Sustainability

We believe that meeting our customers’ energy needs can go hand in hand with meeting the needs of our communities and our planet.

At Elsewedy Electric, sustainability is at the core of everything we do. For over 80 years, we have been committed to harmonizing our customers’ energy needs with the well-being of our communities and the planet. Our goal is to create shared value while minimizing any potential negative impacts of our operations.

 

Across our group, every subsidiary plays a role in enhancing efficiency and reducing carbon footprints. With a workforce of 19,000 employees, we foster a culture of sustainability, emphasizing respect for the planet and its finite resources.

 

Our Renewable Energy division exemplifies this commitment by delivering wind and solar energy solutions across sub-Saharan Africa, the MENA region, and Eastern Europe. As passionate advocates for renewable energy, we are driving the transition to cleaner, greener power.

 

Through an integrated business model, we focus on comprehensive, long-term solutions that deliver meaningful impact. Guided by transparency, ethical governance, and a steadfast dedication to improving lives, we empower employees, nurture young talent, and uplift local communities. Together, we are shaping a brighter, more sustainable future for generations to come.

Structured cabling is the passive infrastructure that supports the transmission of data, voice, and video signals in a building or campus. It consists of various components, including twisted pair cables, fiber optic cables, and cable accessories. Twisted pair cables are the most common type of cabling used in structured cabling systems. They are composed of two insulated copper conductors that are twisted together to reduce electromagnetic interference (EMI). The most common types of twisted pair cables used in structured cabling are UTP (Unshielded Twisted Pair) and FTP (Foiled Twisted Pair). Fiber optic cables are another type of cabling used in structured cabling systems. They are made up of glass or plastic cores that transmit light signals. Fiber optic cables are generally used for long distances or high-bandwidth applications. Structured cabling systems typically include a variety of components, such as closures, patch panels, outlets, modules, racks, and cabinets. Closures are used to terminate and splice cables. Patch panels are used to connect cables to other network devices. Outlets are used to provide access to the network for end users. Modules are used to connect cables to patch panels. Racks and cabinets are used to house and organize cabling components. The type of cabling and components used in a structured cabling system will depend on the specific needs of the network.