Kuhlman et al., 1986 - Google Patents
Performance of high-power gas-flow spark gapsKuhlman et al., 1986
- Document ID
- 6472344909871086534
- Author
- Kuhlman J
- Molen G
- Publication year
- Publication venue
- AIAA journal
External Links
Snippet
Results of an experimental investigation of the performance of repetitively pulsed gas-flow spark gaps are presented. Interelectrode gas-flow velocity and turbulence levels have been documented using pitot and hot-wire probes while transient arc debris behavior has been …
- 238000011084 recovery 0 abstract description 64
Similar Documents
Publication | Publication Date | Title |
---|---|---|
Owsenek et al. | Theoretical and experimental study of electrohydrodynamic heat transfer enhancement through wire-plate corona discharge | |
Yabe et al. | EHD study of the corona wind between wire and plate electrodes | |
Reed et al. | Supersonic laminar flow control on swept wings using distributed roughness | |
Kimmel et al. | Effect of surface plasma discharges on boundary layers at Mach 5 | |
Eliezer et al. | Double layer (DL) formation in laser-produced plasma | |
Xie et al. | Characterization of plasma synthetic jet actuator with Laval-shaped exit and application to drag reduction in supersonic flow | |
Kuhlman et al. | Performance of high-power gas-flow spark gaps | |
Komuro et al. | Multiple control modes of nanosecond-pulse-driven plasma-actuator evaluated by forces, static pressure, and PIV measurements | |
Hench et al. | Two-dimensional diffuser performance with subsonic, two-phase, air–water flow | |
Mahdavi et al. | A single unsteady DBD plasma actuator excited by applying two high voltages simultaneously for flow control | |
Kumar et al. | A hybrid battery thermal management system using ionic wind and phase change material | |
Cargill et al. | The energetics of steady—state flows in the solar corona | |
Gau et al. | Measurements of heat transfer and flow structure in heated vertical channels | |
Nelson et al. | Corona discharge effects on heat transfer and pressure drop in tube flows | |
D’Adamo et al. | Control of the airflow close to a flat plate with electrohydrodynamic actuators | |
Wang | Flow in narrow curved channels | |
Bohinsky et al. | Induction electrohydrodynamic pumping-Selecting an optimum working fluid | |
Correale et al. | Induced velocity and density gradients due to nanosecond plasma actuation | |
Ko et al. | Experimental investigations on effectiveness, heat transfer coefficient, and turbulence of film cooling | |
Kimmel et al. | Application of plasma discharge arrays to high-speed flow control | |
Evtushenko et al. | The effect of a magnetic field on heat transfer in a slotted channel | |
Leonov et al. | Supersonic/transonic flow control by electro-discharge plasma technique | |
GARDEN | Local heat-transfer coefficients in a nozzle with high-speed laminarflow. | |
Chedevergne et al. | Applications of dielectric barrier discharges and plasma synthetic jet actuators at onera | |
Nagel’ | Electrical charging of engines in the efflux of combustion products. Experimental results |