Renewable Energy Sources (RES)
De-fossilizing the chemical industry with the use of renewable energy sources (RES) is an important driver for transformation since RES can energize the industry without the associated GHG emissions that result from burning fossil fuels. The installation of RES in facilities where electricity costs are high and energy supply is usually cut, especially in countries with less developed industrial facilities, can have a tremendous positive impact on the reduction of emissions but also on the reduction of adaptation costs as well as the possibility to provide energy without dependency on the main energy grid. RES can be easily deployed on small scales, and prices of manufacturing and implementation are decreasing. They are currently one of the best options for small businesses to eliminate the use of fossil-based energy sources. However, technical challenges need to be considered as existing facilities were designed to be powered by conventional energy sources. Therefore, RES remains a strong option but technological changes are needed as other technologies including catalysts, reactors, boilers, and other production elements would need to be adapted.
Stage of Life Cycle
Overarching
GHG Reduction Potential
The emission factor of wind turbines CO2eq for a European onshore unit is 6 g of CO2eq per kWh in comparison to 78 g CO2e from using natural gas.
Solution Maturity Status
Well Established:
This technology has been operating for a number of years and is well-known/ successful in its industry or market.