Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Energy harvesting from a rotational transducer under random excitation
This paper evaluates the performance of a proposed device for harvesting energy from the vertical motion of boats and yachts under broadband and band-limited random vibrations. The device comprises a sprung mass coupled to an electrical generator through a ball screw. The mathematical equations describing the dynamics of the system are derived. Then by utilizing the theory of random vibration, the frequency response function of the system is obtained. This is used to derive an expression for the mean power produced by the harvester when it is subjected to broadband and band-limited stationary Gaussian white noise. The power expressions are derived in dimensional form to provide an insightful understanding of the effect of the physical parameters of the system on output power. An expression for the optimum load resistance to harvest maximum power under random excitation is also derived and validated by conducting Monte-Carlo simulation. The discussion presented in the paper provides guidelines for designers to maximize the expected harvested power from a system under broadband and band-limited random excitations. Also, based on the method developed in this paper, the output power of a rotational harvester subjected to the vertical excitation of a sailing boat is obtained.
Energy harvesting from a rotational transducer under random excitation
This paper evaluates the performance of a proposed device for harvesting energy from the vertical motion of boats and yachts under broadband and band-limited random vibrations. The device comprises a sprung mass coupled to an electrical generator through a ball screw. The mathematical equations describing the dynamics of the system are derived. Then by utilizing the theory of random vibration, the frequency response function of the system is obtained. This is used to derive an expression for the mean power produced by the harvester when it is subjected to broadband and band-limited stationary Gaussian white noise. The power expressions are derived in dimensional form to provide an insightful understanding of the effect of the physical parameters of the system on output power. An expression for the optimum load resistance to harvest maximum power under random excitation is also derived and validated by conducting Monte-Carlo simulation. The discussion presented in the paper provides guidelines for designers to maximize the expected harvested power from a system under broadband and band-limited random excitations. Also, based on the method developed in this paper, the output power of a rotational harvester subjected to the vertical excitation of a sailing boat is obtained.
Energy harvesting from a rotational transducer under random excitation
Hendijanizadeh, M. (Autor:in) / Sharkh, S. M. (Autor:in) / Moshrefi-Torbati, M. (Autor:in)
01.07.2014
13 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Transient Performance of Energy Harvesting Strategies under Constant Force Magnitude Excitation
| British Library Online Contents | 2010
Piezoelectric energy harvesting from broadband random vibrations
| British Library Online Contents | 2009
Modelling and Improvement of a Cymbal Transducer in Energy harvesting
| British Library Online Contents | 2010
RESEARCH ON THE ENERGY HARVESTING OF DIELECTRIC ELECTROACTIVE POLYMER TRANSDUCER
| DOAJ | 2017