We are a global leader in the manufacture and supply of chassis and spare parts for the world's leading heavy machinery manufacturers and the aftermarket, with the goal of reducing the environmental impact of their production. This has prompted our factories to begin optimization to meet environmental sustainability standards in the coming years.
The transformation will be implemented under a three-year roadmap to reduce CO₂ emissions by 2,500 tonnes per year and natural gas consumption by 13% annually. It is estimated that the implementation of various energy efficiency initiatives will lead to a reduction in electricity consumption of approximately 3 million kWh per year.

In the first phase of deploying more energy-efficient equipment and a new modular heating system, the primary focus is on reducing the energy consumption of all machines on the production lines. To this end, the actual usage of each machine has been analyzed in terms of relative productivity. As a result, outdated, highly energy-intensive equipment is being dismantled and, where necessary, replaced with new equipment that has a lower impact on consumption. The new modular heating system will be commissioned next winter. Natural gas consumption is expected to decrease by 13% in the first year of operation, leading to a reduction in atmospheric CO₂ emissions of up to 2,500 tonnes. In order to reduce natural gas consumption for production and heating of the entire complex (heating is powered by natural gas and electricity), we have decided to replace the single 20 MW thermal power station with a series of modern, localized thermal energy sources. Decentralization of compressed air and electricity for the production and distribution of energy-efficient compressed air is widely adopted across all production stages—a process that has always been particularly energy-intensive in terms of kWh. In this case, the slogan is decentralization: large systems with centralized compressors are being replaced by compressors located in different production areas. Compared with the average consumption level over the past three years, annual savings of around 2.5 percent are expected. In addition, decentralized electricity distribution will ensure more efficient energy use, and the new system will meet the specific needs of each sector. The potential use of photovoltaic panels is also being evaluated. Activities related to compressed air production and distribution, cooling loop modernization and distribution system restructuring are expected to result in an annual reduction in electricity consumption of approximately 3 million kWh upon project completion. Water demand is low, and wastewater is non-separable. Currently, our factories consume approximately 300,000 cubic meters of water per year. This water is sourced directly from the Pu River and is mainly used in the plant's cooling loops. At present, the cooling loop is closed and constructed with a cooling tower, which cools the water through heat exchange with ambient air before recirculating it back into the system. Nevertheless, these systems will be the subject of future analysis, and several studies are already in an advanced stage to assess key actions for the implementation of decentralized plants in the near future. This will not only reduce energy intensity but also decrease water dispersion through evaporation due to the tower's new configuration, which will require less water to be integrated into the system. In addition to reducing energy consumption, in recent years we have also been working to recycle as much steel as possible. The achievement of this goal has been facilitated by the careful regulation of production processes, which allows for the optimal sorting and separation of production waste and prevents the transfer of non-separable waste.