2Drill - SOFTWARE FOR DRILLING OPERATIONS DESIGN

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About program

Modules

Digital Platform

Well construction design
and monitoring 2Drill

New comprehensive solution that combines advanced calculation methods with the requirements of the modern oil and gas industry

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Compliance with GOST standards and international standards

All methods are documented
and have passed expert validation
(certificate No. ROSS RU.04PLK0.OS01.N00027)

License is cheaper than imported analogues

increased
accuracy

+19%

With 2Drill, you can

Get the best results in your work

Preparation of calculations
and documentation for drilling operations

Comparative analysis of the plan/fact

Applicable for work on land, offshore sea

More convenience for the user

Current mathematical models

Seamless import of project databases from existing analogues

High speed of complex engineering calculations

Technical support
for users

Availability of a certificate of conformity

Support for domestic operating systems

Certificate No.ROSS RU.04PLK0.OS01.N00027

What makes 2Drill special

Trajectory design

12 standard forward trajectory design templates
4 reverse design templates, including target-oriented design
Actual vs. planned deviation analysis
Forecast generation from a selected actual trajectory point to the planned trajectory

Template and Target Point Editor
Point value search with data export capability

Editing Tools

Data exchange

Import/export in standard formats
Integration with external systems

4 annotation types with different visual indicators
Display of marked points in tables and on plots
Value search across all available intervals with the option to select a specific point

Annotations

Geodetic calculations

Built-in geodetic calculator
Wellbore coordinate referencing
Support for 4 coordinate systems

Technical features

2D/3D visualization support
Offset well trajectory consideration
Flexible chart visualization area configuration
Ruler tool for 2D graphs

Collision risk analysis

3D analysis (Minimum Separation Method)
The perpendicular method (Travelling cylinder)
Planar analysis (Horizontal plane)

Distance evaluation methods

Output data

Tabular collision risk reports
Graphical visualization of risk zones
Ranking of high-risk intervals

Uncertainty ellipsoid calculation

Implementation of the ISCWSA standard
2D/3D visualization of uncertainty ellipsoids

Proximity coefficient algorithms

Pedal Curve
Vector analysis (directional coefficient)

Multi-level validation of results
Cross-validation using different calculation methods
Export of a detailed collision risk analysis report for each calculated well

Quality control

Tool database

Standard set of survey tools
Upload of custom tools in IPM format

Coordinate system and geomagnetic models

Coordinate systems

Supported models:

Data input via geographical, cartographic, local, and polar coordinates
Option to add client-specific local coordinate systems*

— WGS 1984
— Pulkovo 1942
— Pulkovo 1995
— GSK-2011

8 pre-installed models, including:

Support for Russian geomagnetic models (test mode)

— WMM2025 (valid until 2029)
— WMMHR2025 (high—precision)
— IGRF 14 (valid until 2030)

Geomagnetic models

Calculation functions

Determination of geomagnetic field parameters:

Automatic transformation between coordinate systems

– Dates
– Geographic coordinates

Reference to specific:

– Declination
– Inclination
– Field strength

Casing design and assembly module

Integrated visualization

Combined visualization of:

Comprehensive assembly report generation

— Well designs
— Assemblies/ BHA configurations
— Layered data representation

Automated calculations

Automatic generation of dependent parameters
Consideration of formation conditions (within a dedicated module): pressure, temperature, cavernosity
Column centering analysis
Magnetic interference calculation from assembly
Bending Strength Ratio (BSR) calculation

Unlimited number of:

— Liners
— Combined casing strings
— Marine risers
— Multilateral (fishbone) wells

Complex designs:

– Technical sections
– Assembly options

Configuration flexibility

Regulatory framework

Built-in catalogs of standard components, materials, grades
Creating custom catalogs
Data import and export

Working tools

– Automatic validation
– Hyperlinks to errors

Cloning existing solutions
Batch parameter editing
Context-sensitive data validation:

Accountig for offshore drilling conditions

Configuration of drilling systems

Support for major rig types:

– Jack-up rigs
– Semi-submersible rigs

– Semi-submersible offset from wellhead
– Angular deviations

Calculation adjustments for:

Operational features

Special modes

Riserless drilling
Booster pump operations

Torque and drag analysis

Methodological framework

Implementation of two calculation models soft string, stiff string
Stress and torque calculations on a single depth multi-depth analysis

– Multiple flow rates
– Variable friction coefficients

Calculation options with mud circulation, without circulation
Parameterization:

Consideration of external factors

– Conventional method
– Float technology

String behavior analysis buckling, ultimate load conditions
String running analysis:

Special calculations

Operating modes

Standard drilling operations:

– Trip in / Trip out
– Rotation on bottom / off-bottom
– Slide drilling
– Back reaming
– User-defined scenario

Analysis results

Weight and tension
Torques
Axial stress
Fatigue factor
Drill string clearance
Summary table for string analysis

Hydraulic calculations

Calculation options with mud circulation, without circulation
Parameterization:

– Multiple flow rates
– Variable friction coefficients

Variable parameters

Basic calculation functions

Pressure profiles inside the string and in the annulus
Hole cleaning analysis:

– Flow transport capacity
– Critical cuttings transport velocity
– Hole cleaning index

Bit hydraulic horsepower calculation

Adaptation for offshore drilling

– Water depth
– Riser systems
– Jack-up / Semi-submersible specifics

Integration with the temperature module

Special features

Impact on rheology:

– Temperature gradient
– Hydrostatic pressure
– Dynamic loads

– Assembly rotation
– Offshore drilling conditions
– Booster pump operations

Special modes:

