Qipin Xu scite author profile

Qipin Xu

5Publications

5Citation Statements Received

19Citation Statements Given

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Affiliations

NARI Group (China), Electric Power Research Institute

Publications

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Coordinate Control Strategy for Current Stabilization in an Aluminum Smelter Including on Load Tap Changer

Xu¹,

Xu²,

Gao³

et al. 2013

EPE

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The performance of the current stabilization control system in an aluminum smelter affects the quality and the quantity of the electrolytic products. This paper elaborates the power supply, in which the diode rectifiers and the self-saturable reactors could keep the series current stable, then describes the basic principle of the rectifier unit control and the series current control. A coordinate strategy is proposed to keep the series current stable, the self-saturable reactors are controlled by a proportional-integral control scheme and the on load tap changers of transformer are triggered by the errors between the setting value of the series voltage and the measured values of the series voltage. Simulation results on PSCAD/EMTDC show that the effectiveness of the proposed strategy to keep the series current stable.

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Design of static self shunt excitation system for giant hydro generator

Shao

Huo

et al. 2013

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Retrospect and Prospect of NARI Generator Excitation System

Shao

Zhao

2013

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Tuning of power system stabilizer for large nuclear turbine-generator

Huang¹,

Zhao

2017

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Simulation of heat transfer and air cooling in a power rectifier cabinet for generator excitation system

Shao

Huo

et al. 2015

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As an important part of the modern generator excitation system, the power rectifier cabinet accommodates the silicon-controlled rectifiers (SCRs) whose junction temperature should be kept within limit at all times. For excitation systems of 1000MW steam turbine generator and 700WM hydro generator, the required output DC current for each rectifier cabinet can be as high as 4,000A, which raises challenge for cooling design. Meanwhile, under normal operation conditions, excessive cooling wastes energy and causes frequent change of air filter due to high volume cooling air flow. In order to optimize the cooling design, the heat transfer and cooling processes are simulated for a power rectifier cabinet with 6 SCRs and using forced air cooling. First the heat generated by the SCR is calculated as a function of the rectifier cabinet output current. 3D implicit unsteady k-ε turbulent model is used to simulate the air flow. The energy is coupled between the solid and the fluid (air) to reflect the heat transfer from the SCR to the heat sink and then to the cooling air. For given output current and inlet air velocity, the temperature of the SCRs, heat sinks and the cooling air is simulated; the air velocity at each location in the cabinet is also calculated. The simulation results showed good agreement with the experiment data which laid the foundation for future application of the simulation tool.

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Qipin Xu

Coordinate Control Strategy for Current Stabilization in an Aluminum Smelter Including on Load Tap Changer

Design of static self shunt excitation system for giant hydro generator

Retrospect and Prospect of NARI Generator Excitation System

Tuning of power system stabilizer for large nuclear turbine-generator

Simulation of heat transfer and air cooling in a power rectifier cabinet for generator excitation system

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