Turbine Capacity Loss
Definition
Suboptimal turbine operation in single flash cycles yields 2964 kW, while optimized ORC reaches 4624 kW, a 35% increase. Double flash adds 15% over single flash. Part-load operation causes over 10% efficiency loss at 50% load.
Key Findings
- Financial Impact: AUD 500k+ annual revenue loss per 5MW plant (at AUD 100/MWh, 35% capacity loss = 1.4MW x 8000h = 11.2GWh x AUD 100 = AUD 1.12M, net of costs). 10%+ efficiency loss at part load.
- Frequency: Continuous during operation
- Root Cause: Manual delays in parameter tuning, lack of real-time optimization tools
Why This Matters
The Pitch: Geothermal players in Australia 🇦🇺 lose up to 35% power output on turbine performance optimization. Automation of parameter optimization eliminates this capacity loss.
Affected Stakeholders
Plant Operators, Maintenance Engineers, Plant Managers
Deep Analysis (Premium)
Financial Impact
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Current Workarounds
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Methodology & Sources
Data collected via OSINT from regulatory filings, industry audits, and verified case studies.
Related Business Risks
Turbine Maintenance Overruns
Brine Reinjection Clogging Costs
Reinjection-Induced Capacity Decline
Environmental Non-Reinjection Fines
Capacity Factor Reporting Losses
AEMO Reporting Non-Compliance Fines
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