Leading the Change in Climate Action for a Sustainable Future.
Climate Action

Measure our carbon footprint and implement a targeted carbon reduction strategy

Increase the use of renewable energy and enhance energy efficiency across our operations

Minimize the carbon footprint of our facade systems through sustainable innovation


Carbon Footprint
To establish a comprehensive carbon reduction strategy, we calculated the carbon footprint of facade element production in 2023, adhering to the GHG Protocol “A Corporate Accounting and Reporting Standard.”

Scope 1
Scope 1 covers direct emissions from: • Fossil fuel consumption • Vehicle operations under organizational control • The release of gases used during the processing of facade elements

Scope 2
Scope 2 encompasses indirect emissions from: • Purchased electricity

Scope 3
Scope 3 accounts for broader value chain emissions, including: Purchased goods and services, fuel- and energy-related activities, upstream transport and distribution, waste generated during business activities, travel and employee commuting, leased assets within the value chain, end-of-life processing of sold products.
Responsible Use of Energy

Monitoring Energy Consumption
Monitoring production machines is critical for optimizing production processes and managing energy use effectively. It also enhances control systems and helps identify potential energy losses or leaks. To support this, we are developing software for monitoring production machines, which is planned for future implementation.

Reduction of Natural Gas
We are reducing our reliance on natural gas for heating by introducing heat pumps. Additionally, we are transitioning from natural gas to electricity in our powdercoating processes to further minimize emissions.

Making Use of Waste Technological Heat
Waste technological heat is repurposed to heat production facilities during the winter months and to warm liquids used in specific production processes.

Energy Efficiency
Reducing energy consumption is a key focus, as it directly impacts CO2 emission reductions. We continuously invest in new technologies, replacing outdated machines with energy-efficient alternatives. Recent advancements include installing destratification devices, air curtains on sectional doors, a more efficient heating system, and modernized lighting systems.


Renewable Energy
In 2022, we installed a photovoltaic power generation system on the roof of our factory, meeting 34.4% of our electricity needs. In 2023, this solar plant generated a total of 1,033.284 MWh of energy. By the end of 2025, we aim to transition entirely to electricity sourced from renewable energy.
Sustainable product design
Recycled Materials
The climate impact of our facade systems is minimized by incorporating recycled materials such as aluminum, steel, and glass.
The share of recycled materials in our products varies based on client requirements and the global availability of these resources.
Transport and Logistic
To minimize greenhouse gas emissions from transportation, we actively monitor and optimize transportation routes. We also use reusable returnable pallets to reduce packaging-related waste and promote sustainable logistics practices.
Durability and Recyclability
Our facade elements are crafted from high-quality materials and modern technology, ensuring a lifespan of at least 60 years. To maximize durability, we provide clients with detailed maintenance instructions and offer refurbishment services for facade systems. Regular maintenance is strongly recommended to preserve their full lifespan.
Additionally, over 90% of the materials in our facade elements can be extracted and recycled at the end of their lifecycle. This process allows non-renewable resources, such as aluminum and steel, to re-enter the economy, supporting a circular approach to material use.