Add to ORKGLightning is considered one of the main causes of faults in overhead distribution networks. Direct strokes usually lead to flashovers due to the insulation levels that are used. Induced overvoltages caused by indirect lightning are usually lower and can be efficiently reduced by metal-oxide surge arresters. Hence, its associated flashover rate can be reduced. In this paper, a heuristic method is proposed to optimize the number of surge arresters as well as their locations. The method presented is based on genetic algorithms and an economic approach is taken into account by means of evaluating the cost of insulation flashover
Distributed Generators is being implemented in the distribution network to improve the performance o...
Abstract—In the present heavy load scenario, due to the presence of many small scale and large scale...
M. Tech. Electrical EngineeringReconfiguration of electric distribution networks is treated as an op...
The papers addresses the problem of locating surge protective devices in a medium voltage distributi...
A surge arrester diverts lightning surge to earth, preventing damage on electrical systems. Under no...
Among a variety of problems with communication lines, the faults of surge protection modules in rail...
Switching surges are of primary importance in insulation co-ordination of EHV lines, as well as in d...
In this paper, author considers three schemes to reduce the fault number caused by lightning on tran...
The optimized allocation of protective devices in strategic points of the circuit improves the quali...
Historically, the distribution network has been planned in order to operate in radial configuration....
Abstract. This paper presents a computational strategy proposal for optimise the physical arrangemen...
The adequate protection against lightning surges and the limitation of the expected annual failure r...
A blackout is usually the result of load increasing beyond the transmission capacity of the power sy...
The paper deals with the response of distribution networks to direct and indirect lightning. The res...
Purpose. Develop recommendations for determining the optimal places for the installation of nonlinea...
Distributed Generators is being implemented in the distribution network to improve the performance o...
Abstract—In the present heavy load scenario, due to the presence of many small scale and large scale...
M. Tech. Electrical EngineeringReconfiguration of electric distribution networks is treated as an op...
The papers addresses the problem of locating surge protective devices in a medium voltage distributi...
A surge arrester diverts lightning surge to earth, preventing damage on electrical systems. Under no...
Among a variety of problems with communication lines, the faults of surge protection modules in rail...
Switching surges are of primary importance in insulation co-ordination of EHV lines, as well as in d...
In this paper, author considers three schemes to reduce the fault number caused by lightning on tran...
The optimized allocation of protective devices in strategic points of the circuit improves the quali...
Historically, the distribution network has been planned in order to operate in radial configuration....
Abstract. This paper presents a computational strategy proposal for optimise the physical arrangemen...
The adequate protection against lightning surges and the limitation of the expected annual failure r...
A blackout is usually the result of load increasing beyond the transmission capacity of the power sy...
The paper deals with the response of distribution networks to direct and indirect lightning. The res...
Purpose. Develop recommendations for determining the optimal places for the installation of nonlinea...
Distributed Generators is being implemented in the distribution network to improve the performance o...
Abstract—In the present heavy load scenario, due to the presence of many small scale and large scale...
M. Tech. Electrical EngineeringReconfiguration of electric distribution networks is treated as an op...