Copper is a naturally-occurring element in the environment. It is present in the earth’s crust, in oceans, lakes and rivers, from minute trace element levels through to rich mine deposits. Far from being harmful, it is essential to life – plants, fish, animals and humans all need copper to function properly.
Copper is Naturally Present in all Environments
Copper is naturally present in all waters, sediments and soils. In fact, if a soil contains insufficient levels of copper, it cannot sustain productive arable farming. The world’s two most important food crops – rice and wheat – will not thrive in copper-deficient soil, leading to losses in yield and lower-quality outputs.
In Europe, 18 million hectares of cultivated soils (equivalent to 19% of arable land) are believed to be deficient in bio-available copper. To compensate for this, it is common practice to replenish soils with copper-enriched fertilisers and copper sulphate treatments.
Copper is natural, fully recyclable, corrosion resistant, durable and hygienic. It is not persistent, bio-accumulative or toxic to the environment under normal conditions of use. A comprehensive risk assessment – voluntarily undertaken by the copper industry, and covering the production, use and end-of-life aspects of the copper value chain – shows that the existing legislative framework generally safeguards Europe’s environment, the health of industry workers and the general public.
Copper Helps to Reduce Harmful Carbon Emissions
Europe’s sustainable energy future depends on a partnership between energy efficiency and renewable energy. The more efficiently energy services are delivered, the faster renewable energy can become an effective and significant contributor in primary energy production.
Copper is an essential material in building the energy systems of the future. It plays an important role in renewable energy systems, such as solar, wind, tidal, hydro, biomass, and geothermal. Copper is the most highly rated thermal and electrical conductor among the metals used in infrastructure and product design. Power systems utilising copper generate, transmit and use energy with higher efficiency, thus reducing greenhouse gas emissions and optimising life cycle costs.
Did you know that the average percentage of copper in the earth’s crust is 0.005%?
Copper is present in the earth’s crust, in oceans, lakes and rivers, from minute trace element levels through to rich mine deposits.
Increasing the diameter of a copper conductor can reduce harmful carbon emissions. Associated benefits may include high environmental payback factors, reductions in system life cycle costs and 100% end-of life recyclability.