is provided by seasoned technical professionals who share considerable educational experience.
Dr. Eche has a record of success in the fields of general administration, strategic planning, marketing strategies, also includes new market development, market research and forecasting, formulation and execution of policies.A graduate of BS. Pharmacy, MS. Pharmacy and PhD Management, he was the former Executive Vice President of J o h n F. K e n n e d y C e n t e r , w h e r e h e s u c c e s s f u l l y e s t a b l i s h e d L e g a c y I n s t i t u t e .Former Special Adviser for Training for CNMI Government, Currently, Chairman of the Board, Saipan Community School and Saipan Community church. Vice-Chair Northern Mariana Islands Humanities Council, faculty member University of Maryland University College Asia Guam, President of World Pacific Consultancy in partnership with Management Development Institute of Singapore.Dr. Eche has served as a management consultant for many multinational companies. Presented workshops, and facilitated motivational leadership programs to thousands of people around the world. He has more than 20 years' management experience. Listed Who's who among American teachers
Peter C. Eche, PhD
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Chike PhilipChinwuba
Chike Philip Chinwuba has a B.Sc degree in Geology and an M.sc degree in Applied Geophysics-all from the University of Nigeria, Nsukka. A total of 20+ years of varied oil and gas experience that cuts across Field Service Engineering, Production Geology, Seismic Interpretation, Geosciences Training and Mentoring. Chike has worked in Nigeria, United States and The Netherlands thereby exhibiting a blend of diversity with professionalism in his deliveries. While in Shell Nigeria and Netherlands, he was (involved in Seismic interpretation, Earth Modelling and Production Geology work on numerous SPDC field projects. He left Shell Nigeria as new oil and gas delivery leader for the Northern Swamp asset team in the west, Warri. He is currently involved in training and building of Earth's models for oil and gas clients using Petrel, Chike has consulted for Shell Intensive Training Programme and other oil and gas companies in Nigeria.Earlier in his career, Chike worked in Geoquest Schlumberger as systems Manager Supporting Geological and Geophysical packages in client locations (Texaco overseas, Shell Portharcourt and other client sites. At Baker Hughes, he worked as a field service Engineer and was involved in real-time measurements while Drilling, Formation Evaluation measurements and pore pressure prediction.Key skills: (seismic Interpretation Seisworks< Charisma & CPC), Production Geology, Earth Modelling (Geocap & Petrel), Field Reviews, Field Development Planning, Execution and Business Planning)
Prof. Cornelius Sunday
Nwajide
Cornelius Sunday Nwajide attended the University of Ibadan and University of Nigeria, Nsukka. He holds a BSc honours degree in geology, MPhil and PhD in sedimentology/stratigraphy. He has attended several professional, technical and management courses and holds the certificate in Mineral Sands Mining Technology from the Western Australian Institute of Technology, and the certificate in training Consultancy Management from Thames Valley College, Slough, United Kingdom. He is a fellow of the Nigerian Mining and Geosciences Society, and the Nigerian Association of Petroleum Explorationists, and is a COMEG-Registered Geoscientist. He has won a number of academic and professional awards some of which are the 1982 Vice Chancellor's prize for the best doctoral scholar at the University of Nigeria, Nsukka, and the NMGS/NAPIMS Professor Richard Reyment Medal for excellent contributions in Sedimentary Geology. He has served on the editorial boards of the NAPE Bulletin and Nigerian Journal of Mining and Geology, and is presently a member of the editorial board of the Petroleum Training Journal. He has a three-sided professional career in the civil service, the academia and the Oil industry. He served in the Geological Survey of Nigeria where he worked as a field Geologist, ending up as Assistant Director responsible for staff training and publications. In this position, he facilitated the issue of several Bulletins, Occasional Papers and Records of the Geological Survey. While there, he doubled as a part-time lecturer in sedimentology at the Ahmadu Bello University, Zaria, University of Jos, and University of Nigeria, Nsukka, where he was later appointed an Adjunct Professor. He served the Anambra State Government as the Pioneer Managing Director of the State Environmental Protection Agency. He briefly returned to the Nigerian Geological Survey Agency, Abuja, as a UNDP-sponsored adviser on research and training to the Director General. His Oil industry career has been with the Shell Petroleum Development Company of Nigeria Limited, from where he retired as Head Stratigraphy. He is currently a Consultant to the company, engaged as a Professor of Geosciences in the Special Intensive Training Programme based in Warri. He has published over forty-five papers in learned journals in area of sedimentology, sequence stratigraphy, petroleum geology and environmental geology.
