SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2016503008> ?p ?o ?g. }

Showing items 1 to 100 of ±104 with 100 items per page.

W2016503008 endingPage "181" @default.
W2016503008 startingPage "169" @default.
W2016503008 abstract "We present a series of analogue laboratory experiments which simulate the separation of ash and gas and the formation of secondary intrusions from finite volcanic umbrella plumes. We examined the lateral spreading of mixtures of freshwater and particles released into a laboratory tank containing a uniformly stratified aqueous solution. For times smaller than the sedimentation time of particles through the intrusion, the current remains coherent and intrudes laterally. As some of the particles settle into the underlying ambient fluid, a layer of particle-depleted fluid develops below the upper surface of the current and the density of the residual fluid is reduced. Over longer times, the intrusion ceases to be coherent, with small fingers of relatively buoyant, particle-depleted fluid rising from the upper part of the intrusion into the overlying fluid. Meanwhile, the lateral motion of the injected solution induces a return flow in the ambient fluid which sweeps some of the particles sedimenting from the lower surface of the intrusion inwards. As a result, relatively dense particle-laden fluid collects below the intrusion and then sinks into the underlying fluid. Eventually this fluid reaches a new neutral buoyancy height, where it intrudes to form a second laterally spreading current below the original intrusion. The process then repeats to form further weaker intrusions below. These results of the separation of the ash and volcanic gas in an umbrella plume are consistent with field observations at Sakurajima volcano where positively charged plumes, thought to consist of volcanic gas, have been observed above negatively charged plumes of ash. This work also suggests that volcanic aerosols may form up to a kilometer above the original injection height of the ash. In a strong wind shear, this could result in very different trajectories of the ash and gas and so be important for evaluating the impact of ash plumes on both aviation safety and volcanic aerosol formation. The separation of the ash from the umbrella plume, after a time of order 103−104 s, corroborates recent models of the May 18, 1980 eruption at Mount St. Helens that, after a few hours, the motion of the ash was simply controlled by wind dispersal and gravitational settling. The complex motion of the sedimenting ash may also explain some of the observations of multiple intrusions in short-lived umbrella plumes such as observed at Redoubt, Alaska in April 1990." @default.
W2016503008 created "2016-06-24" @default.
W2016503008 creator A5012133234 @default.
W2016503008 creator A5012550860 @default.
W2016503008 creator A5041987577 @default.
W2016503008 date "1996-03-01" @default.
W2016503008 modified "2023-10-17" @default.
W2016503008 title "Experiments on gas-ash separation processes in volcanic umbrella plumes" @default.
W2016503008 cites W1652894328 @default.
W2016503008 cites W1964279737 @default.
W2016503008 cites W1970313160 @default.
W2016503008 cites W1986895219 @default.
W2016503008 cites W2008632889 @default.
W2016503008 cites W2027588348 @default.
W2016503008 cites W2030568511 @default.
W2016503008 cites W2037963148 @default.
W2016503008 cites W2043278813 @default.
W2016503008 cites W2060706968 @default.
W2016503008 cites W2069920762 @default.
W2016503008 cites W2075957048 @default.
W2016503008 cites W2083704296 @default.
W2016503008 cites W2095966654 @default.
W2016503008 cites W2110570829 @default.
W2016503008 cites W2112433660 @default.
W2016503008 cites W2119701061 @default.
W2016503008 cites W2124625589 @default.
W2016503008 cites W2137310164 @default.
W2016503008 cites W2158427598 @default.
W2016503008 cites W2166022852 @default.
W2016503008 cites W2886288291 @default.
W2016503008 cites W4247006727 @default.
W2016503008 cites W4248036527 @default.
W2016503008 doi "https://doi.org/10.1016/0377-0273(95)00054-2" @default.
W2016503008 hasPublicationYear "1996" @default.
W2016503008 type Work @default.
W2016503008 sameAs 2016503008 @default.
W2016503008 citedByCount "58" @default.
W2016503008 countsByYear W20165030082012 @default.
W2016503008 countsByYear W20165030082013 @default.
W2016503008 countsByYear W20165030082014 @default.
W2016503008 countsByYear W20165030082015 @default.
W2016503008 countsByYear W20165030082016 @default.
W2016503008 countsByYear W20165030082017 @default.
W2016503008 countsByYear W20165030082019 @default.
W2016503008 countsByYear W20165030082020 @default.
W2016503008 countsByYear W20165030082021 @default.
W2016503008 countsByYear W20165030082023 @default.
W2016503008 crossrefType "journal-article" @default.
W2016503008 hasAuthorship W2016503008A5012133234 @default.
W2016503008 hasAuthorship W2016503008A5012550860 @default.
W2016503008 hasAuthorship W2016503008A5041987577 @default.
W2016503008 hasConcept C111368507 @default.
W2016503008 hasConcept C120806208 @default.
W2016503008 hasConcept C121332964 @default.
W2016503008 hasConcept C127313418 @default.
W2016503008 hasConcept C141614622 @default.
W2016503008 hasConcept C148043351 @default.
W2016503008 hasConcept C153294291 @default.
W2016503008 hasConcept C17409809 @default.
W2016503008 hasConcept C2775835907 @default.
W2016503008 hasConcept C2775840915 @default.
W2016503008 hasConcept C2778517922 @default.
W2016503008 hasConcept C538625479 @default.
W2016503008 hasConcept C57879066 @default.
W2016503008 hasConcept C5900021 @default.
W2016503008 hasConcept C8058405 @default.
W2016503008 hasConcept C90278072 @default.
W2016503008 hasConceptScore W2016503008C111368507 @default.
W2016503008 hasConceptScore W2016503008C120806208 @default.
W2016503008 hasConceptScore W2016503008C121332964 @default.
W2016503008 hasConceptScore W2016503008C127313418 @default.
W2016503008 hasConceptScore W2016503008C141614622 @default.
W2016503008 hasConceptScore W2016503008C148043351 @default.
W2016503008 hasConceptScore W2016503008C153294291 @default.
W2016503008 hasConceptScore W2016503008C17409809 @default.
W2016503008 hasConceptScore W2016503008C2775835907 @default.
W2016503008 hasConceptScore W2016503008C2775840915 @default.
W2016503008 hasConceptScore W2016503008C2778517922 @default.
W2016503008 hasConceptScore W2016503008C538625479 @default.
W2016503008 hasConceptScore W2016503008C57879066 @default.
W2016503008 hasConceptScore W2016503008C5900021 @default.
W2016503008 hasConceptScore W2016503008C8058405 @default.
W2016503008 hasConceptScore W2016503008C90278072 @default.
W2016503008 hasIssue "3-4" @default.
W2016503008 hasLocation W20165030081 @default.
W2016503008 hasOpenAccess W2016503008 @default.
W2016503008 hasPrimaryLocation W20165030081 @default.
W2016503008 hasRelatedWork W1980963471 @default.
W2016503008 hasRelatedWork W2016503008 @default.
W2016503008 hasRelatedWork W2016735661 @default.
W2016503008 hasRelatedWork W2017204591 @default.
W2016503008 hasRelatedWork W2040943061 @default.
W2016503008 hasRelatedWork W2066025154 @default.
W2016503008 hasRelatedWork W2068636725 @default.
W2016503008 hasRelatedWork W2095159051 @default.
W2016503008 hasRelatedWork W2942206357 @default.
W2016503008 hasRelatedWork W4292827561 @default.
W2016503008 hasVolume "70" @default.