TerrantaLab user interface in Jupyter Notebook – featuring simple workflows and an intuitive UI for rapid model building and fast, insightful result delivery.
Why Use TerrantaFlow?
- Geoscience-Focused
Built specifically for subsurface exploration, energy systems, and geochemical risk assessment.
- Scalable Performance
From high-resolution 2D cross-sections to full 3D models.
- Reactive Flow Simulation
Capture both equilibrium and kinetic reactions, including precipitation, dissolution, redox, and pH/eH changes.
- Customizable & Extensible
Import your own models or grids and integrate TerrantaFlow into existing simulation workflows.
- Modern, Cloud-Based Interface
- No installation needed
- Instant updates & access from anywhere
- Simplified workflows and built-in plotting
- Easy collaboration across teams
- Connected to TerrantaLab:
Easily incorporate detailed fluid and rock chemistry from TerrantaLab’s intuitive modeling environment.
TerrantaLab empowers you to simulate complex geochemistry with speed, precision, and flexibility—anytime, anywhere.
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- Technical Excellence in Reactive Flow Modeling
TerrantaFlow is engineered for high-performance, large-scale simulation of subsurface fluid and chemical processes. Whether you’re modeling stable stratigraphy or dynamic geological systems, TerrantaFlow delivers the resolution, adaptability, and depth you need.
- Advanced 2D & 3D Reactive Flow Simulation
Simulate both static and evolving systems over geological timescales with tailored resolutions—from basin to deposit scale.
- Smart Grid Management
Use fit-for-purpose grids and benefit from dynamic grid refinement in space and time—ideal for high-resolution needs like convective flow modeling.
- Efficient Workflow & Integration
Import your own grids or build new ones with an intuitive interface. Easily convert grids, run scenarios, and exchange results with third-party tools such as GIS platforms, Petrel, and GoCad.
- Streamlined Model Building
Quickly create and iterate 2D models using image-to-model conversion—perfect for fast scenario testing and conceptual analysis.
Unstructured meshing of a complex 2D model (left) and 3D model (right). Mesh resolutions are selected to ensure both small- and large-scale geological features are accurately represented
Revolutionizing Reactive Transport Modeling with TerrantaFlow
- The Challenge
Traditional reactive transport modeling tools struggle with performance limitations, making them impractical for commercial applications. These challenges are even more evident in 3D simulations, where processing times are too slow to meet project deadlines. This lack of performance also prevents in-depth uncertainty analysis, leaving critical aspects of subsurface chemical processes unexplored.
- Our Solution
Terrantas introduces the TerrantaFlow toolbox, an innovative platform designed to revolutionize subsurface geological process modeling. Purpose-built to support applications such as mineral exploration, natural hydrogen exploration, carbon capture and storage (CCS), and geothermal energy, TerrantaFlow enables scientists and engineers to analyze complex subsurface systems at geological scales with ease and precision.
why terrantaflow?
- Hypothesis Testing at Scale
Rapidly evaluate geological scenarios and understand how flow dynamics influence mineralization and fluid chemistry.
- Unmatched Performance & Flexibility
Achieve high-speed, high-resolution simulations without compromising detail or scientific rigor.
- Broad Application Scope
One platform, multiple use cases—supporting exploration, development, and operational planning across energy and resource sectors.
- Data-Driven Insights
Analyze field data across spatial and temporal scales, improve vector targeting, and refine predictive models.
- Unlock the Future of Subsurface Modeling
TerrantaFlow represents a breakthrough in reactive transport modeling, delivering the performance and adaptability required for today’s challenging geological and energy applications. Gain faster, smarter insights and confidently address uncertainty to drive better decisions in subsurface exploration and process optimization.
- Discover how TerrantaFlow is changing the landscape of reactive transport modeling today!
