A laboratory lightning model or fast keying is utilized to examine the specifications of the surge arrester in fast transient voltage. In addition to those previously mentioned, there are methods such as arrester temperature and electromagnetic field measurements that are used for the online testing of arresters. ![]() The leakage current can be evaluated in a variety of ways, such as investigating the amplitude of the leakage current, analysis of the total leakage-current harmonics, power loss, the study of resistive leakage current’s third order harmonic, and the capacitive current compensation method. Additionally, thermal imaging is one of the most used ways to diagnose the fault in the surge arrester. Some of the criteria used to assess the health of arresters include the leakage-current measurement, investigating the surge arrester characteristics in fast transient voltage, and partial discharge. Additionally, the location of surge arresters is important for protection and good performance. These faults could be due to thermal stresses, aging, and mistakes in the selection and installation of the arrester. The arrester similar to all engineering systems is vulnerable to different faults and harms. This is due to its high nonlinearity and quick performance under overvoltage. In this paper, a MOSA is investigated, as it is the most frequently used currently on the market. The electrical stresses that are applied to this protective equipment determine how long it will last, and estimating those stresses and lifetime is an interesting area of research. They are used to protect electronic equipment and work by electrically breaking down gas while regulating overvoltages on the equipment. Among the various arrester kinds, gas-filled arresters can be addressed. Surge arresters are frequently used in the distribution system to address overvoltage concerns and mitigate their potential drastic consequences. In such circumstances, the system’s operation may be jeopardized, leading to economic loss and consumers’ dissatisfaction. D-pad baixo: usar um item que revive aliados mortos na mesma sala da dungeon.Įsse jogo foi criado e desenvolvido por Ana Carolina Alves,Ĭomo trabalho de conclusão do curso de Design de Jogos e Entretenimento Digital da UNIVALI - Universidade do Vale do Itajaí, em Balneário Camboriú, Santa Catarina.One of the common distribution system vulnerabilities that negatively impact equipment is overvoltage brought on by lightning, switching capacitor banks, and ferroresonance.Analógico esquerdo: movimentação do jogador.Todos os controles a seguir são baseados em um controle de Xbox 360. Porém, tenham cuidado: se todos os jogadores morrerem, todo o progresso é perdido!Ĭontroles: Gamepad apenas. ![]() Jogue com amigos e derrote inúmeros monstros em dungeon s semi-procedurais, cada uma com dificuldade cada vez maior. This game was designed and developed by Ana Carolina Alves, as a final project for the Game Design and Digital Entertainment major at UNIVALI - University of Vale do Itajaí, located in Balneário Camboriú, Brazil.īonefighters é um dungeon crawler de 1 - 4 jogadores. D-pad down: use a revival to bring back a dead ally in the same dungeon room.All of the following inputs are based on an Xbox 360 controller. Be careful though: if all players die, all progress is lost!Ĭontrols: Gamepad only. Play with friends and defeat countless monsters in semi-procedural dungeons, each with increasing difficulty. ![]() Bonefighters is a 1 - 4 players couch co-op dungeon crawler.
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