PETROPHYSICS Pty Ltd - All Petrophysics Training & Courses

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Petrophysics Training
Petrophysics Courses
Petrophysics Consultant
PETROPHYSICS Pty LTD
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IPQL INTEGRATED PETROPHYSICS QUICK LOOK
TECHNIQUES

• This course walks through how to perform a Quick
  Look Log Analysis integrated with common non-log
  and special log data. The process is easy to
  understand and performed real-time following
  established petrophysical principles but within
  an operations quick look setting. The course
  uses simple, multi-disciplinary techniques to
  quickly cross check and verify petrophysical
  results on-the-fly for more objective, fact based
  operational decisions. Log based field
  development studies can also be checked and
  verified by these quick look techniques.
• The diversity of inputs used affords a degree of
  confidence simply not possible with conventional
  quick look analysis, moving you into an
  environment of certainty, confidence and
  leadership which benefits everyone downstream of
  the drill bit.

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IPRC INTEGRATED PETROPHYSICS FOR RESERVOIR
CHARACTERISATION

• This petrophysics training will teach you how to
  evaluate reservoirs and quickly identify flawed
  results. Robust reserves and simulation are
  achieved by the logical, systematic integration
  of all relevant data. A quality interpretation is
  extremely cost-effective compared with data
  acquisition or development mistakes and essential
  with todays complex reservoirs and data sets.
  Integration will often replace the need to run
  expensive, irrelevant logs, explain apparent data
  conflicts and provide the correct answer faster,
  strengthening your position as an operator. By
  contrast, stand-alone log analysis often results
  in wrong decisions and will weaken your technical
  position in the eyes of your partners. This
  course, evolved over 25 years of petrophysical
  consulting and lectures, demonstrates how robust
  answers are achieved by the logical integration
  of diverse data. Pay and reserves are addressed
  first by Quick Look Log Analysis and then by a
  disciplined, logical process to optimize the
  interpretation of Porosity, Saturation,
  Permeability and Fluid Contacts the basis of
  Reserves. Low Contrast Pay, clastics and
  carbonates are evaluated by straight forward
  integration techniques which outperform log
  analysis with direct, plain to see results. The
  integration of LWD, Wireline, Facies, Rock Types,
  SCAL, NMR, Dielectric, MDTs etc is explained via
  the authors PetroDB-WEB software. Finally, the
  crucial Petrophysics to Geomodel checks are
  clearly set out.

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IPCFR INTEGRATED PETROPHYSICS FOR CARBONATE AND
FRACTURED RESERVOIRS A ROADMAP

• This petrophysics courses presents the Complete
  Carbonate Fracture Evaluation Recipe, from
  Quick Look log analysis to full Core-Log-Test
  integration. The course presents a systematic
  plan of action for the acquisition and
  integration of carbonate petrophysical data,
  highlighting the problems and explaining
  solutions. Data is placed in the data-flow
  diagram, from drilling and LWD to well tests and
  the latest hi-tech logs, to form a recipe which
  provides a definitive set of results and secure
  basis for decisions a template for evaluating
  complex reservoirs. The course explains how the
  physical characteristics of Carbonates tight,
  fractured, vuggy or permeable present log
  analysis Failure Points. How to Drill, Core,
  Log, Test and evaluate specifically to address
  these failure points is explained via a condensed
  learning session of interleaved theory,
  PetroDB-WEB IP demos, workshops and movies.
  Drilling data, core, SCAL, logs, LithoScanner,
  NMR, Dielectric, Sigma, Acoustic, Image-logs and
  MDTs are all briefly explained and fitted
  together to form the definitive solution for any
  given data set. The courses powerful Excel
  Petrophysical Toolbox includes all Workshops, Sw
  cap.pressn calibration, a vuggy Carbonate QL LAS
  evaluator, 100 Eqns, PetroDB-WEB extracts, QL
  Sigma, HPV Sensitivities and calculators for
  Fracture Probability and Fracture Ø HPV.

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IPPETRODB INTEGRATED PETROPHYSICS WITH PETRODB

• IPPetroDB explains and demonstrates the use of
  PetroDB with the Interactive Petrophysics
  evaluation app and its web implementation. The
  app is linked to a 30,000 core plug petrophysical
  database, PetroDB and its functionality is
  invoked using using Reservoir Types and Reservoir
  Rock Types. The course serves as an introduction
  on how to do a thorough, modern petrophysical
  evaluation systematically and on how to use the
  PetroDB-WEB service.
• Logs are interactively calibrated to rock-typed
  hard data to create a uniquely powerful formation
  evaluation tool. Calibration is performed via an
  18 parameter diagnostic, interactive plot which
  selects PetroDB rock-typed equations and
  parameters. PetroDB integration can also be
  performed externally in Excel for ad-hoc
  calibrations. The objective here is to increase
  flexibility and allow the integration of one-off
  exotic non-log data with logs, quantitatively. To
  use all data to calibrate, guide and train logs
  as appropriate and bring these exotic data to
  bear on the evaluation as appropriate.
• If data exists but fails to be involved in
  calculations it has little or no impact.
• PetroDB-WEB is being developed as a web based
  app.
• PetroDB consists of a 30,000 rock-typed, routine
  core plugs, SCAL, formation pressures and well
  tests. These have been intelligently
  cross-referenced to basic geological information,
  conventional logs and modern special logs over 25
  years 60 detailed reservoir technical studies.
  The power of this petrophysical database is
  captured during petrophysical evaluation by its
  interface with PETROPHYSICSs proprietary user
  app The Vault. The app uses over 200 equations
  calibrated with Reservoir and Rock Type specific
  relationships extracted from PetroDB. In-out
  switchable modules use the PetroDB data which
  meet selection criteria to calibrate that wells
  available special logs including NMR, ADT, SSCAN
  and inverted log analysis equation parameters to
  address each reservoirs specific issues.

