Meeting Global Cooling Demand with Photovoltaics during the 21st Century
Hannu S. Laine, Jyri Salpakari, Erin E. Looney, Hele Savin, Ian Marius, Peters, Tonio Buonassisi

TL;DR
This study assesses the potential for photovoltaic (PV) systems to meet the rising global cooling demand in the 21st century, highlighting significant capacity growth and increased synergy between PV and cooling needs.
Contribution
It provides the first global assessment of how the residential cooling sector can enable increased PV capacity and explores the role of storage in enhancing PV's contribution to cooling.
Findings
PV could enable an additional 540 GW capacity today.
Global cooling could sustain 20-200 GW of PV annually.
Without storage, PV could power about 50% of cooling demand, increasing to 70% with thermal storage.
Abstract
Space conditioning, and cooling in particular, is a key factor in human productivity and well-being across the globe. During the 21st century, global cooling demand is expected to grow significantly due to the increase in wealth and population in sunny nations across the globe and the advance of global warming. The same locations that see high demand for cooling are also ideal for electricity generation via photovoltaics (PV). Despite the apparent synergy between cooling demand and PV generation, the potential of the cooling sector to sustain PV generation has not been assessed on a global scale. Here, we perform a global assessment of increased PV electricity adoption enabled by the residential cooling sector during the 21st century. Already today, utilizing PV production for cooling could facilitate an additional installed PV capacity of approximately 540 GW, more than the global PV…
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Taxonomy
TopicsSolar Radiation and Photovoltaics · Energy and Environment Impacts
