Advanced modeling platform designed to support the planning, analysis, and optimization of Carbon Capture, Utilization, and Storage (CCUS) systems. It enables researchers, engineers, and policymakers to simulate end-to-end CCUS workflows — from CO₂ capture at industrial sources, through transportation, to utilization or long-term geological storage.
CCUS Simulation Tool
CCUS Simulation Software
Simulate and optimize full CCUS infrastructure before execution and ensuring alignment with timelines, budgets, and environmental goals.
End-to-End System Modeling
Comprehensive, integrated approach to simulate the entire CCUS value chain — from CO₂ capture to transport, utilization, and long-term storage. This holistic view enables stakeholders to optimize the full lifecycle of carbon management projects with accuracy and confidence.
Data-Driven Decision Support
Empower policymakers and investors with actionable insights through scenario analysis, cost modeling, and risk assessment. The platform supports informed decision-making by quantifying trade-offs and evaluating the impact of different policy or infrastructure strategies on emissions and economics.
Predict the environmental impact of CCUS projects by simulating emissions reductions, resource usage, and long-term storage performance enabling data-driven decisions.
Optimizing Infrastructure Driven by AI
End-to-End System Modeling
Comprehensive, integrated approach to simulate the entire CCUS value chain — from CO₂ capture to transport, utilization, and long-term storage. This holistic view enables stakeholders to optimize the full lifecycle of carbon management projects with accuracy and confidence.
Data-Driven Decision Support
Empower policymakers and investors with actionable insights through scenario analysis, cost modeling, and risk assessment. The platform supports informed decision-making by quantifying trade-offs and evaluating the impact of different policy or infrastructure strategies on emissions and economics.
Optimizing Infrastructure Driven by AI
Predict the environmental impact of CCUS projects by simulating emissions reductions, resource usage, and long-term storage performance enabling data-driven decisions.
Frequently asked questions
What is CCUS Simulation Software?
CCUS Simulation Software is a specialized tool used to model, simulate, and analyze the processes involved in carbon capture, utilization, and storage. It helps engineers and researchers evaluate the technical and economic feasibility of CCUS projects.
Who can use this software?
The software is designed for energy and process engineers, environmental researchers, policy analysts, academic institutions, and government agencies or regulators.
What types of CCUS systems can be modeled?
The software supports simulation of a wide range of CCUS systems, including post-combustion, pre-combustion, and oxy-fuel capture processes, CO₂ transport through pipelines, geological storage in saline aquifers or depleted reservoirs, and utilization methods such as enhanced oil recovery (EOR), mineralization, or chemical synthesis.
What are the key features of the software?
Key features include detailed process flow-sheeting, reservoir modeling, cost and economic analysis, scenario planning, lifecycle CO₂ tracking, and integration with GIS and live data systems.
Is the software compatible with other simulation tools?
Yes, the software can integrate with or exchange data with other tools such as Aspen Plus, MATLAB, CMG, ECLIPSE, or Petrel, depending on the available modules.
How do I get started with the software?
To get started, users can request a demo or download a trial version from the official website, review the provided user guides and tutorials, and contact the support team for onboarding assistance or training sessions.
© Copyright 2025 Nextgen Carbon Solutions, Inc. All rights reserved.
Nextgen Carbon Solutions, Inc.
1001 West Loop STE 750,
Houston 77027,
TX, USA.