TY - JOUR
T1 - The hourly life cycle carbon footprint of electricity generation
in Belgium, bringing a temporal resolution in life cycle assessment
AU - Messagie, Maarten
AU - Mertens, Jan
AU - Da Quinta E Costa Neves De Oliveira, Luís Miguel
AU - Rangaraju, Surendraprabu
AU - Coosemans, Thierry Clement
AU - Van Mierlo, Joeri
AU - Macharis, Cathy
PY - 2014
Y1 - 2014
N2 - In the booming research on the environmental footprint of, for example, electrical vehicles, heat pumps and other (smart) electricity consuming appliances, there is a clear need to know the hourly CO2 content of one kW h of electricity. Since the CO2 footprint of electricity can vary every hour; the footprint of for example an electric vehicle is influenced by the time when the vehicle is charged. With the availability of the hourly CO2 content of one kW h, a decision support tool is provided to fully exploit the advantages of a future smart grid. In this paper, the GWP (Global Warming Potential) per kW h for each hour of the year is calculated for Belgium using a Life Cycle Assessment (LCA) approach. This enables evaluating the influence of the electricity demand on the greenhouse gas emissions. Because of the LCA approach, the CO2 equivalent content does not only reflect activities related to the production of the electricity within a power plant, but includes carbon emissions related to the building of the infrastructure and the fuel supply chain. The considered feedstocks are nuclear combustible, oil, coal, natural gas, biowaste, blast furnace gas, and wood. Furthermore, renewable electricity production technologies like photovoltaic cells, hydro installations and wind turbines are covered by the research. The production of the wind turbines and solar panels is more carbon intensive (expressed per generated kW h of electricity) than the production of other conventional power plants, due to the lower electricity output. The overall average GWP per kW h is 0.184 kg CO2eq/kW h. Throughout the 2011 this value ranges from a minimum of 0.102 kg CO2eq/kW h to a maximum of 0.262 kg CO2eq/kW h depending on the timing.
AB - In the booming research on the environmental footprint of, for example, electrical vehicles, heat pumps and other (smart) electricity consuming appliances, there is a clear need to know the hourly CO2 content of one kW h of electricity. Since the CO2 footprint of electricity can vary every hour; the footprint of for example an electric vehicle is influenced by the time when the vehicle is charged. With the availability of the hourly CO2 content of one kW h, a decision support tool is provided to fully exploit the advantages of a future smart grid. In this paper, the GWP (Global Warming Potential) per kW h for each hour of the year is calculated for Belgium using a Life Cycle Assessment (LCA) approach. This enables evaluating the influence of the electricity demand on the greenhouse gas emissions. Because of the LCA approach, the CO2 equivalent content does not only reflect activities related to the production of the electricity within a power plant, but includes carbon emissions related to the building of the infrastructure and the fuel supply chain. The considered feedstocks are nuclear combustible, oil, coal, natural gas, biowaste, blast furnace gas, and wood. Furthermore, renewable electricity production technologies like photovoltaic cells, hydro installations and wind turbines are covered by the research. The production of the wind turbines and solar panels is more carbon intensive (expressed per generated kW h of electricity) than the production of other conventional power plants, due to the lower electricity output. The overall average GWP per kW h is 0.184 kg CO2eq/kW h. Throughout the 2011 this value ranges from a minimum of 0.102 kg CO2eq/kW h to a maximum of 0.262 kg CO2eq/kW h depending on the timing.
KW - Environment
KW - Life Cycle Assessment
KW - Carbon footprint
KW - electricity
KW - climate change
M3 - Article
VL - 134
SP - 469
EP - 476
JO - Applied Energy
JF - Applied Energy
SN - 0306-2619
ER -