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IPUR INTEGRATED PETROPHYSICS FOR UNCONVENTIONAL
RESERVOIRS

• This petrophysics training will teach you how to
  acquire and evaluate the critical data for each
  major unconventional reservoir type and to judge
  if petrophysical results are fit for purpose.
  The course outlines the geological, engineering
  and petrophysical characteristics and challenges
  of each unconventional reservoir type including
  Shale Gas, Oil Shale (LTO), Tight Gas, Coal Bed
  Methane, Geothermal, CO2 Sequestration and
  Methane Hydrates. Armed with this knowledge the
  petrophysical data sets and integration
  techniques required to estimate reserves and
  producibility are explained. The course covers
  Quick Look to full mainstream integrated methods
  including how to recognise and avoid the common
  problems of petrophysical interpretation in
  unconventional reservoirs. Examples of the
  common log analysis failings and the detailed,
  specific procedures designed to avoid them are
  explained simply and clearly. Time is allocated
  in proportion to the global activity and class
  demand.

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REP RENEWABLE ENERGY PRIMER

• Renewable Energy is abundant and all around us.
  It is energy storage and distribution which limit
  its use. This 3 day forward looking course
  reviews, compares and contrasts all major
  renewable energy types. Each types contribution,
  setting, technology, emerging technologies,
  limitations, environmental impact, undesirables
  and economics (startup costs, running costs and
  payout times) are compared with a typical
  Liquefied Natural Gas (LNG) project, one liter of
  diesel and an investors viability check box. The
  course also investigates current and emerging
  technologies in the critical areas of Energy
  storage (energy density, kwh/, kwh/kg,
  batteries, fuel cells) hydro and Energy
  Distribution (central, local, off-the-grid).
  Energy trend drivers, global imperatives and
  conservative future scenarios are presented.
• The course presents an exciting, forward looking,
  fact-packed review of the increasingly diverse
  energy landscape evolving on our planet today,
  from a seasoned energy consultant, educator and
  investor. Myriad key facts are presented in the
  context of what they mean for the future,
  highlighting the technological and financial
  choke points that typically stymie renewable
  energy projects.

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IPLAM-LR INTEGRATED PETROPHYSICS FOR LAMINATED
AND LOW RESISITIVITY RESERVOIRS

• Shaly Sands, Laminates and Low Resistivity Low
  Contrast Pay reservoirs are and always been the
  primary problem with log analysis. This course
  separates and characterises these three
  overlapping Reservoir Types and sets out the data
  sets and petrophysical integration to best
  identify and evaluate each reservoir type
  accurately. Like all the authors Integrated
  Petrophysics.. courses this course steps through
  a logical process to identify cheap, powerful and
  commonly available data which is useful to the
  evaluation. It sets out the essential routine and
  contingent special logs and core data to arrive
  at fit-for-purpose results. Shaly Sands (SS),
  Laminates (LAM) and Low Resistivity Low Contrast
  (LRLC) pay reservoirs are defined, delineated and
  treated separately or together, as each
  petrophysical method demands. All modern logs
  including NMR, Dielectric, Spectral GR and Image
  logs are covered, together with established and
  novel core data integration techniques. Quick
  Look evaluation is included and demonstrated
  using real-time Interactive Petrophysics demos.
  Numerous Micro-practicals, videos and open
  discussion sessions keep this class a memorable
  learning experience!

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IPSCAL INTEGRATED PETROPHYSICS HOW TO USE
SPECIAL CORE ANALYSIS WITH MODERN LOGS

• This course does more than calibrate your density
  log with core grain density and porosity. It
  starts with conventional core analysis laboratory
  procedures and the essential core-log integration
  techniques necessary to create compatible data
  sets required for special core analysis (SCAL)
  integration. It then describes lab SCAL
  procedures for static and dynamic geo-models
  logically, in sequence, integrating SCAL results
  with powerful, modern logs to show how key
  reservoir parameters are better quantified with
  SCAL integration. NMR, Dielectric, Cross Dipole
  sonic, 3D resistivity, Lithoscanner and MDT are
  some of the logs whose output is cross-calibrated
  and welded into the fabric of a true, modern,
  integrated petrophysical evaluation. These
  evaluations are robust, over-determined and
  grounded in routine and special core analysis.
  Integration techniques are explained in terms of
  the question being asked, the physical basis of
  the core-log data being used and the steps
  necessary to quantitatively integrate the
  relevant SCAL with the logs and geo-models. Like
  the authors other Integrated Petrophysics
  courses a logical, systematic structure is
  followed which enhances understanding of the
  where, why and how of modern core-log
  integration.
• Core-Log integration has been the central topic
  of the authors Imperial College Ph.D. and 30
  years of consulting, reading and lecturing on
  core-log integration. It is also the central
  purpose of the PetroDB-WEB software, which
  expands essential core-log integration to SCAL
  and modern logging tools.

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PARALLEL PETROPHYSICAL TRAINING

• PETROPHYSICS Pty Ltd conducts parallel or remote,
  documented petrophysical training concurrently
  with technical consulting. Up to 4 staff engage
  in a daily critique session of PPLs work and
  perform a cut-down version of the same tasks the
  next day. Their progress is documented and signed
  off, building competency towards a complete
  integrated petrophysical field study with all
  stages undergoing rigorous cross-examination and
  debate. This process produces diligently
  executed, robust studies as well as providing
  unbeatably cost-effective, hands-on training,
  within the real-world framework of an operating
  energy company.

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