FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1117466277> ?p ?o ?g. }

• W1117466277 endingPage "196" @default.
• W1117466277 startingPage "178" @default.
• W1117466277 abstract "Swirl combustion, whether of gaseous fuels or sprays, forms the basis of many thermal power generation systems and to effective design and optimisation of these complex systems has benefited from the development of reliable computational design tools which employ advanced modelling guided by measurements. Laboratory-scale burners which reduce the scale of the investigative challenge but retain the underlying fundamental behaviours associated with full- or pilot-scale set-ups play a key role in these advances. Such laboratory-scale burner platforms must embody essential phenomena present in full-scale systems such as the formation of primary and secondary recirculation zones. They must also span a dynamic operating envelope which allows the initiation of multi-modal (time varying) instabilities over a range of flame stabilization regimes. This paper presents a fixed-scope overview of experimental works on laboratory-scale swirl flame burners where significant reporting of results or data bases exists. The study focuses on selected gaseous fuel burners that span premixed, partially premixed and non-premixed combustion over unconfined and confined conditions. Whilst this is by no-means a comprehensive (topical) review into swirl combustion, it is aimed at guiding interested researchers in navigating a way through the vast literature published on laboratory-based swirl burners. These configurations typically encompass highly resolved flow- and/or compositional-fields derived from non-intrusive laser diagnostics. In addition to time-averaged flow-fields, measured data also typically includes flame stability/structure characteristics (flame shape/blow- or lift-off) as well as combustion instabilities. The paper draws upon a wide body of knowledge to summarise the current understanding of the effects of swirl and confinement on flow behaviour, emission characteristics, flame stabilization, and flow instability in laboratory-scale swirl burners." @default.
• W1117466277 created "2016-06-24" @default.
• W1117466277 creator A5028071427 @default.
• W1117466277 creator A5062338396 @default.
• W1117466277 date "2015-12-01" @default.
• W1117466277 modified "2023-10-18" @default.
• W1117466277 title "Review of laboratory swirl burners and experiments for model validation" @default.
• W1117466277 cites W1541308816 @default.
• W1117466277 cites W1963499211 @default.
• W1117466277 cites W1967963933 @default.
• W1117466277 cites W1970833114 @default.
• W1117466277 cites W1971227536 @default.
• W1117466277 cites W1972165716 @default.
• W1117466277 cites W1974825616 @default.
• W1117466277 cites W1977134282 @default.
• W1117466277 cites W1977659985 @default.
• W1117466277 cites W1979707910 @default.
• W1117466277 cites W1981181673 @default.
• W1117466277 cites W1982509217 @default.
• W1117466277 cites W1982964421 @default.
• W1117466277 cites W1984949799 @default.
• W1117466277 cites W1986927613 @default.
• W1117466277 cites W1987430134 @default.
• W1117466277 cites W1990274158 @default.
• W1117466277 cites W1990359099 @default.
• W1117466277 cites W1995007894 @default.
• W1117466277 cites W1995940402 @default.
• W1117466277 cites W1997067616 @default.
• W1117466277 cites W2007463326 @default.
• W1117466277 cites W2010430978 @default.
• W1117466277 cites W2014671044 @default.
• W1117466277 cites W2014978652 @default.
• W1117466277 cites W2016184656 @default.
• W1117466277 cites W2016836109 @default.
• W1117466277 cites W2018147915 @default.
• W1117466277 cites W2022178293 @default.
• W1117466277 cites W2023728472 @default.
• W1117466277 cites W2025018498 @default.
• W1117466277 cites W2026512773 @default.
• W1117466277 cites W2026583146 @default.
• W1117466277 cites W2026976090 @default.
• W1117466277 cites W2028270204 @default.
• W1117466277 cites W2029029237 @default.
• W1117466277 cites W2029994431 @default.
• W1117466277 cites W2031261344 @default.
• W1117466277 cites W2037012169 @default.
• W1117466277 cites W2040528634 @default.
• W1117466277 cites W2042454436 @default.
• W1117466277 cites W2044326212 @default.
• W1117466277 cites W2046255748 @default.
• W1117466277 cites W2049929785 @default.
• W1117466277 cites W2051210970 @default.
• W1117466277 cites W2052359296 @default.
• W1117466277 cites W2059732168 @default.
• W1117466277 cites W2064720454 @default.
• W1117466277 cites W2066246031 @default.
• W1117466277 cites W2066293147 @default.
• W1117466277 cites W2069106798 @default.
• W1117466277 cites W2069343590 @default.
• W1117466277 cites W2071624566 @default.
• W1117466277 cites W2071998904 @default.
• W1117466277 cites W2073036307 @default.
• W1117466277 cites W2074372729 @default.
• W1117466277 cites W2074892972 @default.
• W1117466277 cites W2076083403 @default.
• W1117466277 cites W2078506335 @default.
• W1117466277 cites W2080211192 @default.
• W1117466277 cites W2085891930 @default.
• W1117466277 cites W2086139459 @default.
• W1117466277 cites W2090071532 @default.
• W1117466277 cites W2090242702 @default.
• W1117466277 cites W2090682980 @default.
• W1117466277 cites W2092099591 @default.
• W1117466277 cites W2092331896 @default.
• W1117466277 cites W2092522825 @default.
• W1117466277 cites W2092587220 @default.
• W1117466277 cites W2095188539 @default.
• W1117466277 cites W2104193713 @default.
• W1117466277 cites W2109853474 @default.
• W1117466277 cites W2117724626 @default.
• W1117466277 cites W2126932531 @default.
• W1117466277 cites W2129061394 @default.
• W1117466277 cites W2131061307 @default.
• W1117466277 cites W2135773421 @default.
• W1117466277 cites W2137126708 @default.
• W1117466277 cites W2138579658 @default.
• W1117466277 cites W2298891432 @default.
• W1117466277 cites W2326362639 @default.
• W1117466277 cites W2615939240 @default.
• W1117466277 doi "https://doi.org/10.1016/j.expthermflusci.2015.07.023" @default.
• W1117466277 hasPublicationYear "2015" @default.
• W1117466277 type Work @default.
• W1117466277 sameAs 1117466277 @default.
• W1117466277 citedByCount "74" @default.
• W1117466277 countsByYear W11174662772016 @default.
• W1117466277 countsByYear W11174662772017 @default.
• W1117466277 countsByYear W11174662772018 @default.
• W1117466277 countsByYear W11174662772019 @default.

• next