A. Senatore, Alex De Simone, Martina Travaglino, Mario Pisaturo, Veronica D'Urso
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引用次数: 0
摘要
海浪能正日益被视为最有前途的可再生能源之一。本文讨论了由UMBRA GROUP SpA设计的陆上波浪能量转换器系统的建模和仿真,UMBRA GROUP SpA是航空航天、工业和能源领域高精度滚珠丝杠生产的全球领导者。本文讨论了几个主题:从多体建模策略出发,更深入地研究了作用在结构上的最有趣的力的特征,以及基于集总参数和有限元方法模型的动力输出模块的热行为研究。进行了多体动力学逆分析,并收集了仿真结果,验证了该方法的有效性。与其他波能转换机制相比,该机制的间接效率已被发现相当高(80-85%),而热水平不超过165°C(电机),140°C(螺钉),47°C(螺母)。
Modeling of Onshore Wave Energy Converter: Inverse Dynamic Analysis and Thermal Prediction
Sea wave energy is being increasingly regarded as one of the most promising sources of renewable energy. This paper deals with the modeling and simulation of an onshore Wave Energy Converter system designed by UMBRA GROUP SpA, world leader in the production of high-precision ball screws for aerospace, industrial and energy sectors. Several topics are addressed: starting from the multibody modeling strategy, this paper goes more deeply into the characterization of the most interesting forces acting on the structure, as well as the thermal behavior investigation of the power take-off module based on lumped-parameter and Finite Element Method models. Inverse Multibody Dynamic Analysis is performed and simulation results are collected to prove the effectiveness of the proposed approach. The indirect efficiency of the mechanism has been found quite high (80-85%) in comparison with other wave energy converter mechanisms, whereas the thermal level does not exceed 165°C (electric machine), 140°C (screw), 47°C (nut).
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