Solar power is an abundant, low carbon source of electricity, but historically it has been more expensive than traditional electricity. With solar costs dropping dramatically, many people are starting to ask: does solar power make sense on my rooftop? In my town or state? Since its initial launch in 2015, Project Sunroof has used imagery from Google Maps and Google Earth, 3D modeling and machine learning to help answer those questions accurately and at scale. For every building included in the data, Project Sunroof calculates the amount of sunlight received by each portion of the roof over the course of a year, taking into account weather patterns, position of the sun in the sky at different times of year, and shade from nearby obstructions like trees and tall buildings. Finally, the estimated sunlight is translated into energy production using industry standard models for solar installation performance.
Project Sunroof county-level coverage from 2015 - 2017
Today, Project Sunroof is helping answer those questions for more places than ever, with an expansion that brings Project Sunroof’s data coverage to every state in the U.S, with a total of approximately 60 million buildings analyzed. The expanded data reveals some fascinating insights about the solar energy opportunity nationwide:Seventy-nine percent of all rooftops analyzed are technically viable for solar, meaning those rooftops have enough unshaded area for solar panels.Over 90 percent of homes in Hawaii, Arizona, Nevada and New Mexico are technically viable, while states like Pennsylvania, Maine and Minnesota reach just above 60 percent viability. Houston, TX has the most solar potential of any U.S. city in the Project Sunroof data, with an estimated 18,940 gigawatt-hours (GWh) of rooftop solar generation potential per year. Los Angeles, Phoenix, San Antonio, and New York follow Houston for the top 5 solar potential cities -- see the full top 10 list in the chart below.
To put the rooftop solar potential into perspective, the average U.S. home consumes 10,812 kilowatt-hours (kWh) a year according to EIA. There are one million kWh in one gigawatt-hour (GWh). O