Solar yield and conversion to 24×365 electricity

The wide range of solar yield becomes much wider after the conversion of gross yield to 24×365 electricity. 6 examples from our research of 50 locations.






Denmark – Aalborg Denmark – Aalborg
At the winter solstice, the sun is only 9.47° above the horizon at midday. So we have here a very drastic difference between the summer solstice and the winter solstice.
Austria – Salzburg Austria – Salzburg
At the winter solstice, the sun is 18.76° above the horizon at noon instead of 9.76° in Aalborg. This is sufficient for a 37.5% increase in 24×365 yield.
Egypt – Cairo Egypt – Cairo
Long-term storage requirements are determined almost exclusively by the tilt of the Earth's axis. This results in 165% more 24×365 yield.
Uganda – Kampala Uganda – Kampala
The weather determines long-term storage requirements. Much less gross yield compared to Cairo, partially compensated by higher 24×365 conversion efficiency.
Indonesia – Timika Indonesia – Timika
Timika has a tropical rainforest climate with heavy to very heavy rainfall year-round. Despite this cloudy weather, there is still 63% more 24×365 yield than in Salzburg.
Nepal – Kathmandu Nepal – Kathmandu
Guess which months are the rainy season. Despite this very pronounced weather phenomenon, 90% more 24×365 yield than in Salzburg.


  Cost optimization — the key to energy transition and climate protection
Paper written for the CORP.at conference March 22 to 25, 2026, in Vienna. My 2025 participation was a last-minute action, but now I have much time to prepare the paper.

Abstract
To meet the necessary cost optimization targets, we cannot hold the energy problem separate from all other problems: another major problem is housing.
Introduction
Many imaginations about our future had been created in the past with completely different parameters. Unchecked conclusions from the past endanger our future with unbearable costs.
My personal experience with a profitability transition My personal experience with a profitability transition
Birds can fly without knowing all the terms of aerodynamics. I reacted with my design change to an ongoing “profitability transition” without knowing the term at this time.
Energy transition
The long way from random electricity from sun and wind towards 24×365 electricity. Overseen profitability transitions have to be considered as major accidents.
The GEMINI principle: double usage of land
No better solar power plant, no better housing possible on the same ground is the ultimate target of the GEMINI principle.
Off-grid fast charging settlements Off-grid fast charging settlements
It can start small, somewhere in a village, with a single GEMINI house with a big PV carport and 100 kW DC charging.
Energy-intensive industry
I once developed a scale for off-grid solar possibilities depending on photovoltaic size. But now is to make a big jump upwards on this scale: running, energy-intensive industry.
Agriculture: How many square meters does a human need for his food? Agriculture: How many square meters does a human need for his food?
Mankind started as hunters and gatherers. 12,000 years ago, 500,000 m² to 2,500,000 m² per human. With the agricultural revolution, the land use was reduced by 2 magnitudes.
Conclusion
All parameters are in a constant state of change. We have to check all the parameters and predict the development for the predictable future.
References
Roland Mösl: Energy Optimised Settlements – Enabler for Necessary Civilization Targets, Graz 2025


          Solar yield and conversion to 24×365 electricity: The wide range of solar yield becomes much wider after the conversion of gross yield to 24×365 electricity. 6 examples from our research of 50 locations. https://climate.pege.org/2026/solar-yield.htm