Mitigation of electrical hazards on the metallic pipelines due to the HVOHTLs based on different intelligent controllers
IET Science, Measurement & Technology • 2021
معلومات البحث
المؤلفون
Mostafa Al-Gabalawy1 , Mohamed A. Mostafa2, Abdel Salam Hamza3
الكلمات المفتاحية
Not Available
المجلة العلمية
IET Science, Measurement & Technology
الناشر
IET Sci. Meas. Technol. , © The Institution of Engineering and Technology 2021
المجلد
Not Available
العدد
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الصفحات
Not Available
publication.type
International
رابط البحث
Not Available
المواد المرفقة
Not Available
الملخص
Many catastrophes may occur due to the interference between the metallic pipeline and the high voltage overhead
transmission lines (HVOHTLs). These problems exist due to the neighbouring between the HVOHTLs and the other
infrastructures. Many types of research cover cathodic protection points, detailed description for the production of the AC
voltage, and preliminary mitigation ways. Mainly potassium hydroxide-polarisation cells (KOH-PCs) have been applied to
discharge this voltage to the soil. Based on the KOH-PCs electrical model introduced previously, this study investigates a novel
mitigation technique, where the discharged AC voltage converts to DC voltage that is proper for the cathodic protection for the
metallic pipelines. An integrated system consists of power electronic circuits and distributed intelligent controllers designed to
discharge the AC induced voltage and use in the cathodic protection for the pipelines. Different controllers such as the artificial
neural network, a fuzzy logic controller, and adaptive neuro-fuzzy inference system controllers have been implemented. Two key
performance indicators have been investigated to show the superiority of these controllers, where the total discharged energy
per annum DEyear from the pipeline to the soil, and the total saved per year SEyear .
transmission lines (HVOHTLs). These problems exist due to the neighbouring between the HVOHTLs and the other
infrastructures. Many types of research cover cathodic protection points, detailed description for the production of the AC
voltage, and preliminary mitigation ways. Mainly potassium hydroxide-polarisation cells (KOH-PCs) have been applied to
discharge this voltage to the soil. Based on the KOH-PCs electrical model introduced previously, this study investigates a novel
mitigation technique, where the discharged AC voltage converts to DC voltage that is proper for the cathodic protection for the
metallic pipelines. An integrated system consists of power electronic circuits and distributed intelligent controllers designed to
discharge the AC induced voltage and use in the cathodic protection for the pipelines. Different controllers such as the artificial
neural network, a fuzzy logic controller, and adaptive neuro-fuzzy inference system controllers have been implemented. Two key
performance indicators have been investigated to show the superiority of these controllers, where the total discharged energy
per annum DEyear from the pipeline to the soil, and the total saved per year SEyear .
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