Blackout

About: Blackout is a research topic. Over the lifetime, 2088 publications have been published within this topic receiving 30433 citations.

System and method for controlling access to video events associated with video broadcast services

Abstract: The video services receiver system and related operating methods disclosed herein enable better management of blackout information for events associated with a broadcast service, such as a satellite television service. A system for providing video content to a display for viewing by a customer includes a receiver interface configured to receive data associated with a service, a display interface for the display, at least one memory element configured to store dated blackout information for events on the service, and to store frequently updated blackout information for events on the service, and a processor coupled to the receiver interface, the display interface, and the at least one memory element. The processor is configured to control access to a current event on the service by analyzing both the dated blackout information and the frequently updated blackout information. The processor is configured to present video content associated with the current event if access is granted.

Research on Current-Limiting Control Strategy Suitable for Ground Faults in AC Microgrid

Abstract: On August 9, 2019, a blackout event with significant impacts occurred in the British power grid (BPG) The technical report submitted by the BPG points out that the accident originated from multiple independent and concurrent events, resulting in a sudden power shortage, which exceeded the fortification requirements of the relevant standards This incident has led us to reflect on some of the technical bottlenecks that exist in the high-proportion renewable energy system, such as frequency oscillations, security defense of large power grid, current-limiting, and so on Based on this background, this article studies a strong current-limiting control system suitable for ground faults in ac microgrid, which can limit the fault current to less than twice the rated current so that the distributed generators can go through multiple faults ride-through without offline operation Meanwhile, this control system does not need to switch the reference inductance current between normal and faults and can realize the smaller current harmonics and lower asymmetry amplitudes in the two states Simulation and experiment show that the method proposed in this article can adapt to a variety of ground faults

Computer experiments on Radio Blackout of a Reentry Vehicle

Abstract: We examined the radio blackout of a reentry vehicle by performing electromagnetic PIC (Particle-In-Cell) simulations. We focused on (1) blackout phenomenon and its avoidance with static magnetic field applied to the plasma, and (2) measurement of the reentry plasma layer with radio waves. Regarding (1), we could clearly show that the radio blackout occurs when the plasma frequency of reentry plasma exceeds the frequency of radio wave emitted from the vehicle. To avoid the radio blackout, we applied static magnetic field to the reentry plasma, which modifies the wave dispersion relation. We found that the radio waves can penetrate the reentry plasma mainly by whistler mode. Regarding (2), we found that the reflectometry method is applicable to the estimate of the spatial profile of the plasma layer, which utilizes the information of phase difference between the waves emitted from the antenna and reflected against the plasma layer. We can also obtain the maximum plasma density by searching for abrupt decrease in the field spectra of the reflected waves. 19 18 / 10 10 m − and it causes so called radio blackout (MaCabe and Stolwyk, 1962; Huber and Sims, 1964; Rybak and Churchill, 1971). During the blackout, radio waves emitted from the reentry vehicle cannot reach ground stations because they are reflected against the plasma layer. The theoretical analysis of the radio blackout is difficult because the reentry plasma has very steep gradient in space in a short distance compared to the wave length. Meanwhile active experiments in space provide significant data regarding the radio blackout. However, we cannot perform the experiments so often because they take a long time for the preparation and cost very much. In the present study, we analyzed the radio blackout by performing computer experiments with an electromagnetic PIC (Particle-In-Cell) code which solves the equation of motion for the plasma dynamics and Maxwell's equations for the associated electromagnetic fields at each time step. We also examined a method of blackout avoidance. Various methods concerning the blackout avoidance have been proposed mainly in the U.S. Although most of them are classified in the military and not open to the public, the simplest method is to apply magnetic field to the reentry plasma and locally modify the wave dispersion relation. We will examine the capability of this method by computer experiments. In the research of the radio blackout, we need to understand the parameters of the reentry plasma such as the density profile and the maximum density. Conventionally the density of the reentry plasma has been measured by using a probe with a help of CDF (Computational Fluid Dynamics) analysis. However, the probe data obtained in the temperature more than 500 degree is not reliable due to the breakdown of insulation. Instead of using a probe, we use radio waves to measure the reentry plasma. In the present study, we adopted the reflectometry method which is used in the fusion plasma measurement (Simonet, 1985). In the reflctometry we actively emit radio waves to plasma and obtain the reflected waves for the density measurement. The advantage is that the plasma environment is not perturbed by probe insertion. In the HYFLEX experiment (Itoh et al., 1996) this method was utilized to measure the density of the reentry plasma by using two different antennas. To examine the capability of this method in detail, we perform one-dimensional computer experiments with PIC (Particle In Cell) model. Radio Blackout and its avoidance In the computer experiments, we use an electromagnetic particle code called KEMPO which has been developed in the space plasma group of Kyoto university (Matsumoto et al., 1985). This simulation code basically solve the Maxwell equations for the fields and the equation of motion for the particles in the model region and enables us to trace not only linear but also nonlinear evolution of phenomena of interest. The model region for one-dimensional computer experiments is schematically illustrated in Figure 1. We focus on the vicinity of a reentry vehicle including a dense plasma layer. The y-z plane at x=0 corresponds to the vehicle surface. The reentry plasma is placed in front of the vehicle surface with a Gaussian distribution in space. By current oscillation at the vehicle surface, we radiate radio wave which propagates along the x direction. The electric and magnetic field components of the radiated wave oscillate in the y and z directions, respectively. In this model, we neglects the effects of the geomagnetic field and the collision frequency against neutral particles.

Study on security protection of transmission section to prevent cascading tripping and its key technologies

Abstract: Cascading overload trip due to lack of transmission section protection is an important reason of large-scale blackout. This paper illustrates the meaning of transmission section and points out that the objective of transmission security protection is to maintain its integrality and transmission capacity, and to avoid cascading overload trip. In addition, the implement condition and key technology are discussed, which are online capture of transmission section, real-time prediction of cascading overload and real-time emergency control to avoid cascading trip. This paper has brought forward the primary scheme. Its validity is verified by the calculation result of CEPRI 36 test system and a province system.