Engineering&Simulation Page 112

Deliver the best productivity from your completion with the optimal gun system and charges specified by SPAN Rock stressed-rock perforating analysis. This simple yet comprehensive modeling guides the user down a logical path for perforation design and the prediction of well productivity. Input parameters include casing, cement, and rock properties; wellbore geometry (orientation and accommodating up to five concentric casing strings); and completion fluid characteristics. These are matched with performance and positioning data for the gun system and charge to predict perforating performance. Skin can be analyzed solely as perforation skin or as the total skin effect. Although API RP 19B Section 1 data is useful for determining perforating system performance as a comparative tool, it does not accurately represent...

Plate\’n\’Sheet Professional Version 4 Feature List. Overview.Drawing from feedback received from our clients over the duration of Version 3, we have made major changes to Version 4 to provide more shapes and more options within the shapes and more additional features to make your job easily. \’Ease of use\’ is our guiding principle. In Version 4 we believe we have been able to provide many additional features while maintaining the program\’s original simplicity for the basic user. More shapesIn addition to Pipe to Pipe and Pipe to Cone, branches now include Cone to Cone, Cone to Oblique Cone, Cone to Pipe, Pipe to Oblique Cone, Rectangle to Cone, and many more. Multiple branches, with up to four pipes converging on...

Isatis® is Geovariances’ leading-edge geostatistical software solution. It has been designed to offer the sound technology you need to get the expected level of confidence in your estimates whilst quantifying the associated risk.Isatis is the ideal companion software product to go further with advanced and sound geostatistics. This is why it offers powerful integrative capacities by providing numerous import and export interfaces with other vendors\’ packages, including Arcview, Datamine, Gslib, Irap Classic, RML, Vulcan, Z-Map Plus. Besides, major software vendors dealing in the mining or petroleum exploration industry have recognized the importance of advanced geostatistics to go further in earth modeling and resource evaluation. This is why they offer direct links with Isatis in their resource modeling software packages.Import: ASCII,...

OFM well and reservoir analysis software offers advanced production surveillance views and powerful production forecasting tools to manage and improve oil and gas field performance throughout the entire life cycle. OFM software allows you view, relate, and analyze reservoir and production data with comprehensive workflow tools, such as interactive base maps with production trends, bubble plots, diagnostic plots, decline curve analysis, and type curve analysis. Recent architectural changes and usability improvements further enable your engineers and organization to be more productive. The OFM application allows you to connect to your data quickly, wherever it may be located—spreadsheets, databases, or other repositories. It also acts as a single point of analysis for reservoir and production engineers to collaborate and manage more...

OFM well and reservoir analysis software offers advanced production surveillance views and powerful production forecasting tools to manage and improve oil and gas field performance throughout the entire life cycle. OFM software allows you view, relate, and analyze reservoir and production data with comprehensive workflow tools, such as interactive base maps with production trends, bubble plots, diagnostic plots, decline curve analysis, and type curve analysis. Recent architectural changes and usability improvements further enable your engineers and organization to be more productive. The OFM application allows you to connect to your data quickly, wherever it may be located—spreadsheets, databases, or other repositories. It also acts as a single point of analysis for reservoir and production engineers to collaborate and manage more...

Processing Modflow 8.036 Processing ModflowTM (PMWIN) is a comprehensive integrated groundwater modeling system that is used by many organizations, such as research institutions, consulting firms, agencies, and entities of the United Nations. Processing Modflow 8 succeeds Processing Modflow Pro (7.x) and includes the following components. Intuitive graphical user interface to greatly simplify and clarify data input and result visualization processes that work with result files of practically unlimited file size (way greater than 2 GB). 3D finite-difference groundwater model MODFLOW. Supports multiple versions, including MODFLOW-96, MODFLOW-2000, MODFLOW-2005, and MODFLOW-NWT. Solute transport models MT3DMS (v5.3), MT3D, RT3D (v2.5), and MT3D99 (MT3D99 is sold separately by SSP&A.) Multicomponent reactive transport model PHT3D ( v2.17) that incorporates MT3DMS (v5.3) for the simulation of...

FORGAS Reliable Integrated Gas and Oil Field PlanningFORGAS has proven to be a reliable and efficient solution to model some of the largest gas fields in the world. It is used to evaluate compression options, to determine drilling schedules, to quantify backout or field constraints, to evaluate gathering system modifications, and to investigate infilldrilling and competitive drainage options. Model, Optimize, Forecast Field Development Scheduling Reservoir to Sales Line Flow Assurance Acid Gas Disposal Gas Storage Hydrates Production Optimization CO2 Sequestration FORGAS allows the seamless modelling of reservoirs, wellbores, pipelines, and facilities in one interface for field forecasting and development scheduling. Combining the best in multiphase flow and PVT behaviour technology, FORGAS resolves simple and, more importantly, large and complex networks...

