Projects
In our core areas, we have already completed numerous successful projects that reflect our expertise and dedication. Each project is a testament to our innovative strength and our commitment to creating solutions that offer real added value.
Our Projects
Steel Construction Complex for Automotive Gasoline Production
The engineering firm conducted the design and planning of a steel construction complex for automotive gasoline production at an industrial plant in Bavaria. The steel structure serves as the central support framework for the facilities where the production process occurs - from raw material supply to gasoline filling. The planning included a detailed site survey, creation of a digital 3D model, and structural calculations of all relevant components to ensure load-bearing capacity and durability. Specific manufacturing processes were defined, along with workshop drawings for steel component production and detailed assembly plans for efficient on-site erection.
Steam Boiler House, Bavaria
Our engineering firm undertook the comprehensive planning and design of a steam boiler house with a capacity of 100 tons of steam per hour for a site in Bavaria. The facility was designed for steam production with parameters of 1.3 MPa(i) and 195°C, and includes five boilers, each delivering 20 tons of steam per hour. In the first construction phase, three boilers will be installed, followed by two more in the second phase. The planning also included the installation of flue gas condensers behind each boiler to maximize system efficiency. The entire generated thermal energy—in the form of steam, network water, and hot water—is used to meet the technological demands of the site.
3-Story Shopping Center, Bavaria
The concrete structure comprises the load-bearing elements of the building envelope, including foundations, walls, floors, and roof. As part of the planning process, comprehensive surveys of the building site and the surrounding infrastructure were carried out. Based on this, a detailed 3D model of the structure was created to ensure the integration of all technical components and the precise execution of the construction project. The building's structural design was developed with consideration for regional conditions and the specific requirements of a high-traffic shopping center.
Renovation concept for the shopping center
The goal is to modernize the building's exterior appearance while simultaneously optimizing structural stability and energy efficiency. The steel structure is intended to support the new façade cladding, providing a lightweight yet robust framework that adapts to the existing building conditions and allows for flexible design. Our tasks included a detailed survey of the existing building and the creation of a digital 3D model to facilitate the development of structural calculations and workshop drawings. Based on this, we developed customized construction plans that enable the precise installation of the steel structure and façade elements, meeting the design requirements of the modernization project.
All Projects
Pipe bridge, Baden-Württemberg
This pipe bridge is designed to connect various production areas and to enable the safe routing of utility lines such as water, gas, and other media. The bridge not only improves logistics within the plant but also enhances the efficiency of production processes. It has been dimensioned to withstand high loads while meeting all required safety standards and environmental regulations.
Salt bunker, Bavaria
The Salt Bunker was planned as part of a new logistics and storage concept in Bavaria. The aim of the bunker is the safe and efficient storage of road salt for winter services. The bunker provides a weather-protected environment to ensure the quality of the salt while enabling quick access during the winter months. The construction, consisting of sheet metal and a substructure, ensures durability and resistance to the harsh weather conditions in the region.
Pipe bridge, Baden-Württemberg
For our client in the industrial sector, we designed and planned a new steel pipe bridge in Baden-Württemberg. This bridge enables the safe and efficient routing of pipelines and utility lines across existing infrastructure and significantly contributes to the optimization of production processes. Through careful integration into the existing environment, harmonious incorporation and maximum space utilization are ensured.
Dry cooling tower
For an industrial client, we designed a modern steel structure to house a dry cooling tower and coordinated its implementation. The construction project is located in Bavaria and was developed in close collaboration with the client to meet demanding requirements for efficiency, functionality, and cost-effectiveness. The facility is designed to ensure maximum cooling performance while adhering to ecological standards and minimizing energy consumption. Innovative construction methods and high-quality materials were used to create a durable and robust structure.
Cooling tower, Bavaria
Our engineering firm planned a steel structure for the expansion of a cooling tower at an industrial site in Bavaria. The goal of the project was to design a stable and durable construction that meets the specific environmental and operational requirements of the cooling tower. Key factors included precise integration with the existing buildings and strict adherence to safety standards. The structure was designed to withstand extreme weather conditions and the thermal loads generated during the operation of the cooling tower.
Building for food production
For a leading food production company, we carried out the planning of a modern steel production facility. The site in Hesse was designed according to the latest standards for hygiene, safety, and energy efficiency. The result was a customized building that effectively integrates both the complex requirements of food processing and the logistical demands of the production workflow.
Steam Boiler House, Bavaria
Our engineering office planned a steam boiler house for an industrial site in Bavaria, with a capacity of 16 tons of steam per hour per boiler. The three boilers operate at 1.3 MPa and 195°C, tailored to the site’s energy requirements. As part of the project, the old economisers were replaced and extended with a flue gas condenser section, cooling exhaust gases to 35–40°C. This improved energy recovery. In addition, all feed pumps were renewed, and a separate condensation circuit was implemented to preheat cold process water. The entire gas piping system was also recalculated and redesigned. In addition to surveying and modeling, all structural calculations as well as workshop and construction plans were prepared.
Renovation Concept of Steam Boiler, Bavaria
The project for replacing the blower of the steam boiler at the combined heat and power plant in Bavaria involved dismantling the old blower and installing a new blower system. The aim was to place the new unit on the existing foundations and connect it seamlessly to the existing boiler ducts in order to make maximum use of the existing infrastructure and conserve resources. Precise 3D scanning using point cloud technology enabled exact measurement of the existing structure, allowing millimeter-accurate placement of the new equipment and minimizing project costs for the client. The duct support system as well as additional maintenance areas for the new equipment were specially planned to ensure long-term operational safety and ease of maintenance. In addition, detailed models, static calculations, and comprehensive workshop and construction plans were created to ensure smooth dismantling and installation and to enable subsequent commissioning without delays.
Flue gas extraction renovation concept, Bavaria
Our engineering firm planned and supervised a project to replace the flue gas extraction system of a boiler in a Bavarian combined heat and power plant. The goal was to dismantle the old flue gas chamber and install a new system on the existing foundations. The existing service areas were preserved, and the new chamber was precisely connected to the existing boiler ducts. Using modern 3D scanning and point cloud technology, the exact placement of components was ensured, and project costs were optimized. A special support and suspension system for the new gas ducts guaranteed stability and functionality. The project included the site survey, creation of a 3D model, structural calculations, and detailed workshop and construction plans to enable efficient execution.
