Nexans Solar Technologies is an internal branch of Nexans, created in 2018 as part of the transition plan towards renewable energies, which aims at providing solutions, products, and services to energy producers and investors.
The solar tracker from KEYLIOS® is the first solution entirely conducted by Nexans Solar Technologies, from design to manufacturing. A major contract had already been signed with a prominent developer of photovoltaic projects and an energy supplier providing more than 800 of these solar trackers to be established on four solar facilities located in the southwest of France.
Dlubal customer Maderas Besteiro is a third-generation family-owned company focusing on timber-based construction and manufacturing. The company's driving value of providing socially and environmentally sustainable houses to the local community has shown itself once again.
The EGT Group’s new St. Georgen location was to have a future-oriented design, taking into consideration both energy efficiency and sustainability. The new four-story oval building consists mainly of timber and was constructed in just four short weeks.
In June 2018, a new and unique lookout tower by world-famous architect Martin Rajniš opened in the Prague municipal district of Kyje. When designing the tower, maximum emphasis was placed on the use of natural and renewable material.
The lookout tower structure is constructed with acacia logs 3.15 inches in diameter. The main supporting structure includes three legs, where a spiral staircase is also suspended. The tower legs are made of a lattice structure in the shape of an elongated barrel. At the top, the legs are interconnected with three steel hoops and a triangular steel structure.
The tower is 77.1 ft high with the observation platform located 65.5 ft above ground elevation. The observation tower can hold up to 9 people during typical operation.
In the Chinese province of Qinghai, near the city of Haixi, a complex of 23 multi-energy plants is being built, combining different technologies to generate energy from renewable resources. The complex comprises a 618.4-foot-high tower of the 50 MW solar power plant; the support structure is expected to be completed in mid-2019.
The solar power plant uses modern CSP (Concentrated Solar Power) technology, which enables the storage of thermal solar energy, thus ensuring continuous power generation even at night.
Isenmann Ingenieure from Haslach, a customer of Dlubal Software, was in charge of the structural planning. The calculation and design of the access core and the pile foundation made of reinforced concrete were performed in RFEM.
A student team from the Czech Technical University (CTU) in Prague took third place overall in the Solar Decathlon 2013, an engineering competition which is organized biennially by the U.S. Department of Energy. The competition challenged 20 collegiate teams from around the world to design, build, and operate an energy-efficient solar-powered house.
As the geothermal energy market is continuously increasing, BAUER Maschinen GmbH, a German company working in the field of specialist foundation engineering, has developed a new deep drilling rig. Dlubal Software's German customer Ing.-Büro H.-U. Möller was in charge of the plant's structural analysis. The system is used to make borings reaching to a depth of 22,965 ft in the area of geothermal energy, oil, or gas.
The South African energy provider Eskom is building one of the world's largest coal-fired power stations in Medupi, 248.5 mi north of Johannesburg; the station has 4800 MW of power.
One of the most modern power stations for energy production, based on renewable resources, can be found in Schwendi, Southern Germany. Following the design of Milan architect Matteo Thun, an architecturally sophisticated framework consisting of reinforced concrete, steel, and timber has been created.
A new boiler house has been built for the biomass power plant in Berlin-Neukölln, Germany.
The engineering office of Jürgen Ehlenz, a customer of Dlubal Software, was in charge of the structural analysis and design of the boiler house, including the connection design.
Within the P3 Project "Tower Constructions", students of Dortmund University in Germany designed and analyzed a solar chimney power plant.