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Sustainable Technology and Its Impact on Climate Change (2/3)

by Momina Ahsan | 05-02-2024 23:45


    We throw the trash, unknowingly contributing to the death of thousands workers working in the yards

In the era, where technological or electric appliances are a necessity, have you ever come across the thought that where do all outdated, useless and obsolete appliances go? 

Ever since we bought our first mobile phone, we have used and thrown a few mobile phones. Likewise, we have gone through a few laptops and electric appliances. Sometimes, it was the need that contributed in purchasing the new gadget and the other times, it was the charm of latest iphone, latest android or laptop that made our heart throb, pushing us to purchase it. 

Ultimately, we all have gone through and contributed to e-waste. A lot of e-waste is shipped to Asia or Africa for ¡°recycling¡±. This may sound good, but in fact it¡¯s just an easy and cheap way to get rid of the enormous amounts of e-waste we generate. A lot of it is simply burned - often by children. Children working in the recycling yards are at an even higher risk for damaging their health than adults.

Alarmingly, ASIA and AFRICA is having the maximum children working in yards!!!!

If they are working in yards, aren't they HUMANS?

Thus, another big reason for us to consider e-waste recycling productively. 

How Sustainable Technology can help in Reduction of Climatic Impacts?

1. Energy Efficiency: Sustainable technologies prioritize energy efficiency, leading to reduced carbon footprints. Innovations such as energy-efficient appliances, smart grids, and renewable energy sources contribute to lower greenhouse gas emissions and overall environmental sustainability.
2. Green Building Technologies: The construction sector has embraced sustainable building technologies, incorporating features such as energy-efficient lighting, smart HVAC systems, and sustainable materials. These technologies play a pivotal role in reducing the environmental impact of buildings and lowering their overall carbon emissions.
3. Circular Economy: Sustainable technology promotes a circular economy by emphasizing the recycling and reuse of materials. Circular product design and manufacturing processes aim to minimize waste generation and maximize resource efficiency, thus contributing to a more sustainable and environmentally friendly production cycle.

E-WASTE - RISING SILENT CHALLENGE

1. The Rise of Electronic Devices

The rapid evolution of technology has led to an increase in the production and consumption of electronic devices. As a result, e-waste has become a significant environmental challenge, containing hazardous materials that pose risks to both human health and the ecosystem.

2. Environmental Impact of E-Waste

Improper disposal of e-waste contributes to pollution, soil contamination, and the release of harmful chemicals. To combat these issues, it is essential to address the entire life cycle of electronic products, from design and manufacturing to disposal and recycling. The consequences of improper e-waste disposal in landfills or other non-dumping sites pose serious threats to current public health and can pollute ecosystems for generations to come. When electronics are improperly disposed and end up in landfills, toxic chemicals are released, impacting the earth¡¯s air, soil, water and ultimately, human health.

  •      Contamination in the air occurs when e-waste is informally disposed by dismantling, shredding or melting the materials, releasing dust particles or toxins, such as dioxins, into the environment that cause air pollution and damage respiratory health. E-waste of little value is often burned, but burning also serves a way to get valuable metal from electronics, like copper. 
  • Chronic diseases and cancers are at a higher risk to occur when burning e-waste because it also releases fine particles, which can travel thousands of miles, creating numerous negative health risks to humans and animals.
  • Higher value materials, such as gold and silver, are often removed from highly integrated electronics by using acids, desoldering, and other chemicals, which also release fumes in areas where recycling is not regulated properly. 
  • The negative effects on air from informal e-waste recycling are most dangerous for those who handle this waste, but the pollution can extend thousands of miles away from recycling sites
  • The air pollution caused by e-waste impacts some animal species more than others, which may be endangering these species and the biodiversity of certain regions that are chronically polluted. 
  • Over time, air pollution can hurt water quality, soil and plant species, creating irreversible damage in ecosystems. For instance, an informal recycling hub in Guiyu, China that was formed by parties interesting in extracting valuable metals from e-waste, and subsequently has caused the region to have extremely high lead levels in the air, which are inhaled and then ingested when returned to water and soil. This can cause disproportionate neurological damage to larger animals, wildlife and humans in the area.
  •      Electronic waste contains toxic components that are dangerous to human health, such as mercury, lead, cadmium, polybrominated flame retardants, barium and lithium. 
  • The negative health effects of these toxins on humans include brain, heart, liver, kidney and skeletal system damage. 
  • It can also considerably affect the nervous and reproductive systems of the human body, leading to disease and birth defects. 
  • Improper disposal of e-waste is unbelievably dangerous to the global environment, which is why it is so important to spread awareness on this growing problem and the threatening aftermath. 
    To avoid these toxic effects of e-waste, it is crucial to properly e-cycle, so that items can be recycled, refurbished, resold, or reused. The growing stream of e-waste will only worsen if not educated on the correct measures of disposal.