FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1479804567> ?p ?o ?g. }

• W1479804567 abstract "Over the last 30 years tropical cyclone (TC) intensity forecasts, for various (yet somewhat puzzling) reasons, have not achieved near the level of improvement of the TC track forecast. Although TCs have been studied intensively throughout the twentieth century, the community has surprisingly little quantitative knowledge as to how these storms interact with their environments, particularly with respect to changes in core structure (Frank & Ritchie, 1999). Rogers et al. (2006) stated that the lack of skill in numerical forecast of TC intensity can be partly attributed to inadequate understanding of the physics of TCs and the way they interact with their environment. In fact, TC structure and intensity changes are affected by a large and complex array of physical processes that govern the inner core structure and the interaction between the storm and both the underlying ocean and its atmospheric environment (Wang & Wu, 2004). Among other issues cited, crude parameterizations, difficulties in treating multiscale interactions, and the uncertainties involved with initializing the model over areas with sparse data coverage have received substantial attention. In order to predict TC intensity, one of the important questions has been how to first accurately predict a TC’s maximum potential intensity (MPI). Despite the fact that various methods for predicting a storm’s MPI have been put forth, the failure of the NWP community to realistically forecast TC intensity largely lies in the fact that there are various unexplained processes keeping TCs from reaching their theoretical MPI. While the mechanisms involved are myriad, there are essentially two kinds that have been identified as having the largest impact on TC intensification: 1) internal dynamics and 2) external forcing from environmental flow. Below these two headings fall most TC intensity-related topics: vertical wind shear-induced asymmetries in the core region, the cooling of the sea surface due to oceanic upwelling under the eyewall region, the role of inner and outer rainbands, vortex Rossby waves (VRWs), embedded mesovortices, and eyewall cycles. Tropical cyclones often fail to reach their theoretical MPI because prominent MPI calculations use the basic assumption of TC axisymmetry (Camp & Montgomery, 2001), whereas TC structure is rarely symmetric, even in mature storms. While the tangential wind field and other TC features are axisymmetric, many significant features, such as VRWs, eyewall cycles, rainfall, convection, radial winds, and outer rainbands are often highly asymmetric attributes that impact TC intensity change; it is thus no surprise that nearly all TCs fail to reach their MPI." @default.
• W1479804567 created "2016-06-24" @default.
• W1479804567 creator A5013573767 @default.
• W1479804567 creator A5080150640 @default.
• W1479804567 date "2011-04-19" @default.
• W1479804567 modified "2023-10-16" @default.
• W1479804567 title "How Vertical Wind Shear Affects Tropical Cyclone Intensity Change: An Overview" @default.
• W1479804567 cites W1590958563 @default.
• W1479804567 cites W1968055979 @default.
• W1479804567 cites W1968783543 @default.
• W1479804567 cites W1982561363 @default.
• W1479804567 cites W1987334986 @default.
• W1479804567 cites W1987368517 @default.
• W1479804567 cites W1994544390 @default.
• W1479804567 cites W2001351897 @default.
• W1479804567 cites W2002398069 @default.
• W1479804567 cites W2003480869 @default.
• W1479804567 cites W2013601638 @default.
• W1479804567 cites W2017367009 @default.
• W1479804567 cites W2022462310 @default.
• W1479804567 cites W2022979451 @default.
• W1479804567 cites W2039634464 @default.
• W1479804567 cites W2047997348 @default.
• W1479804567 cites W2058313193 @default.
• W1479804567 cites W2058358090 @default.
• W1479804567 cites W2061587227 @default.
• W1479804567 cites W2064316835 @default.
• W1479804567 cites W2064342200 @default.
• W1479804567 cites W2069507101 @default.
• W1479804567 cites W2069517046 @default.
• W1479804567 cites W2074382158 @default.
• W1479804567 cites W2075721875 @default.
• W1479804567 cites W2097376228 @default.
• W1479804567 cites W2099319298 @default.
• W1479804567 cites W2101234936 @default.
• W1479804567 cites W2107260875 @default.
• W1479804567 cites W2109908644 @default.
• W1479804567 cites W2130037441 @default.
• W1479804567 cites W2132608817 @default.
• W1479804567 cites W2134951437 @default.
• W1479804567 cites W2144242946 @default.
• W1479804567 cites W2156911550 @default.
• W1479804567 cites W2160034911 @default.
• W1479804567 cites W2169101778 @default.
• W1479804567 cites W2171072599 @default.
• W1479804567 cites W2172794848 @default.
• W1479804567 cites W2173958970 @default.
• W1479804567 cites W2174427792 @default.
• W1479804567 cites W2177631287 @default.
• W1479804567 cites W2179077214 @default.
• W1479804567 cites W2180096630 @default.
• W1479804567 cites W2307508937 @default.
• W1479804567 doi "https://doi.org/10.5772/15416" @default.
• W1479804567 hasPublicationYear "2011" @default.
• W1479804567 type Work @default.
• W1479804567 sameAs 1479804567 @default.
• W1479804567 citedByCount "1" @default.
• W1479804567 countsByYear W14798045672020 @default.
• W1479804567 crossrefType "book-chapter" @default.
• W1479804567 hasAuthorship W1479804567A5013573767 @default.
• W1479804567 hasAuthorship W1479804567A5080150640 @default.
• W1479804567 hasBestOaLocation W14798045671 @default.
• W1479804567 hasConcept C120665830 @default.
• W1479804567 hasConcept C121332964 @default.
• W1479804567 hasConcept C127313418 @default.
• W1479804567 hasConcept C135558025 @default.
• W1479804567 hasConcept C153294291 @default.
• W1479804567 hasConcept C161067210 @default.
• W1479804567 hasConcept C205649164 @default.
• W1479804567 hasConcept C29141058 @default.
• W1479804567 hasConcept C39432304 @default.
• W1479804567 hasConcept C49204034 @default.
• W1479804567 hasConcept C91586092 @default.
• W1479804567 hasConcept C93038891 @default.
• W1479804567 hasConceptScore W1479804567C120665830 @default.
• W1479804567 hasConceptScore W1479804567C121332964 @default.
• W1479804567 hasConceptScore W1479804567C127313418 @default.
• W1479804567 hasConceptScore W1479804567C135558025 @default.
• W1479804567 hasConceptScore W1479804567C153294291 @default.
• W1479804567 hasConceptScore W1479804567C161067210 @default.
• W1479804567 hasConceptScore W1479804567C205649164 @default.
• W1479804567 hasConceptScore W1479804567C29141058 @default.
• W1479804567 hasConceptScore W1479804567C39432304 @default.
• W1479804567 hasConceptScore W1479804567C49204034 @default.
• W1479804567 hasConceptScore W1479804567C91586092 @default.
• W1479804567 hasConceptScore W1479804567C93038891 @default.
• W1479804567 hasLocation W14798045671 @default.
• W1479804567 hasLocation W14798045672 @default.
• W1479804567 hasLocation W14798045673 @default.
• W1479804567 hasOpenAccess W1479804567 @default.
• W1479804567 hasPrimaryLocation W14798045671 @default.
• W1479804567 hasRelatedWork W1496045957 @default.
• W1479804567 hasRelatedWork W1560347388 @default.
• W1479804567 hasRelatedWork W1786329850 @default.
• W1479804567 hasRelatedWork W1966126068 @default.
• W1479804567 hasRelatedWork W2034630107 @default.
• W1479804567 hasRelatedWork W2387181433 @default.
• W1479804567 hasRelatedWork W2888304053 @default.
• W1479804567 hasRelatedWork W2995905919 @default.
• W1479804567 hasRelatedWork W4296088575 @default.

• next