D2M Engineering
83140 SIX-FOURS-LES-PLAGES
Since 1986, d2m Engineering has been supporting its customers through their projects, from initial concepts to refit studies, thanks to the versatility and quality of our teams.
From naval architecture to the structure of floating platforms, including the disciplines of hydrodynamics, anchoring and marine systems, our teams master the full range of skills needed to fully realize any type of floating construction.
Thus, d2m Engineering offers tailor-made solutions to a wide range of players in the maritime world: oil & gas, transport, ports, defense and marine energies.
As part of the STAPEM group’s engineering division, d2m Engineering, along with its sister companies d2m Services and Mareal, offers a complete engineering package for large-scale, complex projects. More broadly, the STAPEM group’s various entities provide offshore energy services to its Oil & Gas and wind energy customers.
Skills and disciplines:
– naval architecture, stability, propulsion performance, management of technical requirements, and compliance with regulations,
– design and structural analysis of steel structures,
– hydrodynamics and mooring,
– architecture and system definition for platforms,
– cost and risk analysis.
Ships and platforms:
– surface military vessels, submarines,
– surface/underwater drones,
– FPSOs, FSOs, FLNGs, and other floating oil and gas structures,
– container ships, ferries, cruise ships, barges, and workboats,
– floating wind turbines foundations
Design and support services:
– sketches,
– preliminary designs,
– general design studies,
– detailed design studies,
– decision support, project management,
Construction services and trades, covering both technical support and recruitment:
– inspection / supervision / site monitoring: painting, welding, mechanics, HSE, quality
– client representative, site manager
Project types:
– new construction,
– retrofitting: integration of new propulsion systems (methanol), replacement of propulsion units, integration of BWTS, ORC, CCS, optimisation of hull and bulb design, etc…
This project involved improving the energy efficiency of a vessel by optimising the heat recovery system and then specifying and carrying out the system integration studies.
Detailed design of processes
- P&IDs
- MTO
- Heat and mass balance
- Pressure drop
- Validation with maker
- Cause and effect
- IAS definition and signal lists
Detailed dry drock and retrofit documentation
- 3D and 2D drawings
- Structural calculations
- Outline specification
- Support in equipment selection
- Class approval
- Shipyard support
Designed for a shipyard, this innovating system enables a vessel to be safely hauled out without the need for external handling equipment.
This is a port project in which d2m has put its expertise to work in the service of innovation. Here are the deliverables produced:
- Operating principle
- Risk analysis,
- Structural calculations,
- Weight report,
- Stability,
- Anode protection system against corrosion,
- Detailed piping for the compressed air system,
- Detailed specifications,
- 2D and 3D drawings
As we are committed to a sustainable future, we are also working on projects to retrofit ships so that they can run on lower-carbon fuels.
In this case, the aim is to prepare a container ship for conversion to a methanol-powered engine. The following services have been carried out:
- Process design (piping, instrumentation, safety)
- Overall layout and machinery space
- 3D model
- Storage tank integration
- Stability
- Dispersion study
- Shipyard specification
- Hydro-structure calculation
This project reflects d2m Engineering’s comprehensive expertise, encompassing all the engineering disciplines required for the development of an FPSO’s structure and platform systems.
The work carried out includes the following:
- Pre-FEED,
- FEED,
- Full Basic Design, compliant with BV and ABS classifications:
- Naval Architecture
- Structure
- Engine room
- Accommodation
- Platform systems (excluding process): cargo handling, electrical, HVAC, safety, ballast, instrumentation…
- HAZID and HAZOP
- Integration of superstructures: crane, mooring, topsides, flare, risers
– Definition of platform systems: fluids, safety, electricity,
– detailed study of systems for life on board,
– definition and integration of hull accessories (including thrusters) and commando boats,
– 3D model of CODAD and CODLAD machine layout,
– ship specification.
Aucun média trouvé pour cet adhérent
Drones maritimes de surface (USV) Unmanned Surface Vehicle
Drones sous-marins (UUV) - Unmanned underwater vehicles