Difference between revisions of "Power density"
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Power densities are covered in [[Nanosystems]] in the early chapter about [[scaling law]]s. <br> | Power densities are covered in [[Nanosystems]] in the early chapter about [[scaling law]]s. <br> | ||
Lower bounds for maximally achievable power densities are [[exploratory engineering|explored]] in <br> | Lower bounds for maximally achievable power densities are [[exploratory engineering|explored]] in <br> | ||
| − | later chapters covering [[electromechanical converters]]. | + | later chapters covering [[electromechanical converters]]. They are ''very'' high. |
Power-densities for [[mechanical energy transmission]] are explored here on this wiki a bit (follow the link). | Power-densities for [[mechanical energy transmission]] are explored here on this wiki a bit (follow the link). | ||
| − | {{todo|If possible get power densities from [[electromechanical converters]] and [[mechanical energy transmission]] in a form that is comparable.}} | + | {{todo|If possible get power densities from [[electromechanical converters]] and [[mechanical energy transmission]] in a form that is comparable. Despite different units ...}} |
To get a better handle on the ultimate limits of [[gem-gum]] systems. <br> | To get a better handle on the ultimate limits of [[gem-gum]] systems. <br> | ||
Revision as of 18:16, 8 August 2022
Power densities are covered in Nanosystems in the early chapter about scaling laws.
Lower bounds for maximally achievable power densities are explored in
later chapters covering electromechanical converters. They are very high.
Power-densities for mechanical energy transmission are explored here on this wiki a bit (follow the link).
(TODO: If possible get power densities from electromechanical converters and mechanical energy transmission in a form that is comparable. Despite different units ...)
To get a better handle on the ultimate limits of gem-gum systems.
Lower bounds for ultimate limits for power-densities for waste heat removal need closer investigation.
That is ultra high performance cooling systems. Likely based on solid state capsules in machine phase.
Nanosystems only covers:
- cooling systems sufficient for proposes the nanofactories – 11.5. Convective cooling systems
- cooling for nanomechanical computation – 12.8. Cooling and computational capacity
SI Units
There are two kinds of power densities:
- aerial power density – W/m²
- volumetric power density – W/m³
- aerial power densities are relevant for transmission
- volumetric power densities are relevant for power conversion
(TODO: How & in how far can the two types be made comparable? And is there a way to get an intuitive grasp on them?)
Related
- Energy conversion – There's an especially high lower bound for the maximal power density in electromechanical converters
- Energy density
High power energy transmission as a combination of:
- Chemical energy transmission
- Mechanical energy transmission
- Entropic energy transmission
- Thermal energy transmission – other quite different constraints here
External Links
Wikipedia
- Surface power density – W/m²
- Power density – W/m³
