Parametric excitation of traveling waves in a circular non-dispersive medium

Plat, Harel; Bucher, Izhak

doi:10.1016/j.jsv.2013.11.005

Cited by 8 publications

(2 citation statements)

References 14 publications

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“…The mass and damping time are deduced to characterize the string. The string deviation from one state to another is developed by referencing the quantum string deviating its equilibrium state, , ∂ 2 ξ ∂ t + 2 t normald ∂ ξ ∂ t − normalΔ ξ − 2 R 2 ξ = 0 …”

Section: String To Characterize the Field Synergy Modelmentioning

confidence: 99%

String To Characterize the Field Synergy during CO₂ Capture by CaCl₂-Supported MEA Adsorbent

et al. 2014

J. Phys. Chem. C

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CO 2 capture is quite effective for protecting the environment. A CaCl 2 -supported MEA adsorbent was identified as an efficient adsorbent. To design this adsorbent more efficiently from the field synergy, a string method model was developed to characterize field synergistic effects. Experiments were performed to validate the string used to integrate macro and micro mechanisms of reaction and diffusion. Synergistic effects reduced the string damping time by 26%. Mole ratios of MEA/CaCl 2 influenced the damping time and string mass much more than the porosity and particle diameter. The free energy and NC reaction coordinate respectively decreased by 30% and 40% as MEA/CaCl 2 mole ratios decreased from 3:1 to 1:1. The addition of CaCl 2 produced a 22.7% string mass decrease, which reduced the energy consumption by 30% and improved capture capacity by 27%. The string to characterize the field synergy is developed as a useful method to improve the conventional adsorbent design.

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Section: String To Characterize the Field Synergy Modelmentioning

confidence: 99%

String To Characterize the Field Synergy during CO₂ Capture by CaCl₂-Supported MEA Adsorbent

et al. 2014

J. Phys. Chem. C

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“…An analysis of resonant traveling waves in rotating rings was presented in [10], including the effects of nonlinear dynamics. Parametric excitation is employed in [11] to create multi-wavelength traveling waves in a ring.…”

Section: Introductionmentioning

confidence: 99%

Automatic traveling wave excitation of structures with imperfect cyclic symmetry

Baruch

Vered

Plat

et al. 2023

Mechanical Systems and Signal Processing

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The influence of two kinds of time delays on the vibrational resonance of a fractional Mathieu–Duffing oscillator

Ning

Guo

2020

Pramana - J Phys

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Parametric excitation of traveling waves in a circular non-dispersive medium

Cited by 8 publications

References 14 publications

String To Characterize the Field Synergy during CO₂ Capture by CaCl₂-Supported MEA Adsorbent

String To Characterize the Field Synergy during CO₂ Capture by CaCl₂-Supported MEA Adsorbent

Automatic traveling wave excitation of structures with imperfect cyclic symmetry

The influence of two kinds of time delays on the vibrational resonance of a fractional Mathieu–Duffing oscillator

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Parametric excitation of traveling waves in a circular non-dispersive medium

Cited by 8 publications

References 14 publications

String To Characterize the Field Synergy during CO2 Capture by CaCl2-Supported MEA Adsorbent

String To Characterize the Field Synergy during CO2 Capture by CaCl2-Supported MEA Adsorbent

Automatic traveling wave excitation of structures with imperfect cyclic symmetry

The influence of two kinds of time delays on the vibrational resonance of a fractional Mathieu–Duffing oscillator

Contact Info

Product

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String To Characterize the Field Synergy during CO₂ Capture by CaCl₂-Supported MEA Adsorbent

String To Characterize the Field Synergy during CO₂ Capture by CaCl₂-Supported MEA Adsorbent