| NR-PSS (Nonlinear Robust Power System Stabilizer) for large synchronous generators and its large disturbance experiments on real time digital simulator | |
| Alternative Title | NR-PSS (Nonlinear Robust Power System Stabilizer) for large synchronous generators and its large disturbance experiments on real time digital simulator |
| Lu Qiang1; Zheng ShaoMing1; Mei ShengWei1; Wang Gang2; Huang Qili2 | |
| 2008 | |
| Source Publication | SCIENCE IN CHINA SERIES E-TECHNOLOGICAL SCIENCES
 |
| ISSN | 1006-9321 |
| Volume | 51Issue:4Pages:337-352 |
| Abstract | On the foundation of nonlinear robust control and exact generator model, this paper presents a design principle of NR-PSS (Nonlinear Robust Power System Stabilizer) for multi-machine power system, based on which an industrial NR-PSS equipment is developed. For popularizing it, the proposed parameter setting method of NR-PSS is completely the same as the widely used parameter adjustment rule of PSS. By virtue of real time digital simulator (RTDS), large disturbance experiments are carried out to compare the performances between generator excitation system equipped with NR-PSS and PSS in order to verify the correctness of design theory. The results show that compared with classical PSS, the proposed NR-PSS can dramatically improve the generator damping and attenuate the oscillation much faster, enhance the generator damping and raise both the small signal and large disturbance transient stability transmission power limit remarkably. The NR-PSS equipment with independent intellectual property right has been successfully put into operation on a 300 MW generator in Baishan Hydro Plant of Northeast China Grid more than 10 months. |
| Other Abstract | On the foundation of nonlinear robust control and exact generator model, this paper presents a design principle of NR-PSS (Nonlinear Robust Power System Stabilizer) for multi-machine power system, based on which an industrial NR-PSS equipment is developed. For popularizing it, the proposed parameter setting method of NR-PSS is completely the same as the widely used parameter adjustment rule of PSS. By virtue of real time digital simulator (RTDS), large disturbance experiments are carried out to compare the performances between generator excitation system equipped with NR-PSS and PSS in order to verify the correctness of design theory. The results show that compared with classical PSS, the proposed NR-PSS can dramatically improve the generator damping and attenuate the oscillation much faster, enhance the generator damping and raise both the small signal and large disturbance transient stability transmission power limit remarkably. The NR-PSS equipment with independent intellectual property right has been successfully put into operation on a 300 MW generator in Baishan Hydro Plant of Northeast China Grid more than 10 months. |
| Keyword | EXCITATION CONTROL nonlinear robust control power system stabilizer real time digital simulation system large disturbance experiments |
| Indexed By | CSCD |
| Language | 英语 |
| CSCD ID | CSCD:3631210 |
| Citation statistics | |
| Document Type | 期刊论文 |
| Identifier | http://ir.imr.ac.cn/handle/321006/157178 |
| Collection | 中国科学院金属研究所 |
| Affiliation | 1.清华大学 2.中国科学院金属研究所 |
| Recommended Citation GB/T 7714 | Lu Qiang,Zheng ShaoMing,Mei ShengWei,et al. NR-PSS (Nonlinear Robust Power System Stabilizer) for large synchronous generators and its large disturbance experiments on real time digital simulator[J]. SCIENCE IN CHINA SERIES E-TECHNOLOGICAL SCIENCES,2008,51(4):337-352. |
| APA | Lu Qiang,Zheng ShaoMing,Mei ShengWei,Wang Gang,&Huang Qili.(2008).NR-PSS (Nonlinear Robust Power System Stabilizer) for large synchronous generators and its large disturbance experiments on real time digital simulator.SCIENCE IN CHINA SERIES E-TECHNOLOGICAL SCIENCES,51(4),337-352. |
| MLA | Lu Qiang,et al."NR-PSS (Nonlinear Robust Power System Stabilizer) for large synchronous generators and its large disturbance experiments on real time digital simulator".SCIENCE IN CHINA SERIES E-TECHNOLOGICAL SCIENCES 51.4(2008):337-352. |
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