Surface Line Facility A Surface Line facility has been added to WELLFLO. The Surface Line facility will allow the users to add a Surface Line of up to 1 mile at the Wellhead.  This Surface Line facility allows for elevation, diameter and roughness changes.  However, it only supports a user specified fluid temperature profile for the Surface Line regardless of whether temperature calculations are done for the well.  The Surface Line facility can be added to the Wellhead Facilities under the following conditions: 1. The Well Direction is set to Production. 2. The Parametric option is NOT enabled. 3. The case does NOT have a Surface Line already added.  Only one Surface Line is allowed to be added per case.  The Surface Line facility has three tabs, a Profile, a Dimensions and a Stream Tab.          On the Profile tab, the user can specify the label for the Surface Line, the Elevation Profile (in terms of Distance and Elevation), and the Fluid Temperature at each elevation point.   On the Dimensions tab, the user can enter Diameter and Roughness information, including any changes along the length of the elevation profile.   Page 4of 6WELLFLO 8.3 Release Notes          On the Stream tab, the user can specify the pressure at the downstream end of the Surface Line, as long as the pressure is not already specified at the wellhead or bottomhole.   This new feature offers users the flexibility to create much more accurate models of their wells; including the interaction of the well with near wellhead surface piping. WELLFLO – Drillbench Data Sharing WELLFLO now was the capability to share well geometry information with Drillbench using the “Import From Drillbench” and “Export to Drillbench” functions found in the File Menu.  Page 5of 6WELLFLO 8.3 Release Notes The geometry information that is currently shared includes: 1) Drilling Profile information including: a. Vertical profile b. 2D profile c. 2D (KOP) profile d. 2D (TVD vs MD) profile e. 3D (XYZ) profile f. 3D (Min Curvature) profile. 2) Production Casing geometry. 3) External Casing geometry. 4) Tubing geometry.  When the user chooses to export data from WELLFLO to Drillbench, the standard “Save” dialog will appear.  The user can then select to either save the WELLFLO geometry information to an existing Drillbench (DML) file, or store it to a new file.  If saving to an existing DML file, only the drilling profile and tubular geometry information will be overwritten.  After the user has selected the DML file to export to, WELLFLO will export the geometry information, and then provide a status message. Similarly, when the user chooses to Import data from Drillbench into WELLFLO, the standard Open File Dialog will appear.  The user can Select the Drillbench file to import from, and WELLFLO will load the Drilling Profile and well geometry data.  If WELLFLO detects an overlap or disconnect between drill string sections or casing sections that is not supported by the software, the user will see an error message. It is expected that this import/export process will allow a much more streamlined workflow for clients who are using both WELLFLO and Drillbench for the simulation of their steady‐state and dynamic drilling operations.  Future releases of WELLFLO will include extensions of this feature to include other types of data used in the flow modelling of drilling operations. FlexLM‐based Licensing OptionProduct:neotec wellflo v8.30 Lanaguage:english Platform:WIN32&WIN64 Size:1CD

Surface Line Facility A Surface Line facility has been added to WELLFLO. The Surface Line facility will allow the users to add a Surface Line of up to 1 mile at the Wellhead.  This Surface Line facility allows for elevation, diameter and roughness changes.  However, it only supports a user specified fluid temperature profile for the Surface Line regardless of whether temperature calculations are done for the well.  The Surface Line facility can be added to the Wellhead Facilities under the following conditions: 1. The Well Direction is set to Production. 2. The Parametric option is NOT enabled. 3. The case does NOT have a Surface Line already added.  Only one Surface Line is allowed to be added per case.  The Surface Line facility has three tabs, a Profile, a Dimensions and a Stream Tab.          On the Profile tab, the user can specify the label for the Surface Line, the Elevation Profile (in terms of Distance and Elevation), and the Fluid Temperature at each elevation point.   On the Dimensions tab, the user can enter Diameter and Roughness information, including any changes along the length of the elevation profile.   Page 4of 6WELLFLO 8.3 Release Notes          On the Stream tab, the user can specify the pressure at the downstream end of the Surface Line, as long as the pressure is not already specified at the wellhead or bottomhole.   This new feature offers users the flexibility to create much more accurate models of their wells; including the interaction of the well with near wellhead surface piping. WELLFLO – Drillbench Data Sharing WELLFLO now was the capability to share well geometry information with Drillbench using the “Import From Drillbench” and “Export to Drillbench” functions found in the File Menu.  Page 5of 6WELLFLO 8.3 Release Notes The geometry information that is currently shared includes: 1) Drilling Profile information including: a. Vertical profile b. 2D profile c. 2D (KOP) profile d. 2D (TVD vs MD) profile e. 3D (XYZ) profile f. 3D (Min Curvature) profile. 2) Production Casing geometry. 3) External Casing geometry. 4) Tubing geometry.  When the user chooses to export data from WELLFLO to Drillbench, the standard “Save” dialog will appear.  The user can then select to either save the WELLFLO geometry information to an existing Drillbench (DML) file, or store it to a new file.  If saving to an existing DML file, only the drilling profile and tubular geometry information will be overwritten.  After the user has selected the DML file to export to, WELLFLO will export the geometry information, and then provide a status message. Similarly, when the user chooses to Import data from Drillbench into WELLFLO, the standard Open File Dialog will appear.  The user can Select the Drillbench file to import from, and WELLFLO will load the Drilling Profile and well geometry data.  If WELLFLO detects an overlap or disconnect between drill string sections or casing sections that is not supported by the software, the user will see an error message. It is expected that this import/export process will allow a much more streamlined workflow for clients who are using both WELLFLO and Drillbench for the simulation of their steady‐state and dynamic drilling operations.  Future releases of WELLFLO will include extensions of this feature to include other types of data used in the flow modelling of drilling operations. FlexLM‐based Licensing OptionProduct:neotec wellflo v8.30 Lanaguage:english Platform:WIN32&WIN64 Size:1CD

The automatic gridding of a well with any trajectory has been the most challenging numerical development for KAPPA to date. Developing a numerical model for a simple slanted well was already a challenge. Naturally, analytical well index calculations are easy to implement, but this works for coarse grids only and with commensurate large time steps. It also means the characteristics around the well, particularly in the vertical direction, bring little value. However, if one wants to model the shut-in for such a well, with logarithmic time sampling, it is necessary to create a series of grids that will handle the very early time radial or elliptical flow towards the wellbore, the vertical diffusion when the well is of limited entry,...