Petrel 2024 Schlumberger Petrel 2024.1 FULL CRACK license download

Schlumberger Petrel Software

Schlumberger Petrel is an industry-leading software platform used in the oil and gas sector for integrated reservoir modeling, simulation, and management. It provides a comprehensive suite of tools that allow geoscientists, reservoir engineers, and drilling experts to collaborate effectively throughout the entire E&P (Exploration and Production) lifecycle. Petrel is part of the DELFI Cognitive E&P Environment , Schlumberger’s digital ecosystem that leverages artificial intelligence, machine learning, and cloud computing to optimize workflows.

Petrel enables multidisciplinary teams to work together seamlessly, integrating geological, geophysical, petrophysical, and engineering data into a single shared earth model. This collaborative approach helps improve decision-making, reduce uncertainties, and enhance hydrocarbon recovery.

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Key Features of Schlumberger Petrel:

1. Integrated Reservoir Modeling

• Petrel integrates various disciplines—geology, geophysics, reservoir engineering, and production engineering—into a unified platform.
• Allows users to create detailed static and dynamic reservoir models by combining seismic data, well logs, core data, and production history.

2. Seismic Interpretation

• Advanced seismic interpretation tools for analyzing subsurface structures, faults, horizons, and stratigraphy.
• Includes attributes analysis, volume rendering, and fault extraction capabilities.
• Supports both 2D and 3D seismic data visualization.

3. Geological Modeling

• Facilitates the creation of high-resolution geological models, including facies modeling, porosity-permeability distributions, and property population.
• Tools for structural modeling, stratigraphic grid construction, and upscaling.
• Handles complex geological features such as faults, pinch-outs, and unconformities.

4. Reservoir Simulation

• Interfaces with reservoir simulation software like ECLIPSE (Schlumberger’s simulator) and third-party simulators to run dynamic flow simulations.
• Enables history matching, forecasting, and optimization of field development plans.
• Provides visualizations of pressure, saturation, and fluid flow dynamics.

5. Petrophysical Analysis

• Integrates well log data for petrophysical evaluation, including lithology identification, porosity, permeability, and water saturation calculations.
• Supports multi-well correlation and cross-plotting for better understanding of reservoir properties.

6. Well Planning and Drilling Optimization

• Assists in designing optimal well trajectories based on geological and reservoir models.
• Incorporates anti-collision analysis and risk assessment during well planning.
• Links with drilling engineering applications to simulate and optimize drilling operations.

7. Uncertainty and Risk Analysis

• Provides probabilistic modeling and uncertainty quantification using stochastic methods.
• Monte Carlo simulations and sensitivity analyses help assess risks associated with reservoir performance predictions.

8. Collaboration and Data Management

• Built on the Studio E&P Knowledge Environment , Petrel ensures secure sharing of data and models across teams and organizations.
• Real-time collaboration capabilities within the DELFI environment enable global teams to work together efficiently.

9. Visualization and Reporting

• High-quality 3D visualization tools for presenting geological structures, reservoir properties, and simulation results.
• Customizable dashboards and reporting features for communicating findings to stakeholders.

10. Artificial Intelligence and Automation

• Leverages AI and machine learning algorithms to automate repetitive tasks, identify patterns in large datasets, and optimize workflows.
• Integration with the DELFI platform allows predictive analytics and cognitive computing to enhance decision-making.

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Applications of Petrel Software:

1. Exploration:
   • Identifying potential hydrocarbon prospects using seismic data and geological interpretations.
   • Evaluating basin-scale opportunities and assessing resource potential.
2. Field Development Planning:
   • Designing optimal well placement strategies to maximize recovery.
   • Simulating different development scenarios to determine the most cost-effective approach.
3. Reservoir Characterization:
   • Building detailed static models to understand reservoir heterogeneity and connectivity.
   • Generating inputs for dynamic simulation studies.
4. Production Optimization:
   • Monitoring reservoir performance and adjusting operational parameters to improve recovery rates.
   • Conducting history matching to calibrate models with actual production data.
5. Enhanced Oil Recovery (EOR):
   • Modeling secondary and tertiary recovery techniques such as water flooding, gas injection, and chemical EOR.
6. Carbon Capture, Utilization, and Storage (CCUS):
   • Supporting carbon storage projects by modeling CO2 injection and monitoring its migration in subsurface formations.
7. Decommissioning and Abandonment:
   • Assessing environmental impacts and planning safe decommissioning activities.

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System Requirements:

To run Petrel efficiently, especially for large-scale projects, the following system specifications are recommended:

• Operating System: Windows 10/11 (64-bit).
• Processor: Intel Xeon or AMD Ryzen processors with multiple cores (minimum 4 cores, 8+ recommended).
• RAM: Minimum 16 GB (32 GB or more recommended for large models).
• Graphics Card: NVIDIA Quadro or AMD Radeon Pro series with OpenGL support (minimum 4 GB VRAM).
• Storage: SSD with sufficient space for project files and databases (100 GB+ recommended).
• Display: Dual monitors with high resolution for enhanced productivity.

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Licensing Options:

Schlumberger offers flexible licensing options tailored to different user needs:

1. Single-User Licenses: For individual practitioners working on standalone projects.
2. Network Licenses: For organizations requiring concurrent access across multiple users.
3. Cloud-Based Access: Through the DELFI environment, enabling remote access and scalable computing resources.
4. Subscription Models: Pay-as-you-go or annual subscription plans for flexibility.

