this post was submitted on 22 Oct 2024
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The theoretical explanation:
In essence, the heat that would be absorbed by the building (requiring more energy for cooling the interior) is instead absorbed by the panels and conducted to the surrounding air which creates a convective heat exchange cycle on a city wide scale. It would be interesting if this were compared to awnings (and pegodas) that have been in use for centuries for passive cooling of space in and around buildings.
Further, It seems like this would call for the use of phase changing material to absorb the heat from the back of the solar panels which would reduce this intensification of the urban heat island effect as the heat energy would be use in the phase change process during the day and slowly released in the reverse phase change at night without conducting more heat into the building.
None of this seems to have any real consequence on the global warming effects of greenhouse gasses (primarily natural gas [methane] and Carbon Dioxide). But it is a more accute concern that is more likely to be addressed through local ordinances, laws, and regulations.
Also, the paper casually mentions how rooftop solar reduces the cooling load of the building. What I didn't see acknowledged was that that extra cooling load (presumably traditional A/C) on a building without rooftop solar moves the heat out of the building into... (drum roll), the surrounding environment. So... the heat still got to the surrounding environment, it just took a longer path to get there.