Modelling Technology to Reach Net Zero Ambitions

Integrated Technology from Reservoir to Surface and Storage

SCROLL

tNavigator is a state-of-the-art reservoir modelling and simulation platform, offering a wide range of advanced innovative tools for geoscience, reservoir and production engineering disciplines.

Integration is at the heart of our technology; we believe that by keeping data and knowledge in a single platform, performance and efficiency is increased, allowing you to undertake a deeper analysis of your field and make more informed, confident decisions.

Intelligent Geoscience

Find out about our next generation geoscience solution

EXPAND

Reservoir Engineering

Meet the industry’s fastest, most scalable hydrodynamic simulator

EXPAND

AHM & Uncertainty

Empowering engineers to reduce uncertainty and make confident decisions

EXPAND

Surface Networks

Explore the gateway to integrated asset modelling

EXPAND
tNavigator’s development is continuous, defined by our users’ needs and the latest industry trends. We offer an experienced team of over 200 specialists in software support & development, 24/7 client support and 4 major updates to our technology every year.
One Asset, One Software

tNavigator offers a wide range of innovative & advanced workflows from seismic to surface.

More about tNavigator

Solutions

Discover tNavigator's specialised solutions that address common industry reservoir modelling challenges.

See all News

Computational Efficiency

EXPAND

Production Enhancement

EXPAND

Reliable Reservoir Predictions

EXPAND

New Energy

EXPAND

Mining

EXPAND

Python, Machine Learning & AI

EXPAND

Data

EXPAND

Unconventionals

EXPAND

Mega-Loop

Expand
TESTIMONIALS
Why choose tNavigator?

Don’t just take our word for it – find out why everyone is talking about tNavigator!

Read More Testimonials

Latest News

Stay up to date with the latest news and updates from the Rock Flow Dynamics team

See all News

Probabilistic Method for Assessing CO2 Migration Pathways

Breaking Barriers in Geomodelling with Transformative Static Workflows

Using Advancements in Geomechanics for Optimised Hydraulic Fracture Modelling