Author: GAEA Technologies
Posts
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How to Reduce Borehole Logging Time by 70% Using Digital Workflows (2026 Guide)
Borehole logging has long been one of the most time-intensive tasks in environmental and geotechnical consulting. Between handwritten field notes, spreadsheet transcription, log drafting, and report formatting, it’s common for projects to spend more time processing data than actually collecting it. But leading firms are changing that. By implementing fully digital workflows—especially using tools like…
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MIGRATEv10: A Powerful New Standard in 2D Contaminant Transport Modeling
GAEA Technologies is proud to announce the release of MIGRATEv10, the latest evolution in contaminant transport modeling software designed to deliver enhanced accuracy, flexibility, and insight for environmental professionals. MIGRATEv10 introduces advanced two-dimensional (2D) modeling capabilities, enabling users to simulate both vertical and horizontal contaminant migration within complex subsurface environments. This provides a more realistic…
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MIGRATEv10 Core Features: Advanced 2D Contaminant Transport Modeling
Understanding contaminant migration in complex subsurface environments requires tools that go beyond simplified assumptions. MIGRATEv10 is designed to meet this need by providing robust, two-dimensional modeling capabilities that capture the spatial and temporal dynamics of contaminant transport. This post highlights the core features that make MIGRATEv10 a powerful solution for landfill and groundwater impact assessments.…
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MIGRATEv10 vs POLLUTEv10: Fractured Layer with Sorption Comparison
Overview This example compares results from MIGRATEv10 and POLLUTEv10 for a fractured soil layer with sorption. This is one of the more complex transport scenarios, combining: The result is a system where contaminants can move rapidly through fractures while simultaneously being retarded and stored in the soil matrix. Model Setup Both models simulate a two-layer…
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MIGRATEv10 vs POLLUTEv10: Finite Mass Source Comparison
Overview This example compares finite mass transport results from MIGRATEv10 and POLLUTEv10. Unlike constant source cases, this scenario represents a limited contaminant inventory, where concentrations rise, peak, and then decline as the source is depleted. The key objective is to evaluate how both models predict: Model Setup Both models use identical physical conditions: This configuration…
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MIGRATEv10 vs POLLUTEv10: Pure Diffusion Comparison
Overview In this example, we compare pure diffusion results generated using MIGRATEv10 and POLLUTEv10 under identical conditions. The objective is to verify consistency between the two models and highlight key differences in their capabilities. Both simulations consider contaminant transport through a 4 m thick layer under pure diffusion (no advection), with constant concentration boundary conditions…
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MIGRATEv10 vs POLLUTEv10: Advective–Diffusive Transport Comparison
Overview This example compares advective–diffusive transport results from MIGRATEv10 and POLLUTEv10 using identical input conditions. The goal is to evaluate consistency between the two models while highlighting key differences in how they represent contaminant transport. Unlike pure diffusion, this case includes advection, resulting in much faster contaminant migration and earlier breakthrough at depth. Model Setup…
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MIGRATEv10 Example 1: Modeling a RCRA Subtitle D Landfill with a Composite Liner
Introduction MIGRATEv10 Example 1 demonstrates how to model contaminant migration from a U.S. RCRA Subtitle D landfill using a composite liner system and a primary leachate collection system (PLCS). This example is foundational for understanding how engineered barriers control leakage and how contaminants move into underlying groundwater systems. The simulation focuses on a volatile organic…
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MIGRATEv10 Example 2: Composite Liner System with Primary & Secondary Leachate Collection
Introduction MIGRATEv10 Example 2 builds on the fundamentals introduced in Example 1 by incorporating a more advanced landfill design that includes: This example demonstrates how multiple engineered barriers work together to minimize contaminant migration and how MIGRATEv10 models leakage and transport through a layered system. Conceptual Model Overview The modeled landfill system includes: This multi-barrier…
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MIGRATEv10 Example 3: Pure Diffusion of a Conservative Contaminant
Introduction MIGRATEv10 Example 3 presents a simplified but highly instructive case of pure diffusion of a conservative contaminant through a porous medium. Unlike previous examples, this scenario excludes: This makes it an ideal example for understanding the fundamental physics of diffusion-controlled transport in subsurface environments. Conceptual Model Overview The modeled system consists of: Key Simplification…