Masdar's bid of 1.6215 USD cents/kWh sets record for lowest Levelised Cost of Energy (LCOE) among DEWA's solar projects. Phase 6 to be operational from Q4 2024, contributing to Dubai's clean energy goal
Alberta has no nuclear and no plans for nuclear. If they cancelled any wind projects it only speaks to how deep their oil sand dreams are. Your mention of Alberta is completely irrelevant.
What kind of word spaghetti is "agrivoltaic pearl clutching"? You also quoted something that I didn't even say. Are you ok my friend? As I have said, the idea of it is fine and can work at smaller scales. However, a typical farm requires the use tractors which need clearance. So if the plan is to build solar above, they must be raised high and spread apart to not interfere with the tractor. This can certainly be done but it requires engineering and has additional construction costs when compared to conventional solar farms. In this way it can certainly be debated if the benefit of using solar with farming is outweighed but the additional costs to the solar installation and operational costs of maneuvering the tractor around the supports.
This is not a plan for any nuclear builds, this is just them signing on that maybe they will build some SMRs. Would you also suggest PEI is seriously planing a nuclear build?
Again, this is missing the point. Alberta does not care at all to decarbonize and signing this could help them build off grid SMRs down the road in remote areas to power oil and gas machinery. PEI signed it because it may be a one and done solution for them to decarbonize. These are not concrete plans but they are also not signing it without some reason it could benefit them.
The premium you're placing on avoiding covering 1m^2 with a solar panel that produces a time-averaged 40W at $20/W is about $800
An overhead agrivoltaic system costs about $800k/ha at ~30% coverage (about double the price per watt of single axis or 3x fixed tilt) or $80/m^2 and increases yields by 10-300% if used on crops that benefit or in situations where water is scarce ir heatwaves are likely (hmm, wonder if that will be relevant). Cover 10m and you've saved 1m^2 ti 6m^2 of farmland for $800
So if it's worth spending public money to avoid the former, then it's worth doing the latter even without the electricity.
It also produces >2x as much electricity.
So which is it. Are you too stupid to comprehend basic arithmetic, or do you not actually care about land use, cost and enguneering challenges?
Your article states the "For agrivoltaic systems installed at a high distance from the ground, which is necessary to let the agricultural machinery operate under the solar panels, the costs are even higher compared to conventional solar plants."
This was my entire point regarding agrivoltaic systems. This additional cost needs to be compared to the benefit of installing the system. This could also depend on many other factors such as the price of land and water availability. I have not seen a cost comparison and I am doubtful it will actually benefit the systems widespread use at this time.
You say that for €800, 1m² - 6m² of may be saved. In Germany, where this is being done, the price of farmland in the most expensive region is €63/m² with other regions being much cheaper. If you are able to understand basic arithmetic, you can clearly see that even in the best case scenario, this is not a good value proposition for farmers at the moment. This could change and it could become more valuable if the cost of land and electricity increase, and if the agrivoltaic system costs decrease, but not now.