In connection with the current sanitary and epidemiological situation, climate change and the implementation of the National Action Plan to prepare for climate change, the active actions of the country's leadership, as well as the efforts of the world community to reduce anthropogenic emissions into the atmosphere and increase the sanitary and epidemiological safety of the population.
In connection with the efforts of those responsible for making decisions on the management of social and business infrastructure, to improve energy efficiency and save energy resources, as well as the implementation of measures to improve the sanitary and hygienic conditions of the infrastructure of the residential environment and social, cultural and domestic facilities.
We would like to draw your attention to available modern technologies for increasing energy efficiency and improving the sanitary and epidemiological situation at the facilities you manage. To save electricity costs, eliminate non-production costs, increase productivity, increase sanitary and epidemiological safety and improve working and leisure conditions for people, we invite you to consider the issue of modernizing engineering systems, namely:
1. Re-equipment of lighting facilities and installation of an intelligent lighting control system, which has a significant margin for improving energy efficiency;
2. Integration into existing ventilation and air conditioning systems of sterilizing lamps that disinfect the air using ultraviolet radiation and neutralize many bacteria, viruses and other microorganisms.
The proposed initiatives are the most effective technologies for increasing energy efficiency and improving sanitary and hygienic conditions, ensuring a safe video environment and air safety in terms of microbiological indicators in order to reduce the risks of the spread of infections accepted in global and domestic practice.
One of the areas of activity of the research and production association "Teslar" is modern lighting solutions and lighting systems of any complexity for any projects. The products show industry-leading values for energy efficiency, safety of use and a record long service life of lamps (10 years or more without a drop in luminous flux over time). The energy efficiency of our lamps is 170-200 Lm/W, and the pulsation level is 0%. High quality characteristics and unique properties are ensured by the use of the best available technologies and nanomaterials. The "Light Source Comparison Table" in the appendix to this letter will help you draw informed conclusions.
The range of lamps allows their use both in the infrastructure of a residential environment and in industrial facilities. For indoor and outdoor use. Teslar lamps are designed to be safe for humans, that is, they have biologically adequate light, comply with all requirements and recommendations of photobiological safety, are made from environmentally friendly materials and have a long useful life. The light source comparison table attached to this letter indicates the main advantages of the proposed lighting equipment over analogues available on the market.
The lamps are designed for safe and resource-efficient lighting of any areas, objects and premises. Suitable for both industrial and special applications, as well as for lighting the infrastructure of the residential environment and social, cultural and domestic facilities, such as: kindergartens and schools, clinics and hospitals, administrative and business buildings, cultural and leisure centers, reading rooms, offices and work rooms, sports and health centers, canteens and many others.
A fundamental reduction in energy costs and operating costs for maintenance, replacement and disposal of outdated lamps makes it possible to quickly pay off projects for reducing energy consumption and environmental modernization. The telematic lighting control system is easy to manage, has a low cost (compared to similar systems) and maximum service provided, allowing you to further reduce energy consumption by up to 40% and reduce the cost of monitoring and maintaining illuminated objects. Its main functionality is presented in the review attached to this letter.
The investments made will make it possible to bring illuminated objects to a fundamentally new level of energy consumption and its control, as well as significantly reduce consumed resources and transfer the operation of a building or complex to the principles of reasonable use of electricity and energy saving. The result is guaranteed in the form of reduced costs for electricity and operation of lighting equipment.
In addition to the obvious benefits of reducing energy costs and increasing productivity, your visitors and tenants will always be calm and not feel discomfort. Innovation has great significance