The floating nuclear power plant is a moving nuclear power station at sea, it is a combination of marine engineering and nuclear engineering. It can provide safe and effective energy supply for remote islands, offshore oil exploitation and seawater desalination etc. Since it is compact in structure, and the ship hull is directly used as the ground loop, it is prone to generating different fault forms. Thus, the fault line selection protection should be accurate, sensitive and adaptive. In order to give consideration to the operation safety and the protection sensitivity in case of various ground faults, a fault line selection method in cooperation with multi-mode grounding control is presented. Based on the maximum united energy entropy ratio (MUEER), the optimal wavelet basis function and decomposition scale are adaptively chosen, while the fault line is selected by wavelet transform modulus maxima (WTMM). For high-impedance faults (HIFs), to enlarge the fault feature, the system grounding mode is switched by multi-mode grounding control, and the fault line is selected by comparing phase differences of zero-sequence current mutation and fault phase voltage mutation before and after the fault. Simulation results show the effectiveness of the proposed method in solving the protection problems.
Aims and scope
Protection and Control of Modern Power Systems is an international academic journal co-published by Power System Protection and Control Press and Springer. The journal is devoted to presenting new theories, technologies and top-level academic achievements in the field of protection and control in modern power systems. It strives to accelerate the development of the field by serving as a bridge between Chinese and global researchers in the field. In doing so, Protection and Control of Modern Power Systems makes an important contribution to the power industry.
The journal has international authorship and a broad scope, including contemporary topics such as:
power system relay protection
power system analysis and control
power system planning
internet of energy
alternative energy generation
smart substations
intelligent power transmission and utilization techniques
interactions between large-scale electric vehicles and power grids
microgrid techniques
application of power electronics in power systems
electric power automation and remote control techniques
power system communication
power quality
electricity market