DHI FEFLOW 8.1.3 full cracked license

$ 160.00

SUBSURFACE FLOW & TRANSPORT MODELLING

FEFLOW 8.1.3 stands at the forefront of groundwater modeling and simulation technology, enabling users to accurately and efficiently simulate intricate processes related to flow, mass transport, and heat transfer. This advanced software is tailored for various sectors, including Mining and Metals, Civil Engineering and Geotechnics, Geothermal Energy, and Environmental Services. It allows for the simulation of diverse groundwater phenomena, such as flow dynamics, contaminant movement, groundwater age, and heat transport, under both fully and variably saturated conditions…

Description

Whether you are engaged in the design of eco-friendly mining operations or executing extensive geothermal initiatives, FEFLOW‘s intuitive interface and seamless integration with other MIKE models equip you with the critical insights needed to effectively anticipate and address environmental challenges. The software’s capabilities ensure that users can navigate complex scenarios with ease, making it an invaluable tool for professionals in the field.

By leveraging FEFLOW, stakeholders can enhance their decision-making processes and optimize project outcomes. The software’s precision and versatility make it an essential resource for those looking to tackle the multifaceted issues associated with groundwater management and environmental sustainability. With FEFLOW, you can confidently approach your projects, knowing you have the best tools at your disposal to meet your objectives.


How does FEFLOW help?

FEFLOW interface

All-in-one concept GUI

FEFLOW supports simple to complex models with an easy to use, unified graphical user interface that integrates comprehensive groundwater flow, transport, and heat simulation tools into a single platform, enhancing efficiency and precision in environmental engineering.

FEFLOW cross section

Advanced multi-dimensional visualisation

Seamlessly explore intricate hydrogeological data through FEFLOW’s versatile visualisation suite, offering immersive 3D views, detailed 2D cross-sections, and precise 1D profile plots, empowering professionals to achieve unprecedented clarity and insight.

rock formation

Interoperability to geologic modelling tools

FEFLOW’s compatibility with major geological tools like GOCAD, Leapfrog, and GeoModeller 3D ensures a smooth workflow transition, facilitating comprehensive subsurface analyses and enhancing collaboration across diverse engineering environments.

FEFLOW PySMH

Workflow automation

FEFLOW enhances productivity through automation with Python scripting and flexible customisation via plug-ins, significantly reducing the time and cost associated with developing and refining groundwater models.

FEFLOW

Uncertainty quantification and risk mitigation

Rely on advanced solutions for quantifying subsurface model uncertainty for groundwater, mining, and geothermal resources. Mitigate prediction risks by testing multiple parameter hypotheses. Deploy hundreds of model scenarios using advanced parallelisation on DHI’s cloud infrastructure or your local IT system.


FEFLOW

Areas of application

Contaminant fate and transport

Simulate the movement and degradation of contaminants in groundwater systems to guide remediation strategies.

Dewatering at construction sites

Simulate groundwater dewatering scenarios to prevent construction delays and structural damage.

Drought and water scarcity

Assess groundwater availability and sustainability under drought conditions to improve water resource management.

Feasibility of a geothermal system

Evaluate the hydrogeological potential for geothermal energy extraction to ensure system efficiency and sustainability.

Groundwater and geotechnical

Predict the impacts of excessive groundwater withdrawal, aiding in the prevention of land subsidence and related damages.

Groundwater protection zones

Determine the optimal design and management of groundwater protection zones to safeguard drinking water sources.

Groundwater remediation

Model the effectiveness of remediation techniques in contaminated aquifers to optimise clean-up processes.

Model water dynamics in mining

Model water inflows and interactions in mining environments to ensure operational safety and environmental compliance.

Seepage through dams and levees

Simulate seepage processes to assess and improve the structural integrity of dams and levees.

Surface water-groundwater interaction

Explore the interactions between surface water and groundwater to manage resources effectively and mitigate environmental impacts.


What’s new in FEFLOW 8.1?

In this major release, FEFLOW comes with a number of exciting new software features. The highlights of the release are:

Well Manager: Groups and rules

Well Manager for Geothermal

New Observation Data dialogue

3D Supermesh Tools

New CAD implementation

New module PySMH: Access the Supermesh and Mesh generators from Python

New Cross-section Generator in Python

FePEST improvements for Observation Groups

Several usability improvements.

A detailed description of the major software features is presented below:

Well Manager: Groups and Rules
The Well Manager editor is the tabular viewer and provides an entire overview of any kind of wells (Well BC, Multilayer Well and Borehole Heat Exchanger) in FEFLOW.

In this release, the Well Manager receives a major extension and allow the creation of Well Groups. Groups are used to orchestrate a number of wells under certain Group Rules.

Rules are used to control groundwater and geothermal wells. Moreover, rules can be used to activate or deactivate the wells within a group. The Shared Properties rule allows the user to overwrite well properties within a group. Such as functionality makes very easy and quick to test multiple scenarios with the wells.

The rule Distributed Total Flow Rate can be used to equally subdivide a total rate (steady or unsteady) with all the group member. For Geothermal Applications, the creation of Open- and Closed-Loop System can now be done directly via the Well Manager editor