SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3048450917> ?p ?o ?g. }

Showing items 1 to 100 of ±127 with 100 items per page.

W3048450917 endingPage "105245" @default.
W3048450917 startingPage "105245" @default.
W3048450917 abstract "Vibration is an omnipresent natural energy source that is not only renewable, but also has the potential to cause damage. However, existing vibrational energy harvesting technologies are typically based on vibration enhancement, and are thus difficult to apply to the many occasions requiring vibration reduction. In this paper, we present an energy transfer approach that overcomes the contradiction between vibration enhancement and vibration attenuation. This energy transfer is essentially a process of energy redistribution. Relying on local resonance to transfer vibrational energy to the power-generation unit rather than the protected object, the efficient collection of vibrational energy and vibration reduction are simultaneously achieved in the same physical system. Acquiring 95.8% of the vibrational energy in the system, the power-generation unit achieves an amplitude amplification factor of 375% and a 3477% power boost while resonating, and the vibrational amplitude of the protected object is reduced by 55%. This novel double-benefit approach achieves the harmony and unity of vibrational energy harvesting and vibration attenuation, and has significant potential for use in vibrational energy recycling for vibration damping systems." @default.
W3048450917 created "2020-08-18" @default.
W3048450917 creator A5051346770 @default.
W3048450917 creator A5055627437 @default.
W3048450917 creator A5057748562 @default.
W3048450917 creator A5064958722 @default.
W3048450917 date "2020-12-01" @default.
W3048450917 modified "2023-10-14" @default.
W3048450917 title "Energy transfer and redistribution: An approach for unifying vibrational energy harvesting and vibration attenuation" @default.
W3048450917 cites W1993378267 @default.
W3048450917 cites W1999114167 @default.
W3048450917 cites W2001777662 @default.
W3048450917 cites W2010278105 @default.
W3048450917 cites W2026814016 @default.
W3048450917 cites W2033146491 @default.
W3048450917 cites W2039846249 @default.
W3048450917 cites W2047082034 @default.
W3048450917 cites W2081874733 @default.
W3048450917 cites W2097198600 @default.
W3048450917 cites W2112545124 @default.
W3048450917 cites W2138911590 @default.
W3048450917 cites W2170667294 @default.
W3048450917 cites W2203183739 @default.
W3048450917 cites W2203481594 @default.
W3048450917 cites W2304174616 @default.
W3048450917 cites W2379306404 @default.
W3048450917 cites W2415910473 @default.
W3048450917 cites W2519755042 @default.
W3048450917 cites W2552493031 @default.
W3048450917 cites W2562113636 @default.
W3048450917 cites W2565706226 @default.
W3048450917 cites W2567182331 @default.
W3048450917 cites W2582403831 @default.
W3048450917 cites W2619763057 @default.
W3048450917 cites W2731851216 @default.
W3048450917 cites W2739622635 @default.
W3048450917 cites W2761761469 @default.
W3048450917 cites W2776955657 @default.
W3048450917 cites W2778577108 @default.
W3048450917 cites W2782415523 @default.
W3048450917 cites W2789854190 @default.
W3048450917 cites W2797006554 @default.
W3048450917 cites W2799598003 @default.
W3048450917 cites W2800973262 @default.
W3048450917 cites W2803490978 @default.
W3048450917 cites W2804970576 @default.
W3048450917 cites W2863275036 @default.
W3048450917 cites W2899402174 @default.
W3048450917 cites W2910632307 @default.
W3048450917 cites W2912628150 @default.
W3048450917 cites W2916528284 @default.
W3048450917 cites W2945837125 @default.
W3048450917 cites W2953554181 @default.
W3048450917 cites W2953726559 @default.
W3048450917 cites W2967571854 @default.
W3048450917 cites W2972468294 @default.
W3048450917 cites W2972819331 @default.
W3048450917 cites W2976915754 @default.
W3048450917 cites W4240729717 @default.
W3048450917 doi "https://doi.org/10.1016/j.nanoen.2020.105245" @default.
W3048450917 hasPublicationYear "2020" @default.
W3048450917 type Work @default.
W3048450917 sameAs 3048450917 @default.
W3048450917 citedByCount "19" @default.
W3048450917 countsByYear W30484509172021 @default.
W3048450917 countsByYear W30484509172022 @default.
W3048450917 countsByYear W30484509172023 @default.
W3048450917 crossrefType "journal-article" @default.
W3048450917 hasAuthorship W3048450917A5051346770 @default.
W3048450917 hasAuthorship W3048450917A5055627437 @default.
W3048450917 hasAuthorship W3048450917A5057748562 @default.
W3048450917 hasAuthorship W3048450917A5064958722 @default.
W3048450917 hasConcept C101518730 @default.
W3048450917 hasConcept C106447425 @default.
W3048450917 hasConcept C119599485 @default.
W3048450917 hasConcept C120665830 @default.
W3048450917 hasConcept C121332964 @default.
W3048450917 hasConcept C127413603 @default.
W3048450917 hasConcept C181500209 @default.
W3048450917 hasConcept C184652730 @default.
W3048450917 hasConcept C184779094 @default.
W3048450917 hasConcept C186370098 @default.
W3048450917 hasConcept C188573790 @default.
W3048450917 hasConcept C192562407 @default.
W3048450917 hasConcept C198394728 @default.
W3048450917 hasConcept C24890656 @default.
W3048450917 hasConcept C2993504562 @default.
W3048450917 hasConcept C62520636 @default.
W3048450917 hasConcept C84662259 @default.
W3048450917 hasConceptScore W3048450917C101518730 @default.
W3048450917 hasConceptScore W3048450917C106447425 @default.
W3048450917 hasConceptScore W3048450917C119599485 @default.
W3048450917 hasConceptScore W3048450917C120665830 @default.
W3048450917 hasConceptScore W3048450917C121332964 @default.
W3048450917 hasConceptScore W3048450917C127413603 @default.
W3048450917 hasConceptScore W3048450917C181500209 @default.
W3048450917 hasConceptScore W3048450917C184652730 @default.
W3048450917 hasConceptScore W3048450917C184779094 @default.