Energy Infrastructure
We work on energy production, transmission, and storage infrastructure for contaminant removal, surface preparation, and critical equipment maintenance. Our services are aimed at power plants, refineries, oil and gas platforms, solar farms, wind farms, and hydroelectric dams. Laser cleaning stands out as an advanced maintenance solution for the energy sector, combining efficiency, compliance with standards, and optimization of infrastructure performance.
Cleaning and maintenance of energy equipment
- Removal of oxides, residues, and contaminants from turbines, alternators, heat exchangers, and steam generators.
- Cleaning of electrical enclosures, high-voltage connections, and insulators.
- Decontamination of components exposed to oils, greases, and industrial fluids.
- Stripping and surface preparation before applying anti-corrosion coatings.
Maintenance and restoration of solar and wind infrastructure
- Cleaning of metal structures exposed to weather.
- Removal of rust and atmospheric deposits from supports and fasteners.
- Cleaning of wind turbine blades in accessible areas.
- Decontamination of solar panels to remove mineral and organic deposits.
Decontamination and maintenance of oil and gas infrastructure
- Removal of carbon, hydrocarbon, and corrosion residues from pipes, storage tanks, and pressure vessels.
- Cleaning of metal surfaces for inspections and non-destructive testing (NDT).
- Decontamination of equipment exposed to aggressive chemicals.
- Stripping of paint and protective coatings from pipes and metal structures.
Cleaning of hydroelectric infrastructure
- Removal of mineral deposits, moss, and biofilms from concrete structures and penstocks.
- Cleaning of turbines, grates, and control valves.
- Stripping and preparation of metal surfaces exposed to humidity before applying anti-corrosion protections.
Maintenance of energy transmission and storage networks
- Cleaning of pylons, insulators, and transformer stations.
- Removal of contaminants and residues from pipes and storage equipment.
- Decontamination of high-voltage equipment exposed to extreme conditions.
Cleaning and maintenance of energy equipment
- Removal of oxides, residues, and contaminants from turbines, alternators, heat exchangers, and steam generators.
- Cleaning of electrical enclosures, high-voltage connections, and insulators.
- Decontamination of components exposed to oils, greases, and industrial fluids.
- Stripping and surface preparation before applying anti-corrosion coatings.
Maintenance and restoration of solar and wind infrastructure
- Cleaning of metal structures exposed to weather.
- Removal of rust and atmospheric deposits from supports and fasteners.
- Cleaning of wind turbine blades in accessible areas.
- Decontamination of solar panels to remove mineral and organic deposits.
Decontamination and maintenance of oil and gas infrastructure
- Removal of carbon, hydrocarbon, and corrosion residues from pipes, storage tanks, and pressure vessels.
- Cleaning of metal surfaces for inspections and non-destructive testing (NDT).
- Decontamination of equipment exposed to aggressive chemicals.
- Stripping of paint and protective coatings from pipes and metal structures.
Cleaning of hydroelectric infrastructure
- Removal of mineral deposits, moss, and biofilms from concrete structures and penstocks.
- Cleaning of turbines, grates, and control valves.
- Stripping and preparation of metal surfaces exposed to humidity before applying anti-corrosion protections.
Maintenance of energy transmission and storage networks
- Cleaning of pylons, insulators, and transformer stations.
- Removal of contaminants and residues from pipes and storage equipment.
- Decontamination of high-voltage equipment exposed to extreme conditions.
Laser cleaning technology for energy infrastructure
Energy infrastructure requires rigorous maintenance operations to ensure its performance, durability, and compliance with safety and environmental standards. Laser cleaning offers an effective and precise solution, adapted to the critical equipment and structures of the sector.
Preservation of equipment and metal structures
Turbines, alternators, heat exchangers, and pipelines must be maintained without risk of premature wear. Laser technology removes rust, oxides, and contaminants without altering metal surfaces or compromising the integrity of sensitive components.
Reduction of maintenance cycles and operational downtime
Fouling of energy equipment leads to reduced efficiency and costly interruptions. Laser cleaning allows for rapid and targeted interventions, without equipment disassembly, thereby reducing facility downtime.
Clean technology and environmental compliance
Unlike traditional methods using solvents or abrasives, laser technology generates no chemical waste. Residues are captured as solid dust, simplifying their collection and reducing the environmental impact of maintenance operations.
Interventions in complex and hard-to-reach environments
Energy infrastructure includes elevated installations, confined spaces, and hard-to-reach surfaces. Thanks to its precision and flexibility, laser cleaning can treat these environments without risk of damaging adjacent equipment.
Facilitation of inspections and quality control
Infrastructure must be regularly inspected to detect cracks, corrosion, and structural defects. Laser technology prepares surfaces before non-destructive testing (NDT), ensuring precise and reliable analyses without interfering with ultrasonic or radiographic tests.
Increased safety for operators and facilities
Contaminant removal is performed without abrasive particle projection and without direct contact, reducing risks for workers. The absence of chemicals also limits exposure to hazardous substances and improves overall safety at industrial sites.