Here, Marcin Bala, CEO of telecommunication networks specialist Salumanus, explores the challenges posed by e-waste in telecommunications.
According to the UN’s Global e-waste monitor 2024, a record 62 million tonnes (Mt) of e-waste was produced in 2022, up 82 per cent from 2010. Meanwhile, less than one quarter (22.3 per cent) of the year’s e-waste mass was documented as having been properly collected and recycled. Unless urgent action is taken, e-waste generation is projected to reach 82 million tonnes by 2030.
Telecommunication equipment, including networking gear, antennas and cables, contributes significantly to this e-waste stream. As older technologies become obsolete and newer, more efficient systems are deployed, outdated equipment is often discarded, adding to the growing e-waste burden.
The incorrect equipment recycling poses not only financial risks, but it can also directly affect the environment and human health. For example, incineration or landfilling, release harmful toxins and pollutants into the environment, contaminating soil, water and air. Substances like lead, mercury and cadmium found in electronic devices can leach into the ecosystem, damaging to human health and wildlife. One of the most dangerous substances, mercury is known to cause brain damage and issues with the human coordination system.
Furthermore, the inefficient recycling of e-waste results in the loss of valuable resources. Many electronic components contain precious metals like gold, silver and copper, which can be recovered and reused. However, without proper recycling infrastructure and processes in place, these resources are often lost or underutilised. According to the Global E-waste Monitor research, the estimated value of metals embedded in e-waste rises to 91 billion US dollars, of which 19 billion US dollars is copper alone.
At the heart of the e-waste issue lies a deeply ingrained culture of landfill disposal driven by convenience and lack of awareness about proper disposal methods. What can governments and telecom companies do to tackle this problem?
Governments play a critical role in addressing e-waste in the telecommunications industry through various actions. Firstly, implementing stringent regulations and policies can compel telecom companies to adopt sustainable practices in product design, manufacturing, and disposal. This could include mandatory recycling programs, extended producer responsibility (EPR) laws, and restrictions on hazardous materials in electronic devices. Additionally, governments can incentivise the development and adoption of eco-friendly technologies and processes through tax breaks, grants, or subsidies.
Positive change towards a more sustainable industry starts at the product design stage. Adopting design principles such as modularisation and using recyclable or biodegradable materials can significantly reduce the environmental impact of electronic devices. Modular design allows for easier disassembly and component replacement, extending the lifespan of products and facilitating repair and recycling efforts.
Similarly, choosing recyclable or biodegradable materials for products facilitates eco-friendly disposal, reducing e-waste in landfills. Integrating sustainability into design helps telecom companies support a circular economy and shrink their ecological impact.
Another crucial step towards tackling e-waste is implementing robust recycling programs. Telecom companies can establish comprehensive initiatives for consumers to responsibly dispose of old devices, diverting them from landfills. Incentives like discounts or free recycling services encourage participation and promote responsible e-waste management.
Partnering with certified recycling facilities ensures proper processing, maximising resource recovery and minimising environmental harm. Effective recycling programs contribute to a more sustainable, circular economy by closing the loop on product lifecycles.
While these changes will require longer-term regulatory and perhaps cultural changes in the approach to e-waste, there are some short-term actions the telecom industry can take now. For example, universal transceivers present a promising solution to mitigate e-waste in the industry. These versatile devices are designed to support multiple wireless communication standards, consolidating the functionalities of several separate components into a single unit.
By adopting universal transceivers, telecom companies can streamline their infrastructure, reducing the number of devices deployed and minimising the need for frequent upgrades or replacements. The flexibility and scalability of universal transceivers enable telecom networks to adapt to evolving technologies without significant hardware changes, extending the lifespan of equipment and reducing e-waste generation.
Salumanus has recently released a new version of its innovative Smart Recode Device (SRD), in its fifth version. The SRD 5 introduces the ability to program advanced interfaces such as OSFP (400G/800G/1.6T), QSFP-DD (400G/800G) and SFP-DD (100G) to create universal optical transceivers. The device is supported by a private cloud with a continuously updated compatibility database.
With a variety of engineering environments in mind, the SRD 5 offers a wide range of power options, from traditional power supplies to power banks to USB-C power. This approach ensures uninterrupted operation even in locations with limited access to power sources. By dispensing with sockets for legacy interfaces, it has also been possible to significantly reduce the size of the device.
Addressing the issue of e-waste in the telecommunications industry requires a multifaceted approach involving product design, recycling programs, and the adoption of innovative technologies such as universal transceivers. Embracing these strategies represents a collective effort to minimise the environmental impact of the telecom sector while fostering innovation and sustainability.
To find out more about the SRD 5 from Salumanus or to learn about the company’s approach to sustainability, visit www.salumanus.com.
About Salumanus UK: Salumanus is a leading distributor and provider of network infrastructure solutions. It specialises in providing network infrastructure elements and systems for data transmission in fibre optic, wireless and copper-based networks. Its mission is helping clients find the best possible solutions to meet the requirements of the fast-changing telecommunications world.
Patti Jo Rosenthal chats about her role as Manager of K-12 STEM Education Programs at ASME where she drives nationally scaled STEM education initiatives, building pathways that foster equitable access to engineering education assets and fosters curiosity vital to “thinking like an engineer.”