Vidqun I notice that on page 7 of this topic topic thread you said that wind turbines "have an approximate 15 year lifespan". That claim of yours seems to be correct for on the internet I see articles making claims ranging from 10 years to 25 years, including from information sources which I trust.
I see news sources which I trust saying that wind turbines are piling up in landfills and that it is happening mainly because it is very hard to disassemble and/or cut/break the enormous modern turbine blades into smaller pieces for recycling in a way a that is economical. That is very discouraging to me. However there is some encouraging news. https://www.nrel.gov/news/program/2022/nrel-researchers-point-to-path-for-improved-wind-blade-recycling-rates.html (in an article dated Aug. 30, 2022) says the following.
"Researchers at the National Renewable Energy Laboratory (NREL) are considering circular economy strategies to mitigate the impact of wind turbine blades at the end of their useful lifespan.
The strategies are meant to address what to do with the blades once they are no longer needed, including using new materials that are easier to break down, extending their lifespan, and implementing various recycling options. Researchers at NREL have been investigating novel blade materials that are inherently more recyclable, thereby integrating solutions at the earliest stages of turbine component design."
I notice that you made the claim of "By the way, one wind turbine cannot generate the amount of energy in its lifetime that was used in its manufacture." I am not convinced that one wind turbine cannot generate the amount of energy in its lifetime that was used in its manufacture. https://cleanpower.org/facts/wind-power/ makes a claim which disagrees with yours. It says the following.
"Does it take more energy to make a wind turbine than the turbine will produce?
No. It’s a common myth that it takes more energy to manufacture and build a wind turbine than the turbine will produce. In reality, a typical wind turbine will repay its carbon footprint in less than six months, and it will generate emission-free electricity for the remainder of its 20 to 30 year lifespan."
https://www.forbes.com/sites/christopherhelman/2021/04/28/how-green-is-wind-power-really-a-new-report-tallies-up-the-carbon-cost-of-renewables/ has an article dated Apr 28, 2021,07:44am EDT. It says the following.
'Building and erecting wind turbines requires hundreds of tons of materials — steel, concrete, fiberglass, copper, and more exotic stuff like neodymium and dysprosium used in permanent magnets.
All of it has a carbon footprint. Making steel requires the combustion of metallurgical coal in blast furnaces. Mining metals and rare earths is energy intensive. And the manufacture of concrete emits lots of carbon dioxide.
In the case of wind and solar power, those emissions are nearly all front-loaded. That contrasts with fossil-fueled electric power plants, where emissions occur continuouisly as coal and natural gas are combusted.
... Citing data from the likes of National Renewable Energy Laboratory, Vestas, Siemens Gamesa Renewable Energy, and Bernstein estimates, Venkateswaran determined that the biggest contributors to the carbon footprint of wind turbines are steel, aluminum and the epoxy resins that hold pieces together — with the steel tower making up 30% of the carbon impact, the concrete foundation 17% and the carbon fiber and fiberglass blades 12%.
Good news: amortizing the carbon cost over the decades-long lifespan of the equipment, Bernstein determined that wind power has a carbon footprint 99% less than coal-fired power plants, 98% less than natural gas, and a surprise 75% less than solar.
More specifically, they figure that wind turbines average just 11 grams of CO2 emission per kilowatthour of electricity generated. That compares with 44 g/kwh for solar, 450 g for natural gas, and a whopping 1,000 g for coal.
... Offshore wind turbines are becoming enormous, with General Electric’s GE Haliade X featuring blades 360 feet long and generating 14 megawatts. The carbon footprint of such monsters could get as low as 6 g/kwh.
...
And they could be trending lower, thanks to the advent of so-called green steel. Swedish companies Hybrit and H2 Green Steel are investing billions to make millions of tons a year of green steel. Instead of burning metallurgical coal to fire a traditional blast furnace to reduce iron ore into pig iron, they will use green hydrogen electrolyzed via renewable power.
They’re working as well on reducing the carbon footprint on the
backend of wind and solar projects — by recycling old photovoltaic
panels and turbine blades. "
