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摆式摩擦发电机非线性机电耦合建模研究

NONLINEAR ELECTROMECHANICAL MODELING OF PENDULUM-TYPE TRIBOELECTRIC NANOGENERATORS
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摘要 面向摆式摩擦发电机结构优化设计需求,开展非线性机电耦合建模与参数敏感性分析,以推动其向工程实用化方向发展.在摩擦发电机理分析的基础上,构建等效电容拟合函数;结合能量原理和等效电路法,建立了考虑摆角非线性变化的机电耦合模型.利用谐波平衡法,解析求解摆式摩擦发电机的周期稳态输出,并判断结果稳定性.结合数值积分和动态测试两种手段,验证谐波平衡分析的准确性.与线性模型结果进行深入对比,并考察了不同设计参数对摆式摩擦发电机输出特性的影响.考虑非线性效应,模型预估的工作带宽显著增加(相对增量83%).文章提出的机电耦合模型能够有效避免线性模型对工作带宽的低估问题,显著提升输出性能估计的准确性;增加激励幅值、降低系统阻尼或减小电极夹角,均有助于提升摆式摩擦发电机的输出表现;在实际设计时,需综合考虑间隙长度和摩擦力幅值,以使摆式摩擦发电机输出表现处于较优状态;构建多种拟合模型用于表征设计参数与输出性能的关系,可作为摆式摩擦发电机输出性能设计的依据. By reasonably designing the pendulum length,the natural frequency of a pendulum structure can be effectively reduced,so that it can realize resonance under low frequency(even ultra-low frequency)vibration excitation,and then greatly improve the energy conversion performance.The pendulum-type triboelectric nanogenerator(P-TENG)has naturally become the focus of academic attention.In this study,nonlinear electromechanical coupling modeling and parameter sensitivity analysis are conducted to optimize the structural design of the P-TENG,so as to promote its development towards engineering practicability.Based on the analysis of power generation mechanism,an equivalent capacitance model is proposed.Combined with the energy principle and equivalent circuit method,an electromechanical coupling model considering the nonlinear variation of pendulum angle is established.Using the harmonic balance method and alternated frequency/time domain technique,the steady-state output of the P-TENG is solved analytically,and the stability of the results is determined.Numerical integration and dynamic tests are conducted to verify the accuracy of analytical model.The results are compared with the linear model and the influence of various design parameters on the output characteristics of the P-TENG is investigated.Considering the nonlinear effects,the estimated operating bandwidth of the model increases significantly(by a relative increment of 83%).The proposed model can effectively avoid the underestimation of the operation bandwidth and significantly improve the accuracy of the P-TENG performance estimation.Increasing the excitation amplitude,reducing the damping ratio,and minimizing the electrode angle can improve the output performance of the P-TENG.Various fitting models have been proposed to model the relationship between design parameters and output performance.The fitting coefficients obtained from the parameter influence discussion can be used as the basis for the P-TENG output performance design.
作者 韩勤锴 高帅 邵卿洋 褚福磊 Han Qinkai;Gao Shuai;Shao Qingyang;Chu Fulei(State Key Laboratory of Tribology in Advanced Equipment,Tsinghua University,Beijing 100084,China;Department of Mechanical Engineering,Politecnico di Milano,Milan 20156,Italy)
出处 《力学学报》 EI CAS CSCD 北大核心 2023年第10期2178-2188,共11页 Chinese Journal of Theoretical and Applied Mechanics
基金 国家自然科学基金资助项目(12272199).
关键词 单摆 摩擦发电机 输出特性 非线性 机电耦合 pendulum triboelectric nanogenerator output performance nonlinear effect electromechanical coupling
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