Deep Surface Images!

A marine photographer is a professional who specializes in capturing visual images of the marine environment. They are dedicated to capturing marine life, coastal landscapes, ships, and ocean-related activities. The profession requires a thorough understanding of navigation, marine weather conditions, and advanced photographic skills. A marine photographer may work aboard ships, fishing boats, or from shore, seeking to capture the beauty, power, and diversity of the ocean. Common subjects include rough waves, marine wildlife, busy harbors, and dramatic moments on the high seas. This profession often requires great flexibility, resilience to harsh conditions, and a passion for the ocean, all while documenting and sharing the fascinating visual history of the marine world.

The marine photographer, working in the context of B2B commercial relations, aims to capture images that highlight the professional, technical and logistical aspects of the maritime industry, while integrating elements related to offshore wind turbines. Among the subjects to be photographed are the company’s vessels from different angles, highlighting their size, on-board technology and capabilities. Images of the logistics process, from loading and unloading of goods to port warehouses, illustrate operational efficiency.

Photographs of crew members in action reinforce the professionalism of the company, as do those of port facilities, docks, terminals and handling equipment. The highlighting of advanced maritime technologies, business meetings at sea and participation in professional events complete the visual arsenal.

Images of offshore wind turbines, including technical inspections of blades and commercial images, add an ecological and innovative dimension to the visual documentation. These images can also be integrated into marketing materials, such as presentations, brochures and websites, to strengthen the company’s credibility in the B2B maritime sector, highlighting its commitment to renewable energy.

Deep surface images!

The offshore photographer focuses on capturing images that highlight the technical, logistical and aesthetic aspects of the maritime industry. Among the subjects to be photographed are the company’s vessels, with an emphasis on their size, onboard technology and capabilities. Images of the logistics process, from loading and unloading of goods to port warehouses, illustrate operational efficiency.

Photographs of crew members in action reinforce the professionalism of the company, as do those of port facilities, quays, terminals and handling equipment. The spotlight on advanced maritime technologies, business meetings at sea and participation in professional events complete the visual arsenal.

Images of offshore wind turbines, including technical inspections of blades and commercial images, add an ecological and innovative dimension to the visual documentation. These images can be integrated into various promotional materials, such as presentations, brochures and websites, to strengthen the company’s image in the offshore industry, highlighting its commitment to energy efficiency and renewable energy.

Subsea engineering works encompass a variety of structures designed to operate in underwater environments. These works serve a variety of purposes, ranging from oil and gas exploration to scientific research to underwater telecommunications.

These structures include offshore platforms, massive structures installed at sea for oil and gas exploration and production, which can be fixed (anchored to the seabed) or floating. Subsea pipelines are used to transport hydrocarbons, water, or other fluids between offshore platforms and the shore. Subsea cables are also deployed for international telecommunications and data transfer across oceans.

Subsea sensor networks can be used to monitor the marine environment, collect scientific data, or even for military applications. Structures such as tidal turbines and tidal streams harness the energy of tides and ocean currents as part of marine renewable energy.

Power cables carry electricity generated by offshore renewable energy sources to onshore grids. Underwater habitats are sometimes used as research bases to explore the seabed and study marine life. Subsea drilling systems extract resources from the seabed, such as minerals or geological samples. Some infrastructure projects also include underwater tunnels for the passage of vehicles or trains between islands or continents.

The design, construction and maintenance of these structures require multidisciplinary expertise, combining maritime engineering, subsea engineering, geotechnics, marine weather and other related fields. These structures play a crucial role in various industrial and scientific sectors, contributing to the exploration and responsible use of underwater resources.

ROV Piloting for Technical Inspections​

Subsea engineering works encompass a variety of structures designed to operate in underwater environments. These works serve a variety of purposes, ranging from oil and gas exploration to scientific research to underwater telecommunications.

These structures include offshore platforms, massive structures installed at sea for oil and gas exploration and production, which can be fixed (anchored to the seabed) or floating. Subsea pipelines are used to transport hydrocarbons, water, or other fluids between offshore platforms and shore. Subsea cables are also deployed for international telecommunications and data transfer across oceans.

Subsea sensor networks can be used to monitor the marine environment, collect scientific data, or even for military applications. Structures such as tidal turbines and tidal currents harness the energy of tides and ocean currents as part of marine renewable energy.

Power cables carry electricity generated by offshore renewable energy sources to onshore grids. Underwater habitats are sometimes used as research bases to explore the seabed and study marine life. Subsea drilling systems extract resources from the seabed, such as minerals or geological samples. Some infrastructure projects also include underwater tunnels for the passage of vehicles or trains between islands or continents.

The design, construction and maintenance of these structures require multidisciplinary expertise, combining marine engineering, subsea engineering, geotechnics, marine weather and other related fields. These structures play a crucial role in various industrial and scientific sectors, contributing to the exploration and responsible use of underwater resources.

Inspection of offshore wind turbine foundations with remotely operated underwater vehicles (ROVs) is a key step in ensuring the durability and performance of these structures in a marine environment. The ROVs, equipped with high-resolution cameras, conduct a detailed visual inspection, scanning the surface of the foundations for signs of corrosion, deformation or cracks. They also explore the submerged parts, inspecting the pillars and fixing elements for possible damage.

The ROVs are equipped with automated sensors to measure the verticality of the structures and assess any unwanted displacement. They play a crucial role in assessing the state of the corrosion protection of the steel elements thanks to their cameras and dedicated sensors measuring the thickness of the coating. In addition, these underwater vehicles are able to assess the stability of monopile foundations by performing automated displacement measurements. Finally, ROVs inspect the subsea cables connecting the wind turbines to the shore, ensuring their integrity and efficiency.

The data collected by the ROVs feeds the automatic generation of detailed reports, summarizing the results of the assessments carried out and providing valuable recommendations for possible corrective actions. This approach, combining technology and expertise, optimizes the preventive maintenance of offshore wind turbines while minimizing the risks associated with human interventions in complex marine environments.