· Schneider Electric promotes the growth of various technologies in the energy industry.
· Schneider Electric’s innovative solutions ensure the future operators manage their energy consumption.
Clean energy is already here and more development and innovation are necessary. Companies who advocate decarbonization through centralized supply strategies now accept that they must adapt or face considerable risk of collapse. The collapse is inevitable in the low prices and stranded assets in the market. Schneider Electric reduces energy costs and impacts on the environment. This is through providing innovations like real-time automation, home automation and digital devices. Because of this, the company involves in the restoration of the Notre-dame de Paris for reopening in 2024.
Overhead fittings include devices used in the aerial construction of power lines. They stabilize electricity supply and protect people and public facilities safety. Overhead line fittings assure the electric current flow through the main lines. they ensure that they the overhead devices do not flow to the earth. These devices include pole bands, secondary rack, stay wire and stay rod assembly.
Schneider Electric for sustainability
Schneider electric’s devices and solutions have a design that drives energy efficiency and sustainability across different applications and industries. They enable the efficient use of energy resources and supports the green transition. Overhead line fittings ensure the electric current flows in a straight line. The various technologies by Schneider Electric are as follows:
1. Solar power systems
The company offers a range of solar solutions like inverters, charge controllers and monitoring systems. Such solutions enable the integration of solar energy into existing energy systems. They also reduce the reliance on fossil fuels and drive towards energy sustainability.
2. Building management systems (BMS)
Building management systems use real-time data to track and control building systems. They control systems like lighting, heating, ventilation and air conditioning. The BMS solutions help to reduce energy consumption and costs and improve productivity. Overhead line fittings work with other fittings such as bolts, nuts and washers for secure connections.
3. Data center energy management systems
The company’s data center energy management systems use advanced analytics and automation to optimize energy usage in data centers. The systems identify areas of energy waste and adjusts energy consumption in real-time. These systems reduce energy consumption and costs for the buildings and other areas.
4. Energy storage systems
Schneider’s energy storage systems enable the efficient storage and use of renewable energy sources like solar and wind power. These systems store energy during peak production times and releases it during the periods of high demand. They also help balance the grid and reduce the energy costs. Overhead line fittings are also known as pole line hardware or utility pole hardware.
5. Smart thermostats
Thermostats use advanced algorithms and sensors to learn and adapt to occupants’ behavior and preferences. They automatically adjust the temperature and reduce the energy consumption. This results in significant energy saving and improve comfort.
6. Electric vehicle charging solutions
Schneider Electric offers a range of electric vehicle charging solutions. These include faster chargers for public and commercial use. Such solutions help support the transition to electric vehicle transportation and reduce greenhouse gas emissions. Overhead line hardware is from galvanized materials that help resist rust and corrosion.
The role of lighting in building automation
Lighting affects the energy consumption of a building. It also affects the comfort and productivity of its occupants. Building automation uses lighting control to adjust the light level and color temperature to meet the needs of the space. Overhead line fittings protect the conductors from external damages. Below is some of the ways lighting integrates into building automation.
· Daylight harvesting
This is a technique used to take advantage of the natural light in a space and reduce the need for artificial lighting.
· Time scheduling
Time scheduling automatically turn lights on and off at specific times of the day or week. This helps reduce energy consumption by ensuring that lights are on only when needed.
· Occupancy sensors
These are only used to detect the presence of people in a space and adjust lighting accordingly.
· Energy monitoring
Energy monitoring tracks energy usage in real-time and identify areas where energy efficiency can improve.