Complex factor consideration

Results and analytics

Graphs and distribution tables:

– Pressures
– Velocity
– Rheological parameters
– Equivalent Circulating Density (ECD)
– Wellbore cleaning performance

Casing design calculations

Standards compliance

API
Corporate requirements (Schlumberger, Halliburton)
RD “Instruction for Casing Design for Oil and Gas Wells” (VNIIneft JSC)

Excess pressure vs. depth plots
Interactive casing schematic with annular fluid levels
Axial loads plots
Load ellipse

Visualization

Drilling and production scenarios
Calculations for all casing types:

— Intermediate
— Liner
— Production

Comprehensive load analysis

Limit state analysis

Burst (10 loading profiles + 3 external pressure options)
Collapse (7 scenarios + 4 external pressure options)
Axial loads (5 scenarios + calculations of operational loads)
Three-axial stress analysis

Consideration of external factors

Geological data including permeable zones and creeping formations
Production data and perforation depth
Pressure testing and applied tensile loads during WOC

Swabbing and surging calculations

Module functionality

Bottomhole and string pressure modeling during tripping operations considering swab and surge effects
Determination of safe tripping parameters based on pressure limits

Cuttings consideration
Modeling with circulation
Safety margin definition for pore and fracture pressures
Input of acceleration, deceleration, and running speed parameters

Calculation capabilities

Calculated outputs

Graphs and tables of:

– Pressures
– Velocity
– ECD

Jar analysis

Special features

Determination of optimal jar position
Verification of installation feasibility based on defined criteria
Analysis of optimal HWDP/collars/DP quantity above the jar
Modeling of all jar types

Multi and single depth tension and torque calculations
Activation calculation considering differential pressure and buckling
Impact efficiency calculation (impact force and impulse)

Results and analytics

Tendency analysis

Variable parameters

Modeling under rotary and slide modes
Consideration of downhole motors and deflecting tools
Bit anisotropy coefficient and formation strength

Departure plots (top view and side view)
Inclination, azimuth, build/drop rates, and DLS
Side force prediction
BHA deviation calculation (up/down and left/right)

Visualization

Combined drilling mode scenarios (rotary + slide intervals)
Automatic anisotropy coefficient calculation based on drilled intervals

Factor consideration

Data quality control

Regulatory compliance

Implementation of GOST R 57122-2016 requirements:

– Interactive integration between trajectory
design, BHA design, well construction, and
calculation modules

Automated generation of:

– Direct link to error fields
– Visual error highlighting

Context navigation:

– Hierarchical error list
– Detailed explanations
– Correction recommendations

Error handling

Project data validation

Multi-level control:

Intelligent analysis:

Visual error highlighting within the interface

– Context-based validation
– Cross-module verification

– Physical inconsistencies
– Technological constraints

Reporting generation

Generated report types

Survey data
Ellipses of uncertainty
Collision risk analysis
Assembly report
Mechanical and hydraulic engineering calculation results

Customizable reports:

– Selection of tables and plots
– Selection of columns displayed in tables

Saving report templates within the Documents module
Import of external files into the project*

Functional features

PDF:

– Corporate branding preservation
– Automatic cover page generation

XLSX:

– Structured tables
– Chart export

DOCX:

– Supported for assembly reports only

Export formats

Reducing project preparation time

Quick master-project "from trajectory to report" and batch document generation (DOCX*, XLSX, PDF) save time on creating a standard project
and completing documentation

Stiff model of column behavior, thermal effects impact on rheology, three-axis analysis of casing columns. High speed of complex engineering calculations

Actual physical and mathematical models

Ready-made templates and data validation with required corrections highlighted

Prepared templates for trajectory planning, automatic data validation and interactive recommendations significantly reduce
the likelihood of errors (human factor)

Flexible configuration of the interface and visualization tools (2D/3D), saving of user settings, fast data upload for preparation of accounting documentation. Software adaptation to corporate standards: security coefficients, report formats and other parameters

Intuitive interface and visualization

Unified workspace

Trajectory, calculation of collision risks, construction design and assemblies, mechanical and hydraulic calculations, calculation of casing stress, and so on — all in a single workspace without the need for unnecessary switching between work windows by

The ability to import databases from the most common foreign and domestic analogues, without loss. "Seamless" transition to using 2Drill software

Using an existing database

Compliance with GOST standards and international standards

Все методики задокументированы и прошли экспертную валидацию (сертификат №РОСС RU.04ПЛК0.ОС01.Н00027)

Live development – quarterly update of software modules and functionality. Presentations, technical support, a training program for new users and advanced training for MIPT specialists

Regular updates, a full cycle
of specialist training

Minimum technical requirements

• 4-core CPU
• 8 GB OF RAM
• 10 GB of disk space

Fully domestic software – eliminates the risks associated with currency payments and sanctions restrictions. The product is included in the registry of domestic software, domestic operating systems (Astra Linux, RED OS) support. Contains a database of Russian equipment

100 % import substitution

Technological advantages

Economic effect

License options: perpetual, annual subscription, or one-time “per well” rental.
Custom feature development tailored to specific client requirements is available under separate terms

Flexible licensing model

License cost 2–3 times lower
than foreign analogues

The greater the number of user licenses supported by the software, the higher the economic benefit when comparing the cost of 2Drill with imported alternatives

Improved calculation accuracy and data validation help proactively identify potential drilling complications (stuck pipe, lost circulation, overloads, etc.) and optimize drilling parameters to minimize associated risks

Reduced likelihood of kicks
and well control incidents