Kendali Kestabilan Kecepatan Vane Motor Pneumatik Berbasis PID

Rekayasa Hijau Jurnal Teknologi Ramah Lingkungan Pub Date : 2022-12-13 DOI:10.26760/jrh.v6i2.106-116

Budi Setiadi, Nanang Mulyono, Hari Purnama, Hilmi Dhiya Ulhaq

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Abstract

ABSTRAKKestabilan putaran berpengaruh terhadap kwalitas hasil pembuatan cat. Penelitian ini, fokus mengidentifikasi pengendalian kestabilan kecepatan putaran pada plan vane motor pneumatik saat bergangguan. Gangguan pengereman mekanik dan penurunan tekanan inlet sumber energi angin. Plan disetting berputar 250 rpm. Sistem pengendalian digunakan digital-PID (Proportional- Integral- Derivative ) dengan nilai parameter Kp, Ki, Kd dari hasil analisa zeigler nichols. PID mengatur bukaan katup yang mengalirkan angin melalui plan. Umpan balik sistem kecepatan digunakan sebagai koreksi error. Sistem stabil dengan error steady state (ESS ) 0,46%. Saat bergangguan mekanik 5% overdamped 1,5 detik , overshoot 3,65% dan gangguan 10% overdamped 3,3 detik, overshoot 7,71%. Saat gangguan inlet 0,45 bar overdamped 3 detik, overshoot 2,54% dan gangguan inlet 1,2 bar overdamped 4,3 detik, overshoot tetap.ABSTRACTThe rotational stability affects the quality of the paint productions. This research focuses on identifying the control of rotational speed stability on a pneumatic motor plan vane when it is disturbed. Disturbance of mechanical braking and a decrease in the inlet pressure of the wind energy source. The plan is set to rotate at 250 rpm. The control system used digital-PID (Proportional-Integral-Derivative) with parameter values Kp, Ki, Kd from the results of Zeigler Nichols analysis. PID regulates valve openings that allow air to flow through the plan. Speed system feedback is used as error correction. The system is stable with a steady state error (ESS ) 0.46%. When the mechanical disturbance is 5% overdamped for 1.5 seconds, overshoot is 3.65% and 10% is overdamped for 3.3 seconds, overshoot is 7.71%. When the inlet disturbance is 0.45 bar overdamped for 3 seconds, the overshoot is 2.54% and the inlet fault is 1.2 bar overdamped for 4.3 seconds, the overshoot remains the same.

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基于PID的风动发动机稳定性控制

ABSTRAKK建立了一个有助于解决问题的解决方案。在此期间，我们将确定叶片电机在初始阶段的稳定性。发电厂负责人负责发电进水口的维护和运行。计划以250转/分的速度旋转。控制系统采用数字PID（比例-积分-微分），其参数Kp、Ki、Kd来自于一个非线性分析。PID通过计划的方式实现了目标。如果出现错误，则使用应急系统。系统稳定与误差稳态（ESS）0.46%。Bergangkuan mekanik 5%过阻尼1,5，过阻尼3,65%和Gangkuan 10%过阻尼3,3，过阻尼7,71%。Saat Gangkuan入口0.45 bar过阻尼3 detik，过冲2.54%和Gangk关入口1,2 bar过阻尼4.3 detik，超冲tetap。摘要旋转稳定性影响涂料生产的质量。本研究的重点是识别气动马达平面叶片在受到扰动时的转速稳定性控制。机械制动的干扰和风能源入口压力的降低。该计划设定为每分钟250转。控制系统使用数字PID（比例积分微分），参数值Kp、Ki、Kd来自Zeigler-Nichols分析的结果。PID调节阀门开度，允许空气流过平面图。速度系统反馈用作误差校正。系统稳定，稳态误差（ESS）为0.46%。当机械扰动为5%过阻尼1.5秒时，超调量为3.65%，10%过阻尼3.3秒时，过调量为7.71%。当入口扰动为0.45巴过阻尼3秒时，超过调量为2.54%，入口故障为1.2巴过阻尼4.3秒时，超出调量保持不变。

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Rekayasa Hijau Jurnal Teknologi Ramah Lingkungan

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12 weeks