Views: 0 Author: Site Editor Publish Time: 2024-09-10 Origin: Site
At Linuo ritter , we are committed to promoting the efficient utilization and sustainable development of industrial energy through innovative technologies.
【Dual System Circulation】
Our heat pump adopts advanced independent countercurrent high-efficiency heat pump dual system circulation technology. This design not only improves the thermal energy conversion efficiency, but also ensures the stability and reliability of the system.
【High-efficiency Compressor】
Equipped with a high-efficiency large-scale heat pump compressor, combined with multi-stage compression and low-pressure working fluid technology, our heat pump not only provides powerful power, but also achieves efficient use of energy.
【Single mechanism heat】
Our heat pump’s single mechanism heat can reach up to 10MW. This breakthrough performance index enables our heat pumps to meet the needs of the largest industrial production.
【Permanent Magnet Synchronous Direct Drive Motor】
Using a permanent magnet synchronous direct drive motor, our heat pump not only reduces energy consumption, but also improves the operating efficiency and ease of maintenance of the system.
【High Temperature Outlet Water】
The maximum outlet water temperature can reach 130℃. Whether in food processing, pharmaceutical manufacturing or other industrial fields that require high temperature heat energy, our heat pumps can provide a stable and reliable heat source.
【Excellent Energy Efficiency】
At a temperature difference of 30℃, the COP of our heat pump can reach up to 6.6, and at a temperature difference of 50℃, the COP can reach up to 3.6. These data fully demonstrate our leading position in energy efficiency.
This innovative technology of Linuo ritter not only represents our technical strength in the field of heat pumps, but also reflects our commitment to environmental protection and energy efficiency. We look forward to working with global industrial partners to jointly promote the green transformation of industrial thermal energy.
