How Fouling Impacts Gas Turbine Heat Rate
Industrial power generation is confronted with a critical challenge that severely impacts profitability. Airborne particles cause significant efficiency losses in power plants globally. This degradation process results in millions of dollars in annual losses due to increased fuel consumption and reduced power output. Accumulation of particulate matter on critical components leads to measurable performance penalties. Operating...
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Common Causes of Poor Heat Rate in Gas Turbines
Heat rate is the cornerstone of gas turbine performance, reflecting the efficiency in converting fuel into electrical power. A decline in heat rate significantly increases operational costs and diminishes system efficiency. This metric is vital for any turbine operation. Operators of industrial gas turbines face intense pressure to enhance performance while managing fuel costs. Identifying...
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Common Causes of Gas Turbine Blade Erosion
Gas turbine blades are under constant threat in today’s power plants. They face extreme temperatures and pressures. Knowing what damages them is key to avoiding costly downtime. Blade failures can halt a power plant’s operations. When blades deteriorate, power generation drops. Industrial gas turbines rely on these parts for top performance. Several factors lead to...
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Crack Detection in Turbine Blades: A Guide to Ensuring Reliability and Safety
Power generation facilities face significant challenges in maintaining equipment integrity. Undetected structural flaws in rotating machinery can progress from minor surface defects to catastrophic failures. This guide focuses on the critical methods for detecting cracks in gas turbine blades. Allied Power Group, based in Houston, Texas, offers decades of experience in industrial gas turbine repair....
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