Engineering



The project and innovation management of Rhein-Tec GmbH ensures smooth processing of highly complex projects. Methodical requirements engineering is our strength. With our know-how, we bring structure to processes and maintain an overview.
Customer requirements are our top priority. In a first manageable step, we analyse the requirements of our customers and define targeted strategies and develop the construction project of mobile and semi-stationary facilities. Our team of specialists will support you in handling highly complex development projects anywhere in the world. Operative project management, successful implementation of your facility, PM assessments - we do all this and much more for you. We keep your backs free and steer the projects in a safe direction at an early stage.
Due to the specific requirements the planning process driven by Rhein-Tec includes the following steps: Needs assessment Evaluation and selection of the optimal design Construction planning Workflow conception preparation of documentation and operating man uals Integrated project management. Together with our customers and local partners we steer the installation and proper commissioning on-site and thus assure the reliable function of all components.

Planning with BIM

In the beginning there is an idea, then it becomes real. Modules and semi-stationary infrastructures are complex construction projects and digital from the start. With our system, we show you digitally what will be implemented later and how. Length, width, height or the time, when what will be planned, built, implemented or maintained; what the project will cost. To make all this tangible for you, we and our partners rely on BIM (Building Information Modelling)

structural analyses

FEM (finite element method)
Our engineers use the finite element method (FEM), also called the "finite element method", as a general numerical procedure applied to various physical tasks. The most common application of the FEM is in the strength and deformation analysis of solids with geometrically complex shapes. With the help of FEM analysis, we calculate statically complex components and structures in the field of space technology, in the nautical sector and, for example, for research stations.

CFD (computational fluid dynamics)
Computational Fluid Dynamics (CFD) is an established method of fluid mechanics. our engineers calculate the flow behaviour in ventilation systems, tunnels, the wind resistance of a research station in a storm or the flow resistance in underwater vehicles. This can reduce or even eliminate the need for expensive tests in wind tunnels or drag test facilities.