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Register a new userPerformance of Gliding Discharge in High Voltage Equipment containing Air gap
بحث مخبري حول سلوكية الانفراغات المنزلقة في تجهيزات التوتر العالي الحاوية على ثغرات هوائية
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علي السيد( باحث )
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نواجه في الحياة العملية مشكلة نشوء الانفراغات المنزلقة على عدد من تجهيزات العزل الحاوية على سطوح فاصلة مائلة كما هو الحال في عوازل العبور وعلب النهاية للكابلات الكهربائية. و قد قدمت البحوث المنشورة مجموعة من النتائج المهمة عن العلاقة التي تربط بين التوترات المطبقة و امتداد الانفراغات الجزئية في حال وجود نظم ذات سعات عرضانية كبيرة. لكن الدراسات عن نظم العزل ذات السعات العرضانية الصغيرة أو تلك الحاوية على ثغرات هوائية بقيت محدودة، لاعتبارات كثيرة منها أن آلية الانفراغ لتلك الحالات مشابهة لآلية الانفراغات في المواد ذات السطوح الفاصلة الطولانية. إن التوصل إلى معطيات و علاقات دقيقة لمثل هذه النظم و إيجاد سلوكية الانفراغ الفعلية ذو مردود علمي و تطبيقي مهم بالنسبة إلى تصميم تجهيزات التوتر العالي، و خاصة عند تطبيق توترات عالية و متغيرة زمنيًا كالتوتر المتناوب و التوتر النبضي البرقي.
The problem of gliding discharges on high voltage equipment is faced in practice, coith inclined interface, such as cable terminations, bushings. Many researches present very important results about the relationship between the applied voltages and this partial discharge . But studies about the insulation systems that have small cross capacitor or that have air gaps are limited, considering many points, one of them: the discharge procedure looks like the partial discharge in insulators, with longitudinal interfaces. Achieving precise relationships for such systems and finding the actual discharge behavior gives high scientific efficiency and important application for design of high voltages devices, especially when high voltages, which are changing with time voltage like alternatring and lightning voltages, are applied.
References used
A. Kuchler, Hochspannungs technik, Springer 2004
M. Beyer, W. Bocet, K. Moller, W. Zaengl; Hochspannungs technik; Springer-verlag, Berlin- Heidelberg, 1986
Y. Julliard, R. Badent, A. J. Schwab; Behavior of Multiple Barrier Insulation Systems under Impulse conditions;IEEE2001
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