1. Cool roof coating impact on roof-mounted photovoltaic solar modules at texas green power microgrid.
- Author
-
Rahmani, Fatemeh, Robinson, Mark Alan, and Barzegaran, M.R.
- Subjects
- *
MICROGRIDS , *ENERGY development , *BATTERY storage plants , *SOLAR cells , *POWER resources , *METAL coating , *DWELLINGS , *EVAPORATIVE cooling - Abstract
• Thermal analysis for modules to calculate the photovoltaic energy balance equation. • Monitoring the features of solar cells to arrange the modules on the cool/hot roofs. • Reducing the cooling load by comparing power efficiency of cool and hot surfaces. • Comparing each cool/hot module performance based on the load and battery operation. Cool-roofing is effective in reducing cooling load and increasing the energy balance of buildings with high solar reflectance throughout the cooling season. This article proposed a large-scale of a resilient Microgrid, along with comprehensive thermal analyses for residential building, focused on cool roof-mounted solar photovoltaic system. This project boosts generated power while circumventing a voided warranty issue with the roof temperatures. A white silicone coating on the metal roof with 186 solar photovoltaic 330-W modules were applied to supply solar energy, utilizing a DC-coupled system that features nine 5 kW inverters each with a maximum system input of 600V dc and 92 batteries with 225.216 kWh energy storage. Upon the completion of the project, the input and output voltages produced by the inverters daily/monthly, along with the battery energy storage, were monitored and authenticated with thermal modeling calculations. Moreover, cool-roof benefit to reduce the solar cell thermal voltage and module/roof heat flux based on the conductive coefficient was evaluated. As a result, solar power efficiency was improved by 10.4%, producing 294.6 kWh of solar energy despite system losses, and the roof temperature was reduced by 3.82°F, increasing 1.91% of output power. Lastly, the comparison study of cool/hot solar power systems proved that cool-roof application significantly enhances safety, sustainable energy development, and building comfort when globally applied. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF