Identify Hidden Losses & Improve Efficiency
Quantitative analysis based on thermodynamic models to unlock performance with minimal investment.
Safety & Maintenance Decision Support
In-depth understanding of turbine and condenser operational margins for secure, long-term asset health.
Quantify Heat Supply Impact
Rigorous assessment of power generation penalties across diverse heat supply and extraction options.
Maximize Heat Recovery & Feedwater Re-use
Engineering solutions for flue gas heat recovery to significantly enhance cycle thermal efficiency.
CCS Retrofit Readiness & Limits
Establishing robust baselines and turbine extraction limits for upcoming carbon capture integration.
"Providing the Thermodynamic Evidence to Support Commercial Decisions"
Our core strength lies in detailed quantitative analysis. By building robust thermodynamic models of your specific cycle, we identify efficiency gains that data visualization alone cannot reveal.
Our Platform Enables:
Efficiency Gains
Identifying hidden losses in the water-steam cycle to improve yield with minimal CAPEX.
Learn How →Operational Clarity
The "Gap" in Data-Only Diagnostics of turbine and condenser performance to define safe operating envelopes.
Learn How →Future Simulation
Quantifying the impact of heat supply variants and CCS integration on net efficiency.
Learn How →Critical Project Support
- 1Loss of cycle efficiency or unexplained power drop
- 2Evaluating DHN or CCS heat extraction impacts
- 3Independent technical options appraisal for retrofits
- 4Optimizing flue gas heat recovery for feedwater
- 5Defining extraction limits for decarbonisation studies
Thermodynamic Analysis
INPUT:Turbine Stage Efficiency & Mass Balance
MODEL:Whole-system cycle simulation (Off-design)
RESULT:Quantified power penalty for heat supply
Discuss Your Technical Context
Whether investigating a specific loss or evaluating a decarbonisation study, partner with us for the thermodynamic evidence you need to move forward.
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