Our Services
Access to 3D model cloud storage, a global catalogue of outcrop models, and partner courses
Access to 3D model cloud storage,
a global catalogue of outcrop models, and partner courses
ACCESS TO 3D MODEL CLOUD STORAGE
Digital outcrop models can be imported into Stratbox from the user’s local computer drive. In addition, we provide digital outcrop model storage in our secure cloud infrastructure and allow direct access to libraries of content from within Stratbox. Users who are subscribed to tailored libraries can visit their own cloud-based catalogue, and work on digital outcrop models in private or team mode with remote team members.
Cloud storage of digital outcrop models allows users to access their data from wherever they are and better manage local storage recourses from a single-point source without the risk of a hard drive’s failure. Finally, storage of digital outcrop models in the cloud allows for Stratbox and its libraries of content to be easily downloaded, saved, installed and distributed with standard network capabilities.
- Benefit from data stored in a single-point cloud source, including on-demand access
- Fast access to high-resolution, digital outcrop models through our optimised cloud storage
- Store data in the cloud from kilometric right down to microscopic scale
GLOBAL CATALOGUE OF 3D OUTCROP MODELS FROM RPS
For geologists, the more outcrops you see and study, the better you become at recognising geological features and patterns of the natural environment. For the industry, this helps minimise exploration uncertainty and for academia, it helps to answer scientific questions and train the next generation of scientists.
In Stratbox, a rich reference resource of digital outcrop models and images, with associated geological context, is available to help you better understand reservoir analogues. The database can be accessed on a yearly subscription or event basis for courses.
- Users gain a new 3D perspective by navigating through and interpreting multiple digital outcrop models
- Geological descriptions for all the outcrops of the catalogue are provided
- Location information, stratigraphic context and links to relevant published literature are included
Continental Clastic
Shore Zone/Deltaic Clastic
Shelf Clastic
- Meander-belt sandstone body, Lower Cretaceous, Isle of Wight, UK
- Multistorey fluvial sandstone bodies, Jurassic, Portugal
- Multistorey pebbly-sandy braided river deposits, Jurassic, Portugal
- Heterolithic fluvial channel-fill deposits, Jurassic, Portugal
- Fluvial-aeolian interactions, Devonian, Ireland
- Low-sinuosity fluvial sandstones, Devonian, Ireland
- Multistorey fluvial complex, Carboniferous, South Wales
- Delta front and delta top succession, Carboniferous, South Wales
- Delta plain succession, Carboniferous, South Wales
- Fluvial sheet sandstone, Devonian, South Wales
- Braided fluvial and aeolian deposits, Triassic, UK
- Meander-belt and lacustrine deposits, Triassic, UK
- Inland sabkha and ephemeral lake deposits, Triassic, UK
- Incised valleys and sheet sandstone fluvial systems, Cretaceous, Wyoming, USA
- Multistorey fluvial sandstone bodies and overbank facies, Miocene, Spain
- Heterogeneous and multistorey fluvial channel sandstones, Miocene, Northern Spain
- Pebbly and sandy braided river channel deposits, Oilgo-Miocene, Northern Spain
- Alluvial fan conglomerates, Tabernas, Spain
- Reservoir architecture and heterogeneities in aeolian systems, Utah, USA
- Tidal estuary sandstone, Lower Cretaceous, Isle of Wight, UK.
- Shallow marine and tidal facies, Miocene, Malaysia
- Growth fault, Carboniferous, County Clare, Ireland
- Prograding shoreface parasequence, Cretaceous, Utah USA
- Transgressive sequence, Cretaceous, Utah, USA
- Highstand shorefaces and distributary channel, Cretaceous, Wyoming, USA
- Tidal sandbodies in a tide-dominated delta, Eocene, Spain
- Wave and tidal-influenced shallow marine parasequences, Miocene, Malaysia
- Shallow marine depositional systems and oil sands, Upper Jurassic, UK
- Shoreface sandstones, Lower Cretaceous, Isle of Wight, UK
- Shoreface sandstones and mudstones, Lower Cretaceous, Isle of Wight, UK
- Small scale heterolithic cross bedding in tidal sandstones, Ager Basin, Spain
- Stacked delta front parasequences and incised valley fill, Trusklieve, Ireland
- Cyclicity in source rocks, Jurassic, UK
- Variations in reservoir quality and connectivity in a clastic shoreface system, Jurassic, UK
Deep Water
Shoreline/Lagoonal Carbonates
Platform/Shelf Carbonates
- Distal fan sheet sandstones, Namurian, County Clare, Ireland
- Deepwater channel sandbodies, Namurian, County Clare, Ireland
- Distal outer fan and fan fringe deposition, Namurian, County Clare, Ireland
- Slope sedimentation and syn-sedimentary deformation, Namurian, County Clare, Ireland
- Amalgamated deepwater channels, Namurian, County Clare, Ireland
- Sheet-like turbidites, Eocene, Spain
- Deepwater channel complex, Eocene, Spain
- Deepwater sandy-lobe heterogeneity, Miocene, Spain
- Channel-linked erosion surfaces and scours, Namurian, County Clare, Ireland
- Restricted and marginal carbonates, Miocene, Spain
- Inner ramp margin, Miocene, Spain
- Sequence stratigraphy of the Llucmayor Reef Complex, Miocene, Spain
- Lithofacies of the Llucmayor Reef Complex, Miocene, Spain
- Carbonate sand body successions, Jurassic, UK
Thrust and Contractional Tectonics
Rift & Extensional Tectonics
Faulting, Stress and Fracturing
