确定动力空气净化呼吸器的型号,研究其工作模式

D. Slavynskyi
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Structural and parametric identification and verification of the obtained model for adequacy to the control object according to the Fisher criterion were carried out on the basis of the obtained data. Findings. Based on the results of the study, it was established that the PAPR is an asymmetric object according to the \"fan rotation speed - pressure in the mask\" channel. The processes of pressure increase and decrease correspond in form to exponential functions and can be described by aperiodic links of the first order with different time constants. Based on the analysis of the structure of the control object, a corresponding asymmetric model was created in which aperiodic links are represented in the state space. Theprocess time constants and amplification factor of the model were determined by parameter estimation. The adequacy of the obtained simulation model to the control object was confirmed by Fisher's criterion. Originality. 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摘要

目的。在创建动力空气净化呼吸器(PAPR)实验设备,开发研究系统,规划和进行实验,确定对象的结构及其参数,根据工艺过程的条件确认所获得的PAPR仿真模型对控制对象的充分性时,对技术决策进行论证。方法。采用主动实验的方式,在实验设备上进行了研究。提出了用一个具有模拟输出的传感器和一个用于数据登记的控制器来控制压力。通过改变风扇的转速,可以确定口罩内的压力值。根据所获得的数据,根据Fisher准则对所得到的模型进行了结构和参数的辨识,并验证了模型对控制对象的充分性。发现。根据研究结果,根据“风机转速-罩内压力”通道,确定了PAPR是一个非对称物体。压力的增加和减少过程在形式上对应于指数函数,可以用具有不同时间常数的一阶非周期链来描述。在分析控制对象结构的基础上,建立了相应的非对称模型,将非周期环节用状态空间表示。通过参数估计确定了模型的过程时间常数和放大系数。利用Fisher准则验证了仿真模型对控制对象的充分性。创意。首次得到了PAPR的连续传递函数,其形式为两个具有不同时间常数的一级非周期连杆的复形。实用价值。利用研制的实验设备和MATLAB仿真环境,给出了一种通用的获得papr仿真模型的方法。所获得的PAPR仿真模型允许研究其运行模式,以确定控制系统的要求以及使用各种调节器的进一步综合。
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Determination of the model of a powered air-purifying respirator for researching its operational modes
Purpose. Justification of technical decisions when creating an experimental equipment of a powered air-purifying respirator (PAPR), development of a research system, planning and conducting an experiment, determining the structure of the object and its parameters, confirming the adequacy of the obtained simulation model of the PAPR to the control object in accordance with the conditions of the technological process. Methodology. The research was carried out on experimental equipment by means of an active experiment. It is proposed to use a sensor with an analog output and a controller for data registration to control the pressure. By varying the rotation speed of the fan, the value of the pressure in the respirator mask was determined. Structural and parametric identification and verification of the obtained model for adequacy to the control object according to the Fisher criterion were carried out on the basis of the obtained data. Findings. Based on the results of the study, it was established that the PAPR is an asymmetric object according to the "fan rotation speed - pressure in the mask" channel. The processes of pressure increase and decrease correspond in form to exponential functions and can be described by aperiodic links of the first order with different time constants. Based on the analysis of the structure of the control object, a corresponding asymmetric model was created in which aperiodic links are represented in the state space. Theprocess time constants and amplification factor of the model were determined by parameter estimation. The adequacy of the obtained simulation model to the control object was confirmed by Fisher's criterion. Originality. For the first time, a continuous transfer function of a PAPR was obtained in the form of a complex of two firstorder aperiodic links with different time constants. Practical value. A universal method of obtaining simulated models of PAPRs by using the developed experimental equipment and simulation environment of the MATLAB. The obtained simulation model of the PAPR allows to research its operating modes in order to determine the requirements for the control system and its further synthesis using various regulators.
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