About Solar suspended magnetic generator
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6 FAQs about [Solar suspended magnetic generator]
What is a MHD solar generator made of?
The MHD cell was composed of a block of polytetrafluoroethylene, two cylindrical stainless-steel electrodes, and four neodymium magnets. For simulation purposes, comsol multiphysics was used to reproduce the current density produced by the MHD solar generator.
What is a magnetohydrodynamic generator?
A magnetohydrodynamic (MHD) generator is a device that generates electrical energy through the interaction between a conductive fluid and a magnetic field. This method of direct energy conversion allows the use of a renewable energy source such as solar energy and represents an alternative to tackle the greenhouse effect.
How does a TMEG cantilever generate electricity?
Under a thermal gradient, the soft magnet (Gd) motion results in mechanical vibration of the PVDF cantilevers, thereby, generating electricity. This novel design of TMEG arrays achieves vibration frequency from 1 to 3 Hz and generates 17 V and 158 μW under the thermal gradient of 80 °C.
Can a low-speed mechanical mover be scaled up to produce a high-speed magnetic field?
The low-speed mechanical mover can be scaled up Gr times to produce a high-speed travelling magnetic field. Thus, considering the decisive influence of the high-speed magnetic field on the output power of the generators, the FMLPMG is close to the latest state-of-the-art in field-modulation linear machine technology.
How can COMSOL Multiphysics be used to simulate the MHD solar generator?
For simulation purposes, comsol multiphysics was used to reproduce the current density produced by the MHD solar generator. Pressure and temperature quantities obtained experimentally in the MHD cell were employed as boundary conditions.
Is fmlpmg accelerated by magnetic field modulation?
At the same volume, wave period, and wave height, the FMLPMG voltage peak is approximately two times that of the LPMSG. In summary, the harmonic magnetic field of the FMLPMG is accelerated due to magnetic field modulation.