barrier discharge
Research Topic
Language: English
This is a research topic created to provide authors with a place to attach new problem publications.
Research problems linked to this topic
- Partial discharges (PD) in HVDC equipment are not the predominant degradation factor.
- The subject of electrical discharge in gases presents many challegens to our understanding.
- The mechanical processes leading to the cutoff of penetration of a shaped charge jet are still poorly understood.
- Point defects and certain types of impurities cause leakage currents and reduce the carrier lifetime.
- During accelerated life-testing of impregnated polypropylene capacitors, breakdown may occur due to discharges in liquid voids.
- With the large-scale construction of natural gas pipeline, the pressure level has been increasing, even reaching the range of three types of pressure vessels.
- The 0 2 /N 2 flow ratio during O 3 generation by dielectric barrier discharge has a large impact on the atomic layer deposition (ALD) of metal oxides in a hot wall ALD reactor.
- The reactor pressure vessel (RPV) is the most critical component in nuclear power plants, housing the reactor core and serving as a part of the primary system pressure boundary.
- Focusing on the basic issues of nanosecond pulse dielectric barrier discharge (NS DBD), different actuators are used to investigate the electrical properties, induced flows and shock wave by NS DBD.
- Experiments have shown that pressure vessels made of ASME SA 455 steel can fail by high-temperature stress rupture in less than 100min when exposed to accidental fire heat loads.
- In high current, high voltage, high temperature power applications, commercially available conventional silicon thyristors are not suited because they present high leakage current.