Material-energy-water-carbon nexus in China's electricity generation system up to 2050.

Energy, water, and materials are interconnected in several ways. Increasing demand for resources combined with environmental, availability, accessibility, and security risks associated with their supply are raising concerns for their future sustainable management. Resources nexus and CO 2 emissions in China have been analysed using a dynamic material flow-stock model for 10 electricity generation technologies (EGT) and 21 materials. The analysis includes 10 scenarios, combining energy scenarios; National Development and Reform Commission (NDRC) and International Energy Agency (IEA-450), and scenarios for EGT materials content and energy, water, and CO 2 intensities. Cumulative energy, water, and CO 2 emissions associated with EGT materials production in NDRC scenario are double those in IEA-450 scenario. Annual energy required for materials is expected to be between 2.3% and 3.4% of annual EG. Highest water, energy, and CO 2 are related to PV and wind in NDRC scenario and hydropower and PV in IEA-450 scenario. Required Fe and concrete for EGT is much higher than Al, however energy, water, and CO 2 emissions associated with Al are either higher or slightly lower than Fe and concrete. Careful selection of EGT and their materials is significant to reduce EG impacts, and considering resources nexus is significant for future integrated resources policies. • Material-Energy-Water-Carbon nexus in China's EG system has been analysed using two energy scenarios. • Energy required for materials is expected to be 2.3% to 3.4% of generated electricity in China. • Highest amounts of water, energy, and CO 2 are related to PV solar and hydropower. • Energy, water, and CO 2 emissions related to Al are higher or slightly lower than Fe and concrete. • Careful selection of EGT and their materials is significant to reduce EG impacts. [ABSTRACT FROM AUTHOR]