Study published in Nature quantifies for the first time past and future country cost savings to the solar industry from globalized supply chains
The world will need to deploy renewable energy at an unprecedented speed and scale in the future to reduce carbon emissions that are driving climate change. The option of solar energy promises to play a crucial role in achieving a sustainable, low-carbon energy future, especially if the price of production continues to decline as it has over the last 40 years.
A new study published in Nature by a team of scientists including Gang He, PhD, Assistant Professor in the Department of Technology and Society in the College of Engineering and Applied Sciences at Stony Brook University, supports this concept. Findings from the paper reveal that the globalized supply chain of solar photovoltaics saved countries $67 billion in solar module production costs. The study also found that if strong nationalistic policies that limit the free flow of goods, talent and capital are implemented going forward, solar panel costs will be much higher by 2030.
This study is the first to quantify the cost savings of a globalized value chain for the solar industry. Its findings come at a time when many countries have introduced policies that would nationalize renewable energy supply chains in a bid to benefit local manufacturers. Policies such as imposing import tariffs could complicate efforts to accelerate deployment of renewables like solar by raising the cost of production, the study’s researchers said.
“Our research shows international collaboration is key to address global climate change,” said He, the paper’s corresponding author. “Nationalistic policies hurt every country and risk missing pressing climate targets. International climate policy benefits from a globalized low-carbon value chain, however, it is important to introduce complementary policies to mitigate welfare distribution effects and potential impacts on technological crowding-out.”
He estimates that according to the team’s findings unit solar module prices in 2030 would be approximately 20 to 25 percent higher in each country if transit to be manufactured domestically compared to a future with globalized supply chains.
The study looked at historically installed capacities as well as input material and sales price data for solar modules deployment in the U.S., Germany and China—the three largest solar-deploying countries. The research team estimated that a globalized solar supply chain saved the countries a combined $67 billion—$24 billion in savings for the U.S., $7 billion in savings for Germany and $36 billion in savings for China from 2008 to 2020. Had each of the three countries adopted strong nationalistic trade policies that limited cross-border learning over the same time period, solar panel prices in 2020 would have been significantly higher—107% higher in the U.S., 83% higher in Germany, and 54% higher in China—the study found.
“What this study tells us is if we’re serious about fighting climate change, policymakers need to implement policies that promote collaboration across global value chains with regard to scaling up low-carbon energy technologies,” said John Helveston, lead author of the study and Assistant Professor of Engineering Management and Systems Engineering at the George Washington University. “While this study focuses on one industry—solar—the effects we describe here are applicable to other renewable energy industries, such as wind energy and electric vehicles.”