Renewable Energy Breeding Rate: Difference between revisions
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The rate at which renewable energy is used to double its production. A 500 kW PV system is capable of breeding 1MW of new production (assumes 500kWhr requirement/kg [[Silicon]], or doubling every 6 months. At such a rate, acre-scale energy production with PV allows replication of one facility - in terms of its energy base - every 6 months. | The rate at which renewable energy is used to double its production. A 500 kW PV system is capable of breeding 1MW of new production (assumes 500kWhr requirement/kg [[Silicon]], or doubling every 6 months. At such a rate, acre-scale energy production with PV allows replication of one facility - in terms of its energy base - every 6 months. | ||
This is correct in principle - https://chatgpt.com/share/69e57b3a-0688-83ea-b997-b5adb6ba366a | |||
Look at details - how does [[UMG]] change the balance, and what assumptions they are making on installed systems - and can we break these with building-integrated PV etc. | |||
=Links= | =Links= | ||
*[[Farm Yields Per Acre]] | *[[Farm Yields Per Acre]] | ||
*[[Solar Energy Transition Critique]] | *[[Solar Energy Transition Critique]] | ||
Revision as of 01:04, 20 April 2026
The rate at which renewable energy is used to double its production. A 500 kW PV system is capable of breeding 1MW of new production (assumes 500kWhr requirement/kg Silicon, or doubling every 6 months. At such a rate, acre-scale energy production with PV allows replication of one facility - in terms of its energy base - every 6 months.
This is correct in principle - https://chatgpt.com/share/69e57b3a-0688-83ea-b997-b5adb6ba366a
Look at details - how does UMG change the balance, and what assumptions they are making on installed systems - and can we break these with building-integrated PV etc.