SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2788694823> ?p ?o ?g. }

Showing items 1 to 100 of ±150 with 100 items per page.

W2788694823 endingPage "1152" @default.
W2788694823 startingPage "1138" @default.
W2788694823 abstract "As power systems grow reliant on an increasing mix of intermittent renewables, hydropower units are being called upon to provide more aggressive power-frequency control. This dynamic is enlarging the significance of interaction between hydraulic and electrical subsystems in hydropower plants (HPPs). The influence from HPPs on power system stability is of great importance, especially for hydro-dominant power systems like the Nordic power system and the China Southern Power Grid. This paper aims to quantify and reveal the influencing mechanism of the hydraulic damping of low frequency oscillations in power systems. An equivalent hydraulic turbine damping coefficient is introduced, and a nonlinear HPP model that combines electrical subsystems with a refined hydraulic-mechanical subsystem is established and verified. A novel quantifying methodology is proposed through simulations by two different models based on case studies on a Swedish HPP. Then, the quantification results of the damping coefficient are presented and the influencing mechanism behind is revealed, by studying three representative factors from the hydraulic-mechanical system: the delay in turbine governor systems, governor parameter and penstock length. Observations and discussions of on-site measurements are included to support the analysis. The results show that the damping effect from hydraulic turbines can be considerable. Based on the limited cases in the HPP, the damping coefficient can vary from + 3.0 to −2.3, while previously the contribution has been unclear and normally assumed to be positive. The phase shift in the mechanical power response with respect to the rotational speed deviation is an important reason for the different damping performance. Furthermore, the effect and significance of implementing the damping coefficient on cases with power system stabilizer (PSS) are demonstrated." @default.
W2788694823 created "2018-03-06" @default.
W2788694823 creator A5006660708 @default.
W2788694823 creator A5028679189 @default.
W2788694823 creator A5052447416 @default.
W2788694823 creator A5056132276 @default.
W2788694823 creator A5063724186 @default.
W2788694823 date "2018-02-01" @default.
W2788694823 modified "2023-10-16" @default.
W2788694823 title "Hydraulic damping mechanism of low frequency oscillations in power systems: Quantitative analysis using a nonlinear model of hydropower plants" @default.
W2788694823 cites W1562054501 @default.
W2788694823 cites W1613945908 @default.
W2788694823 cites W1766292175 @default.
W2788694823 cites W1888021673 @default.
W2788694823 cites W1953186523 @default.
W2788694823 cites W1954954576 @default.
W2788694823 cites W1974973307 @default.
W2788694823 cites W1985792167 @default.
W2788694823 cites W1988308886 @default.
W2788694823 cites W1993303182 @default.
W2788694823 cites W1995144153 @default.
W2788694823 cites W2015710540 @default.
W2788694823 cites W2017328410 @default.
W2788694823 cites W2017489132 @default.
W2788694823 cites W2024816556 @default.
W2788694823 cites W2025038608 @default.
W2788694823 cites W2038626716 @default.
W2788694823 cites W2038817033 @default.
W2788694823 cites W2053837293 @default.
W2788694823 cites W2060286961 @default.
W2788694823 cites W2090843220 @default.
W2788694823 cites W2098465888 @default.
W2788694823 cites W2108133402 @default.
W2788694823 cites W2120360031 @default.
W2788694823 cites W2142305592 @default.
W2788694823 cites W2148031098 @default.
W2788694823 cites W2148476832 @default.
W2788694823 cites W2154144189 @default.
W2788694823 cites W2156489230 @default.
W2788694823 cites W2162424914 @default.
W2788694823 cites W2169431255 @default.
W2788694823 cites W2194777039 @default.
W2788694823 cites W2313693346 @default.
W2788694823 cites W2345438420 @default.
W2788694823 cites W2345999395 @default.
W2788694823 cites W2409777074 @default.
W2788694823 cites W2426083912 @default.
W2788694823 cites W2517227747 @default.
W2788694823 cites W2519290791 @default.
W2788694823 cites W2530528969 @default.
W2788694823 cites W2550179005 @default.
W2788694823 cites W2555517684 @default.
W2788694823 cites W2559405007 @default.
W2788694823 cites W2587877663 @default.
W2788694823 cites W2596017693 @default.
W2788694823 cites W2741950990 @default.
W2788694823 cites W2760954098 @default.
W2788694823 cites W2775653746 @default.
W2788694823 cites W319016084 @default.
W2788694823 cites W4230211757 @default.
W2788694823 cites W4253601996 @default.
W2788694823 doi "https://doi.org/10.1016/j.apenergy.2018.01.002" @default.
W2788694823 hasPublicationYear "2018" @default.
W2788694823 type Work @default.
W2788694823 sameAs 2788694823 @default.
W2788694823 citedByCount "55" @default.
W2788694823 countsByYear W27886948232018 @default.
W2788694823 countsByYear W27886948232019 @default.
W2788694823 countsByYear W27886948232020 @default.
W2788694823 countsByYear W27886948232021 @default.
W2788694823 countsByYear W27886948232022 @default.
W2788694823 countsByYear W27886948232023 @default.
W2788694823 crossrefType "journal-article" @default.
W2788694823 hasAuthorship W2788694823A5006660708 @default.
W2788694823 hasAuthorship W2788694823A5028679189 @default.
W2788694823 hasAuthorship W2788694823A5052447416 @default.
W2788694823 hasAuthorship W2788694823A5056132276 @default.
W2788694823 hasAuthorship W2788694823A5063724186 @default.
W2788694823 hasBestOaLocation W27886948231 @default.
W2788694823 hasConcept C109871850 @default.
W2788694823 hasConcept C11394606 @default.
W2788694823 hasConcept C119599485 @default.
W2788694823 hasConcept C121332964 @default.
W2788694823 hasConcept C124139854 @default.
W2788694823 hasConcept C127413603 @default.
W2788694823 hasConcept C146978453 @default.
W2788694823 hasConcept C154945302 @default.
W2788694823 hasConcept C158622935 @default.
W2788694823 hasConcept C163258240 @default.
W2788694823 hasConcept C165801399 @default.
W2788694823 hasConcept C198394728 @default.
W2788694823 hasConcept C24890656 @default.
W2788694823 hasConcept C2775924081 @default.
W2788694823 hasConcept C2778449969 @default.
W2788694823 hasConcept C2781233147 @default.
W2788694823 hasConcept C40226289 @default.
W2788694823 hasConcept C40675005 @default.
W2788694823 hasConcept C41008148 @default.