Decreasing environmental impacts
Our energy production is primarily based on carbon dioxide-free hydropower, nuclear power and on energy-efficient combined heat and power (CHP) production. We are targeting a gigawatt-scale solar and wind portfolio to realise our vision of a cleaner world.
Facts and figures on environmental impacts in 2016
Sulphur dioxide & nitrogen oxide emissions
Our energy production plants originated sulphur dioxide (SO2) emissions 22,500 t, nitrogen oxide (NOX) emissions 26,000 t and particle emissions 16,800 t into air. 81% of sulphur dioxide, 82% of nitrogen oxide and 98% of particle emissions originated from Russian power plants.
Our plants generated a total of 46 million m3 of wastewater, of which 97% was released into the environment after being treated and 3% was piped to municipal wastewater treatment plants. Less than 1 t of oil was released into water systems with wastewater.
Ash and gypsum handling
Our power and heat production generated about 695,000 t of ash, 8,500 t of gypsum and 12,700 t of other desulphurisation product. The ash recycling rate was 37% and the gypsum recycling rate 100%.
Our operations in plants generated a total of 31,900 t of other waste, of which 2,700 t was hazardous waste.
Emissions into air
Flue-gas emissions causing local environmental impacts are generated from incineration at energy production plants. The EU has set very strict limits for flue-gas emissions, which necessitates the use of best available technology (BAT). Our nitrogen oxide, sulphur dioxide and particle emissions have decreased significantly in our European production over the past decades through fuel selections and various flue-gas cleaning technologies.
All our plants operate in compliance with the terms of their environmental permits. Currently, most of our plants meet the new emission requirements. We also have a world-class know-how in combustion technology. At Russian power plants, all emissions are limited in accordance with Russian legislation.
We use large volumes of water at various types of power plants and in district heating networks. In most cases, our power plants do not consume water, but water is discharged back to the same water system from where it was sourced. Only in some cases, water is transferred for example through evaporation into the air from cooling towers, by leakages into the ground from district heat piping, or through the discharge of wastewater to a municipal sewage system.
In hydropower production, water flowing in a river is conducted through a turbine to generate electricity, but water is not consumed or altered. The water system is often regulated for hydropower production and the regulation changes the water flow and level patterns compared to their natural state.
We withdrew a total of 2,322 million m3 of water in 2016. Seawater accounted for 66% of this amount - 1,533 m3 in total. We used the majority of the withdrawn water, 2,228 million m3, as cooling water.