Abstract
Solar photovoltaic (PV) has become the fastest-growing new energy in China and one of the main contributors to China’s clean energy transition. From 2013 to 2019, China’s solar PV installed capacity grew from 15,890 MW to 204,180 MW, increasing by 11.85 times. To explore solar PV investment changes across China regions, we use spatial shift-share analysis model to decompose solar PV investment changes from 2013 to 2019 into four components: national energy investment growth effect (NEG), national energy investment structure effect (NES), neighbor–nation solar PV investment competitive effect (NNC), and region–neighbor solar PV investment competitive effect (RNC). Based on the decomposition results, we find that the value of NNC of most western provinces is negative for the entire period, while the NNC of most central and eastern provinces is in the middle and lower range. There is little difference in RNC among these regions. While comparing the influence caused by the four effects, NNC and RNC play dominant roles in solar PV investment changes in eastern and central provinces, which means NEG and NES have relatively small impacts. By contrast, NEG and NES affect the solar PV investment changes at a larger scale in most western provinces. Comparing the NNC and RNC, we find that RNC played a prominent role in the eastern and central regions, while NNC played a dominant role in the west.
Highlights
In response to global warming, China puts forward two goals: “Emission Peak” and “Carbon Neutrality”, and these goals have received global attention
national energy investment growth effect (NEG) indicates how much the regional solar PV investment will grow if it increases at the growth rate of national total energy investment
As opposed to in the classical shift-share analysis (SSA) model, spatial SSA can be used to decompose a region’s solar PV investment growth into four effects: national energy investment growth effect (NEG), national energy investment structure effect (NES), neighbor–nation solar PV investment competitive effect (NNC), and region–neighbor solar PV investment competitive effect (RNC), which correspond to the four components in Equation (2)
Summary
In response to global warming, China puts forward two goals: “Emission Peak” and “Carbon Neutrality”, and these goals have received global attention. Solar PV investment shows a higher growth rate in most regions of China compared to hydropower and wind power, while the latter two sources of renewable energy both require relatively demanding conditions to generate electricity.
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