Who We Are?

Naukaplan is an engineering and consultancy firm that provides expert-driven solutions across a wide range of industries.

Computational fluid dynamics (CFD) is the use of applied mathematics, physics and computational software to visualize how a gas or liquid flows — as well as how the gas or liquid affects objects as it flows past. Computational fluid dynamics is based on the Navier-Stokes equations.

Building physics includes the study of the interactions between heat, moisture and air movement between indoor and outdoor environments, and also the fabric of the building.

Marine Design provides a complete range of design and engineering services for shipyards and shipowners. The company is focused on concept, basic and detailed design for merchant ships and the offshore industry, including conversions, stability calculations, and strength analysis.

Industrial plant engineering is the process of planning and building an industrial plant, starting from the conceptualization to the drawing up of a plan, up until the completion of the project.

Green data center engineering and consultancy is the application of engineering expertise, sustainability principles, and advanced technologies to the planning, design, implementation, and optimization of environmentally responsible data center infrastructure. These services aim to minimize energy consumption, carbon footprint, and resource usage while maximizing operational efficiency, resilience, and scalability. Green data center consultants provide integrated solutions encompassing renewable energy integration, high-efficiency cooling systems, waste heat recovery, smart energy management, and sustainable materials selection to support the transition toward low-impact digital infrastructure. This field plays a vital role in enabling the digital economy to grow sustainably in alignment with global climate goals.

Power-to-X engineering is the application of scientific principles and advanced technologies to the conversion of electrical energy—primarily from renewable sources—into alternative forms of energy carriers, chemicals, or fuels such as hydrogen, synthetic methane, liquid fuels, or heat. The discipline involves the integrated planning, design, operation, and optimization of PtX systems to ensure efficient, reliable, economical, and environmentally sustainable energy transformation and storage. Power-to-X plays a critical role in sector coupling, enabling decarbonization across power, transportation, heating, and industrial processes by bridging electricity with other energy vectors.