Kabul. Abdullah

Work place: Electrical Engineering of Polytechnic Sriwijaya, Jalan Srijaya Negara, Bukit Besar, Palembang 30139, Indonesia

E-mail: kabul.abdullah741@gmail.com

Website: http://orcid.org/0000-0002-8673-7307

Research Interests: Engineering

Biography

Kabul Abdullah, A.Md was born on December 29th, 1980 in the city of Palembang, Indonesia. He is attending the Polytechnic of Sriwijaya in Palembang to work toward his bachelor's degree in engineering there. In addition to that, up until this point he has been serving as the Site Manager of a 3x10 MW steam power plant located in Tanjung Enim, South Sumatra. From 2008 until 2016, he worked as an electrical and commisioning engineer in the field of steam turbine assembly in Malaysia. Turbines assembled there were exported to a number of countries in the Asia Pacific region.

Author Articles
Digital Electro-Hydraulic (DEH) Modeling as a Steam Turbine Governor Control at PLTU Tanjung Enim 3x10MW Using MatLab

By Destra A. Pratama Dewi P. Sari Kabul. Abdullah

DOI: https://doi.org/10.5815/ijieeb.2022.06.01, Pub. Date: 8 Dec. 2022

Control of the Steam Turbine at PLTU Tanjung Enim 3x10 MW through the use of Digital Electro-Hydraulic (DEH), which plays a critical role in the functioning of the Steam Turbine generated. Because the current control operates solely by manual loading adjustment by raising or reducing the PID percentage from DEH, it is essential to analyze the input parameter values to improve the DEH PID control's sensitivity. The DEH control mechanism of PLTU TE 3x10MW is divided into two modes: Valve Limiter and Load. At PLTU TE 3x10MW, the steam turbine frequently experiences hunting (fluctuations) on the governor control valve, causing the turbine unit to become unstable until shutdown or blackout. The DEH signal response to actuator stroking can generally operate according to the given signal command with a signal density of 1/ΔT = 100,298 Hz and ΔY/ΔT = 781,016 ms. By analyzing the DEH system in the unit and modeling it using Matlab, it is hoped that it will produce a PID control value that can be input into the system based on the return signal from the actuator stroking level and the steam turbine speed at the time of loading, thus enabling the control valve or governor to be more responsive and smoother in responding of Mining load changes, either manually or automatically.

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