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Up to 4-fold increase was observed in power density and correspondingly lower electrode interface resistance.
The relative variance observed in power measurement data when using reverberation rooms is analyzed, based on modal wave theory.
The disturbance signal is modeled using a linear combination of damped sinusoidal components which are closely related to the phenomena typically observed in power systems.
An overshoot was observed in power curves, which was attributed to increased internal resistance due to ionic depletion and/or microbial exhaustion.
This theory casts a light on the global understanding of power system transient behaviour, and can also explain the wave-like behaviour with velocity greatly less than that of light observed in power systems by phasor measurement units (PMUs) [1].
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Experimentally, this band-bending effect has been observed in power-dependent photoluminescence (PL) measurements, in the blueshift of PL peaks with increasing excitation power [1, 2, 5, 6, 12].
Regarding the glassy properties observed in power-law rheology, similar general behavior can, for instance, be described based on the filament level by the glassy WLC [ 125, 292].
When dense flow conditions are met at the measurement position, two regions with different power-law fall-off are observed in the power spectral density.
In this area, significant improvements are observed in output power and efficiency.
Practically, the changes we observed in maximal power output and VO2peak were rather limited for a moderately trained population.
Significant differences are observed in loads, power, and structural response between results computed using the free wake model or simpler models, such as Blade Element Momentum theory.
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