How Much Power Loss Can We Expect from Space-Based Solar Farms?

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The discussion centers on the expected power loss from space-based solar farms during transmission and transformation. Participants note that while energy loss in irradiance is reduced due to the absence of atmospheric filtering, the efficiency of converting energy to microwave and back again is crucial. The overall efficiency will depend on whether the gains from increased irradiance offset the losses incurred in the radio wave transmission process. It is suggested that the efficiency of generating and receiving radio waves is a key factor to investigate. Ultimately, the viability of space-based solar farms hinges on optimizing each step of the energy conversion process.
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Actually they should represent a gain over the equivalent ground-based systems since the flux harnessed has not been filtered by the atmosphere and the energy generated can be beamed at a frequency that largely bypasses the filtering.

It's an idea that's been around a while.
 
Understood that there is less energy loss in irradiance, but how much energy is lost in the entire process of transforming the energy from electrical to microwave, transmitting it, and then transforming it again. Isn't it much higher than that of a induction transformer we use today?
 
Any equivalent process will have equivalent losses + the radio wave step.
So your question is, "how efficiently can we generate and receive radio-waves".

This is something you can look up.

The whole process breaks even, compared with equivalent ground-based solar plants, if the losses in the radio step are the same as the gains in additional irradience converted. Something else you can look up.

We don't know the exact processes proposed - but you can see the potential by assuming the most efficient process available for each step.
 

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