某冷却风扇系统动力学建模与参数辨识

Chao-Chung Peng, Yung-I Lin
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引用次数: 3

摘要

冷却风扇系统已广泛应用于工业设备,如计算主机、生产线接线盒、制造设施、数控加工系统等许多动力冷却系统。这些系统通常需要高计算能力,不可避免地会释放高密度的热量。为了保证内核运行系统的长期性能和健康状态,将通过冷却风扇系统来控制周围的温度。一旦冷却风扇系统出现故障或冷却效率下降,将会导致核心运行系统的损坏或性能下降。因此,为了防止这种情况,需要监测冷却风扇系统的状态。本文对某冷却风扇系统进行了动力学建模和参数辨识。一旦能够准确地估计参数,就可以将其扩展到在线健康监测和诊断应用中。为此,首先推导了冷却风扇的数学模型。本文导出了用于参数估计的三种离散近似模型。最后,通过数值研究验证了所提识别方法的可行性。
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Dynamics Modeling and Parameter Identification of a Cooling Fan System
Cooling fan system has been widely used in industrial equipment such as computation host, product line junction box, manufacturing facilities, CNC machining systems and many other power cooling systems. Those systems usually involve high computation power and unavoidably release high dense heat. In order to guarantee long-term performance and healthy status of the kernel operation systems, surrounding temperature is going be controlled through the cooling fan systems. Once the cooling fan system is malfunctioned or the cooling efficiency is degraded, it could cause damage to the core operation system or lower its performance. Therefore, to prevent this condition, status of the cooling fan systems needs be monitored. In this paper, dynamics modeling and parameter identification of a cooling fan system is presented. Once the parameters can be precisely estimated, it can be extended for on-line health monitoring and diagnosis applications. To this aim, modeling of the cooling fan is firstly derived. In this paper, three discrete approximation models are derived for the parameter estimation. Finally, numerical studies are carried to verify the feasibility of the proposed identification method.
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