Victor Chike Adimora holds a Bachelor of Science degree in Geology from the University of Nigeria, Nsukka, plus over 28 years of rich and continuous career history with Shell in Nigeria and overseas. Most of his early and mid career years with Shell were spent in the sub-surface disciplines as Well Site Petroleum Engineer, Operations Petroleum Engineer, Development Geologist and Seismic Interpreter. As he moved into senior positions, he also developed broader competences in training and human resource/talent management as both Corporate Head of Technical Training and Regional Skills/Discipline Manager for geosciences and Petroleum Engineering of Shell E&P Africa.With strong competences in petroleum geosciences, petroleum engineering, well engineering and human resources disciplines, Victor built a formidable experience through the numerous projects he executed as he rose to leadership levels in his career. After leaving Shell in 2008, he started his own business and consults for numerous E&P companies. He currently runs Hobel Consulting (a division of Hobel Distributing & Consulting Inc. based in Langley BC, Canada). He is a member of the Association of Professional Engineers and Geoscientists of BC (APEGBC), the Society of Petroleum Engineers (SPE), Nigerian Association of Petroleum Explorationists (NAPE); International Society of Performance Improvement (ISPI).
Victor Chike Adimora
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Prof. Lee J.Suttner
Prof. Lee J. Suttner is the Robert Shrock Emeritus Professor of sedimentary Geology at Indiana he also served as Associate Dean of the College of Arts and Sciences, Department Chair, and Director of the Geologic Field Station. He has received AAPG's Outstanding Educator Award, the Neil Minor Award from the National Association of Geosciences Teachers, and Indiana University's President's Award for Outstanding Teaching, all largely to recognize his over 35 years of teaching at the Geologic Field Station. His research focuses on tectonic and climatic controls on sedimentary basin fills in the central and northern Rocky Mountains.
University, where
EXPLORATION & PRODUCTION TRAINING SCHEDULE
Fresh GraduatesGeoscientists, PhysicistsGeologists, EngineersYoung ProfessionalsOil and Gas Industry
for
andin the
COURSE CONTENTvExposure to Oil and Gas Industry Based Software
vBasic Seismic Structural InterpretationvSequence Stratigraphy Techniques
vPetrophysics
TRAINING DATES
Q1January 21- 25 2013February 11 - 15 2013March 25 - 29 2013April 8 - 12 2013April 22 - 26 2013
Q2May 20 - 24 2013June 24 - 28 2013July 15 -19 2013August 5 - 9 2013August 26 - 30 2013
Q3September 23 - 27 2013October 7 - 11 2013October 21 - 25, 2013November 4 - 8 2013November 25 - 29 2013
Venue: Training Room, Danvic Concepts International Nigeria Limited No 29, Block 46, Adetoro Adelaja Street, Off Emmanuel Keshi,
Magodo GRA Phase 2, Shangisha, Lagos, Nigeria
For Further Enquiries, Please ContactEmmanuel: 08064555488
Tobi: 07067582077Flora: 08038166168Hotline: 01-8510870
Des
igne
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ic 5
9 Lt
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8023
0504
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Exploration & Production Knowledge Company
Danvic Concepts International Nigeria LimitedNo 29, Block 46, Adetoro Adelaja Street off Emmanuel Keshi
Magodo GRA Phase 2, Shangisha, Lagos, Nigeria.Telephone: 01-8510870 D/L: +234(0) 803.326.4519
E-mail: [email protected]; [email protected]