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Advantages of Using Petrel:

1. Interdisciplinary Collaboration:
   • Breaks down silos between geoscience and engineering teams by providing a unified platform for data integration and modeling.
2. Scalability:
   • Suitable for small-scale exploration projects as well as large, complex reservoir developments.
3. Advanced Visualization:
   • Cutting-edge 3D visualization tools provide clear insights into subsurface conditions and reservoir behavior.
4. Integration with Other Tools:
   • Seamlessly connects with other Schlumberger products (e.g., ECLIPSE, INTERSECT) and third-party software through open APIs.
5. AI and Automation:
   • Reduces manual effort and improves accuracy by leveraging AI-driven workflows and automated processes.

New features and enhancements in Petrel 2024

The following content contains descriptions of new features and behavioral changes in this release, organized by domain.

Geophysics

•         QI machine learning reservoir characterization: A new tool that uses machine learning (ML) to predict elastic and petrophysical properties (porosity, sand volume, and so on) from seismic angle stacks is now available. The ML model is trained on synthetic gathers created at input wells and can be optimized using several user parameters. QI ML reservoir characterization is available on the Quantitative Interpretation domain tab and requires a Quantitative Interpretation license.

•         Step intersection plane workstep: The new Step intersection plane workstep has been added to the Workflow editor to step to the next or previous intersection plane based on the plane step

increment in the Intersection player or the increment entered in the workstep. You can insert inline, crossline, time slice, or random intersections or enter a variable.

•         $Variable in the Frequency filter volume attribute: Fixed an issue where a $Variable entered in the Frequency filter volume attribute was lost after closing the process in the Workflow editor. Volume attributes, including the Frequency filter, now accept $Variables in the Workflow editor.

Geological interpretation

•         Simple filter in Make/edit surface: In the Make/edit surface dialog box, on the Pre proc tab, there is now a simple filter that will apply to the main input data before the algorithm is run. You can insert a single numerical value, choose an operator (=, >, <, >=, or <=), and then choose an option for filtering the data (Eliminated or Truncated). This filter only applies to the main input data. All other input data (well tops, conformal surfaces, additional inputs) are not filtered.

•         Eliminated: Undefines the input data based on the input parameter and operator.

•         Truncated: Redefines the input data based on the input parameter and inequality operator.

•         Closed polygon as input in the Well data browser: You can now insert wells that are in the bounds of a closed polygon by selecting the polygon in the Input pane then clicking insert   in the Well data browser. Alternatively, you can right-click the polygon and then click View in Well data browser.

Reservoir and production engineering

•         EDFM simulation for INTERSECT: You can now create Embedded Discrete Fracture Model (EDFM) simulation cases for INTERSECT by adding a Composite Discrete Fracture Network (CDFN) with associated fracture attributes and functions in the Define simulation case process. To use this feature, you must have INTERSECT 2024.1 or later and INTERSECT Connector 2024.1 or later must be active.

•         Looped networks in ENS for INTERSECT: You can now model and visualize the flows and pressures in a looped, non-dendritic network in ECLIPSE Network Simulator (ENS). To use this feature, you must have INTERSECT 2023.1 or later and INTERSECT Connector 2023.1 or later must be active.

•         Spycher and Pruess solubility model in thermal fluid models for INTERSECT: You can now define the mutual solubility of CO2 and H2O as a function of pressure, temperature, and the presence of various salts using the Spycher and Pruess option in thermal fluid models in the Make fluid model process for INTERSECT cases. To use this feature, you must have INTERSECT 2023.4 or later and INTERSECT Connector 2023.4 or later must be active.

Reservoir modeling

•         Export raw crossplot objects with three dimensions: Raw crossplot objects now support X, Y, Z dimensions when extracted from the Function window and when exported to disk.

•         Inspector support for histograms on crossplots: The controls for the visualization of histograms in the Function window are now available in the Inspector.

•         Color continuous histogram bins by discrete data: In the Histogram window, data bins of continuous data can now be colored based on the associated discrete data. This is supported for upscaled data and 3D properties.

•         Histogram window labels and coloring for discrete data: The bars of discrete histograms are now colored and labeled according to their templates.

•         Visualize and extract densities of crossplot data: The points in a Function window can now be colored based on the data density. Density maps can also be generated.

•         Update dip and azimuth definition to industry convention: In the Property modeling and Make/edit surface dialog boxes, the definition of dip has been changed to conform to industry convention. Positive dip values are defined as downwards from horizontal. All existing numeric dip/azimuth inputs from legacy projects are updated and no action is required to maintain the same results as in previous Petrel versions.

•         Fully automated petrophysical modeling as part of the end-to-end reservoir modeling process: On the Distribution tab in the Petrophysical modeling dialog box, you can now assign local or global variables for the Bivariate distribution method and the From crossplot distribution option. You can also use $variable for the Number of cut values value when using the From upscaled logs distribution option.

•         Saved search option in Scale up well logs process: Previously, when using the Saved search option in the Scale up well logs process, you could only insert a saved search. This is now more flexible and you can insert a combination of a single well, well folders, and saved searches from a reference list through a local or global reference variable.