Damage Challenges at Three Gorges Hydroelectric Station

Hydroelectric stations, especially massive ones like the Three Gorges Hydroelectric Station, operating in the high sediment content of the Yangtze River, face two primary forms of damage to their core components:

• Cavitation corrosion (cavitation): When water flow interacts at high speeds with components such as runners and blades, bubbles are generated. The sudden collapse of these bubbles produces intense shock waves and micro-jets that continuously impact the metal surface, causing material fatigue and eventual delamination.
• Sediment wear: Hard particles like sand carried in the river water cause continuous cutting and erosion of the flow surfaces.

These two forms of damage often exacerbate one another, resulting in a combined cavitation-wear effect that accelerates component failure. Traditional repair methods, such as regular arc welding, involve high heat input, which leads to deformation, high residual stresses, and suboptimal coating performance.

Laser Cladding: The Solution

Lasersko oblaganje technology offers targeted solutions to these challenges:

• Metallurgical Bonding, Strong and Durable: The cladding layer in laserska obloga forms a strong metallurgical bond with the base material, providing bonding strength much higher than traditional mechanical bonding coatings (such as thermal spray). This effectively prevents large-scale delamination of the repair layer under high-speed water flow impacts.
• Nizek vnos toplote, minimalna deformacija: The laser energy is highly concentrated and applied for a short duration, resulting in minimal thermal impact on the base material. This maximizes control over component deformation. This is crucial for precision components, such as water turbine shafts, which require high tolerances.
• Customizable Performance, Significant Improvement: By choosing specific alloy powders, the cladding layer can exhibit superior performance compared to the base material. For example, after applying a cobalt-based alloy cladding, the microhardness of water turbine blades can increase by 1.5 times compared to the base material. Under similar operating conditions, the cavitation-induced mass loss is only one-third that of the base material.
• On-Site Repair, Economic Benefits: For large, non-detachable, or extremely costly to transport components (such as massive turbine chambers), laserska obloga equipment can be mobilized for on-site repairs. This avoids the high costs of disassembly, transportation, and prolonged downtime associated with traditional repair methods. For instance, if the mirror plate component of the Three Gorges Hydroelectric Station were to shut down due to wear, it could result in a loss of over 5 million CNY per day. Lasersko oblaganje significantly shortens repair cycles, providing huge economic benefits.

Praktična uporaba in prednosti

Uporaba laserska obloga technology at the Three Gorges Hydroelectric Station has been scaled and systematized, demonstrating significant comprehensive benefits:

• Široka uporaba: According to statistics, the Three Gorges Group’s hydropower stations can apply laserska obloga technology to up to 1,591 spare parts, with a total direct value of approximately 97.43 million CNY. Additionally, 196 tools, worth around 13.47 million CNY, are also repairable using this technology.
• Significant Reduction in Damage: Uporaba laserska obloga has reduced wear and corrosion by approximately 90%, significantly extending the service life of equipment.
• Ključni tehnološki preboji: For common turbine materials such as martensitic stainless steel (e.g., ZG06Cr13Ni5Mo), applying laserska obloga with cobalt-based, corrosion- and wear-resistant materials results in excellent metallurgical bonding and a marked increase in both corrosion and wear resistance.
• Stalna optimizacija procesov: Using numerical simulations (e.g., using Odgovori and the death cell technology to model the finite element analysis of the mirror plate repair), the effects of parameters like laser power and scanning speed on residual stress are analyzed to optimize processes and reduce the tendency for cracks.

Zaključek in Outlook

Lasersko oblaganje technology, with its high metallurgical bond strength, minimal thermal deformation, superior performance of the repair layer, and ability to conduct efficient on-site repairs, has become a key technology for ensuring the safe, stable, and economic operation of large-scale hydroelectric facilities such as the Three Gorges Hydroelectric Station.

As laserska obloga technology and equipment (such as devices for online laser strengthening of turbine blades) continue to advance and costs decrease, it will play an increasingly significant role not only in the hydropower sector but also in a broader range of industrial fields. It will provide strong support for enhancing the lifespan, energy efficiency, and reliability of critical equipment.