Keywords
inductive energy storage
SOS-diode
pulse discharge імпульсний генератор
індуктивний накопичувач енергії
SOS-діод
імпульсний розряд
How to Cite
Abstract
Short pulse high-voltage generator with a secondary inductive energy storage, which is commuting with SOS-diode, was modeled. It was researched an influence of R,L,C-parameters of generator and an resistance of load on the characteristics of the output pulse voltage (amplitude, lengths of the front and of the pulse) and the ratio of energy transfer from the primary energy storage (capacitor) to the load. It was defined the optimal value of elements of circuit in which the characteristics of generator are acceptable (steepness of the front pulse about 2·1011 V/s the pulse length near 100 ns) for use in water treatment technologies by pulse electric discharge. It is shown that the coefficient of energy transmission in a pulse generator may exceed 80%. The calculation results are confirmed by experimental studies. References 10, figures 6.
References
Pichugina М.Т. The pulse power energetics. – Tomsk, 2005. – 97 p. (Rus)
Rukin S.N. Nanoseconds pulse power generator with semiconductor current interrupter // Pribory i tekhnika eksperimenta. – 1999. – №4. – Pp. 5–36. (Rus)
Choi Jaegu. Introduction of the magnetic pulse compressor (mpc) – fundamental review and practical application // Journal of electrical engineering & technology. – 2010. – Vol 5. – №3. – Pp. 484–492.
Mankowski John, Kristiansen Magne. A review of short pulse generator technology // IEEE transactions on plasma science. – 2000. – Vol. 28. – № 1. – Pp. 102–108.
Takaki K., Kanesawa K., Mukaigawa S., Fujiwara T., Go T. Energy efficiency of corona discharge reactor driven by inductive energy storage system pulsed power generator // IEEE transactions on dielectrics and electrical in sulation. – 2007. – Vol. 14. – №. 4. – Рр. 834–845.
Takaki Koichi, Kirihara Hidekazu, Noda Chiharu, Mukaigawa Seiji, Fujiwara Tamiya. Production of an atmospheric-pressure glow discharge using an inductive energy storage pulsed power generator // Plasma Process. Polym. – 2006. – № 3. – Pp. 734–742.
Malik Muhammad Arif. Water purification by plasmas: which reactors are most energy efficient? // Plasma chemistry and plasma processes. – 2010. – № 30. – Pp. 21–31.
Sugai Taichi, Liu Wei, Tokuchi Akira, Jiang Weihua, Minamitani Yasushi. Influence of a circuit parameter for plasma water treatment by an inductive energy storage circuit using semiconductor opening switch // IEEE transac tions on plasma science. – 2013. – Vol. 41. – № 4. – Pp. 967–974.
Yokoo Tomoyuki, Saiki Kunihiko, Hotta Kazuaki, and Jiang Weihua. Repetitive pulsed high-voltage generator using semiconductor opening switch for atmospheric discharge // IEEE transactions on plasma science. – 2008. – Vol. 36. – № 5. – Рр. 2638–2643.
Zhang Yu and Liu Jinliang. Nanosecond-range multiple-pulse synchronization controlled by magnetic switches based on a communal magnetic core // IEEE transactions on plasma science. – 2013. – Vol. 41. – № 2. – Рр. 371–379.
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Copyright (c) 2023 Array