- Chevron and detachment folds in a turbidite sequence, Carboniferous, UK
- Chevron folding in a sand-dominated turbidite sequence, Carboniferous, UK
- Hinge and limb deformation features in chevron folds, Carboniferous, UK
- Recumbent chevron folds, Carboniferous, UK
- Thrust fault propagation in heterolithic shoreface facies, Miocene, Malaysia
- Parasitic fold complex, Jurassic, UK
- Concentric folding in carbonates, Carboniferous, Wales
- Extensional fault systems, Jurassic, UK
- Normal faulting and reservoir compartmentalisation, Miocene, Malaysia
World class outcrop models from the UK, Ireland, Spain, Portugal, Malaysia and the US. Available for licence via the Stratbox platform. Analogues from:
Continental Clastic
- Meander-belt sandstone body, Lower Cretaceous, Isle of Wight, UK
- Multistorey fluvial sandstone bodies, Jurassic, Portugal
- Multistorey pebbly-sandy braided river deposits, Jurassic, Portugal
- Heterolithic fluvial channel-fill deposits, Jurassic, Portugal
- Fluvial-aeolian interactions, Devonian, Ireland
- Low-sinuosity fluvial sandstones, Devonian, Ireland
- Multistorey fluvial complex, Carboniferous, South Wales
- Delta front and delta top succession, Carboniferous, South Wales
- Delta plain succession, Carboniferous, South Wales
- Fluvial sheet sandstone, Devonian, South Wales
- Braided fluvial and aeolian deposits, Triassic, UK
- Meander-belt and lacustrine deposits, Triassic, UK
- Inland sabkha and ephemeral lake deposits, Triassic, UK
- Incised valleys and sheet sandstone fluvial systems, Cretaceous, Wyoming, USA
- Multistorey fluvial sandstone bodies and overbank facies, Miocene, Spain
- Heterogeneous and multistorey fluvial channel sandstones, Miocene, Northern Spain
- Pebbly and sandy braided river channel deposits, Oilgo-Miocene, Northern Spain
- Alluvial fan conglomerates, Tabernas, Spain
- Reservoir architecture and heterogeneities in aeolian systems, Utah, USA
Shore Zone/Deltaic Clastic
- Tidal estuary sandstone, Lower Cretaceous, Isle of Wight, UK.
- Shallow marine and tidal facies, Miocene, Malaysia
- Growth fault, Carboniferous, County Clare, Ireland
- Prograding shoreface parasequence, Cretaceous, Utah USA
- Transgressive sequence, Cretaceous, Utah, USA
- Highstand shorefaces and distributary channel, Cretaceous, Wyoming, USA
- Tidal sandbodies in a tide-dominated delta, Eocene, Spain
- Wave and tidal-influenced shallow marine parasequences, Miocene, Malaysia
- Shallow marine depositional systems and oil sands, Upper Jurassic, UK
Shelf Clastic
- Shoreface sandstones, Lower Cretaceous, Isle of Wight, UK
- Shoreface sandstones and mudstones, Lower Cretaceous, Isle of Wight, UK
- Small scale heterolithic cross bedding in tidal sandstones, Ager Basin, Spain
- Stacked delta front parasequences and incised valley fill, Trusklieve, Ireland
- Cyclicity in source rocks, Jurassic, UK
- Variations in reservoir quality and connectivity in a clastic shoreface system, Jurassic, UK
Deep Water
- Distal fan sheet sandstones, Namurian, County Clare, Ireland
- Deepwater channel sandbodies, Namurian, County Clare, Ireland
- Distal outer fan and fan fringe deposition, Namurian, County Clare, Ireland
- Slope sedimentation and syn-sedimentary deformation, Namurian, County Clare, Ireland
- Amalgamated deepwater channels, Namurian, County Clare, Ireland
- Sheet-like turbidites, Eocene, Spain
- Deepwater channel complex, Eocene, Spain
- Deepwater sandy-lobe heterogeneity, Miocene, Spain
- Channel-linked erosion surfaces and scours, Namurian, County Clare, Ireland
Shoreline/Lagoonal Carbonates
- Restricted and marginal carbonates, Miocene, Spain
- Inner ramp margin, Miocene, Spain
Platform/Shelf Carbonates
- Sequence stratigraphy of the Llucmayor Reef Complex, Miocene, Spain
- Lithofacies of the Llucmayor Reef Complex, Miocene, Spain
- Carbonate sand body successions, Jurassic, UK
Thrust and Contractional Tectonics
- Chevron and detachment folds in a turbidite sequence, Carboniferous, UK
- Chevron folding in a sand-dominated turbidite sequence, Carboniferous, UK
- Hinge and limb deformation features in chevron folds, Carboniferous, UK
- Recumbent chevron folds, Carboniferous, UK
- Thrust fault propagation in heterolithic shoreface facies, Miocene, Malaysia
- Parasitic fold complex, Jurassic, UK
- Concentric folding in carbonates, Carboniferous, Wales
Rift & Extensional Tectonics
- Extensional fault systems, Jurassic, UK
Faulting, Stress and Fracturing
- Normal faulting and reservoir compartmentalisation, Miocene, Malaysia
PARTNER COURSES: VIRTUAL GEOLOGY FIELD TRIPS
Imaged Reality is partnering with global training providers such as RPS, independent instructors and international consultants to deliver specialised virtual geology field trips for subsurface training wherever that expertise is needed.
We have helped to deliver virtual geology field trips for subsurface training to Staatsolie, Ecopetrol, Shell, Hess and NPD teams. One example is a virtual geology field trip to deep water reservoirs in Mexico, Argentina, Chile, France and Tibet for Ecopetrol teams located in Bogotá, Rio and Houston. This was led by Professor Ben Kneller and Dr Victoria Valdez.
Virtual geology field trips for subsurface training delivered through our platform save as much as 50% of the client cost, whilst contributing to a reduced carbon footprint.
We strongly believe that our technology enables more inclusivity in subsurface training, providing greater access to people with disabilities.
