That's what they said before the Titanic left Southampton bound for New York.houlahound said:
Apparently they did not, because the claims they make are (a) not backed by prototypes and (b) ridiculous. If that concept would have any chance, we would have solar panels everywhere already, but not on roads.houlahound said:
70*2.5 meters with approximate 2 hours of vertical sunshine per day would give a theoretical sunshine of 5600 kWh. Harvesting 140 kWh of that is a tiny amount, so the cells are quite inefficient.houlahound said:
houlahound said:
We currently put panels on buildings and in solar farms, where they are oriented correctly, stay clean, are unshaded, no structural loading ( barring wind and self weight), and can be maintained without causing congestion. Some systems even rotate to follow the sun as it moves across the sky.houlahound said:
Clean air does have a cost.houlahound said:
Apart from the tourist attraction all of those things also apply to rooftops, and we are far away from using all the good spaces there, because we are also far away from building and installing them cheap enough to survive without massive subsidies. Using them on roads would be much more expensive.houlahound said:
I'm not willing to believe without data that a "non-slip surface" on glass can be both transparent and provide good traction. Rubber on glass can be high friction when dry, but when wet, the friction drops pretty close to zero.
I wouldn't. It is a fad in Philly to put these clever little stationary sculptures also known as vertical axis wind turbines above the entrances to buildings and around the rim of stadiums. They look nice and green on the website, but they are the but of jokes to the actual visitors, who rarely ever see them spin.
The word "faddish" says it all. It's definitely not an attractive engineering proposition. I once saw, in a second hand shop, a gents' trouser press with a radio on it - a similar waste of time.russ_watters said:
Roads can be equipped with solar panels that are specifically designed to withstand the weight of vehicles and the wear and tear of daily use. These solar panels convert sunlight into electricity, which can then be used to power nearby buildings or feed into the grid.
There are several benefits to using roads as solar cell collectors. Firstly, roads are already existing infrastructure, so there is no need for additional land use. Additionally, by utilizing roads as solar collectors, we can generate renewable energy in areas that may not have available land for traditional solar farms. Finally, using roads can also help to reduce the urban heat island effect by replacing heat-absorbing asphalt with solar panels.
One potential challenge is the cost of installation and maintenance. While the technology for roads as solar collectors exists, it is still relatively new and can be expensive. Additionally, the efficiency of these solar panels may be reduced due to factors such as shading from buildings or trees. There may also be concerns about the visual impact of solar panels on roads and surrounding areas.
While the amount of electricity generated from individual roads may not be significant, when implemented on a larger scale, the collective impact can be considerable. For example, a 1-mile stretch of solar road could generate enough electricity to power a small town for a day. Additionally, roads in sunny regions or high-traffic areas could potentially generate more electricity than traditional solar farms in the same area.
Roads as solar cell collectors must undergo rigorous testing and meet safety standards before being implemented. This includes ensuring that the panels can withstand heavy loads, harsh weather conditions, and regular wear and tear. Ongoing maintenance and monitoring will also be necessary to ensure the safety and functionality of these solar roads.