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  • 1
    Monograph available for loan
    Monograph available for loan
    Zur Zeitabhängigkeit der thermischen Konvektion im Erdmantel und der doppelt-diffusiven Konvektion in Magmakammern (1987)
    Köln : Inst. für Geophysik und Meteorologie der Univ.
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    Call number: MOP Per 192(52)
    In: Mitteilungen aus dem Institut für Geophysik und Meteorologie der Universität zu Köln
    Type of Medium: Monograph available for loan
    Pages: 155 S. : graph. Darst.
    Series Statement: Mitteilungen aus dem Institut für Geophysik und Meteorologie der Universität zu Köln 52
    Note: Zugl.: Köln, Univ., Diss., 1987
    Location: MOP - must be ordered
    Branch Library: GFZ Library
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  • 2
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    Formation of Thermochemical Heterogeneities by Core‐Mantle Interaction (2023)
    Details
    Publication Date: 2023-10-26
    Description: Earth's core‐mantle boundary (CMB) shows a complex structure with various seismic anomalies such as the large low shear‐wave velocity provinces (LLSVPs) and ultra‐low velocity zones (ULVZs). As these structures are possibly induced by chemically distinct material forming a layer above the CMB, models of mantle convection made ad hoc assumptions to simulate the dynamics of this layer. In particular, density and mass were prescribed. Both conditions are critical for the dynamics but hardly constrained. Core‐mantle interaction is considered as one possible origin for this dense layer. For example, diffusion‐controlled enrichment of iron has been proposed. We here apply a chemical gradient between the mantle and the denser core to analyze the penetration of dense material into the mantle. As such, we employ 2D Cartesian models where a thermochemical layer at the base of the mantle develops self‐consistently by a diffusive chemical influx. Our simulations indicate that chemical diffusion is strongly affected by the convective mantle flow. This convection‐assisted diffusion yields a compositional influx mainly in the areas where slabs spread over the bottom boundary and sweep dense material aside to form accumulations with rising plumes atop. Like for a prescribed dense layer this process leads to chemically distinct piles, which are typically smaller (therefore more suited to explain ULVZs) but more persistent due to the constant chemical influx. Combining the influx scenario with the primordial layer can possibly explain the simultaneous existence of LLSVPs and ULVZs along with the observation of a core‐like isotopic composition in the mantle.
    Description: Plain Language Summary: The core‐mantle boundary (CMB) shows a complex structure. Seismologists have observed features that are possibly denser than their surroundings. These structures form from a dense layer above the CMB. Therefore typical mantle convection models have assumed an initial dense basal layer. The thickness and density of this prescribed layer are crucial but hardly constrained. Here we investigate core‐mantle interaction as one possible origin for this layer and employ 2D Cartesian models of mantle convection that consider a diffusive chemical gradient between the iron‐rich core and the silicate mantle. Our simulations show that the diffusive influx is coupled to the convective mantle flow. Convection‐assisted diffusion gives a larger influx beneath slabs spreading over the CMB. Additionally, as in the models with a prescribed layer, the rising plumes pull dense material up and form piles. In this study, however, the constant chemical influx leads to piles existing for longer times. The piles are typically smaller but can maybe in combination with a primordial layer explain different seismologically observed structures and the presence of core material in the mantle.
    Description: Key Points: We analyze convection‐assisted core‐mantle interaction in thermochemical mantle convection models. Dense material penetrates into the mantle as a result of a basal diffusive chemical influx, where penetration is promoted by convection. Small piles form with some of the dense core material being entrained by plumes.
    Description: Deutsche Forschungsgemeinschaft
    Description: https://doi.org/10.1080/03091929608208968
    Description: https://doi.org/10.1002/2015GC005807
    Description: https://doi.org/10.35003/JENO4T
    Keywords: ddc:551.1 ; core‐mantle interaction ; mantle convection ; LLSVPs ; ULVZs
    Language: English
    Type: doc-type:article
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  • 3
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    Layering by Double‐Diffusive Convection in the Subsurface Oceans of Europa and Enceladus (2022)
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    Publication Date: 2024-02-21
    Description: Subsurface oceans rich in salts may be prevalent in the icy worlds of the outer solar system. Surface observations have led to various hypotheses for the transport of materials from the seafloor to the surface by hydrothermal plumes, and raise questions about heat transfer mechanisms. Chemical heterogeneity affects the vigor of convection, the forms of plumes, the generation and destruction of stratified or finger structures in the ocean, and thus the transport of heat and materials from the interior to the surface. Here, we investigate the layering phenomenon in a double‐diffusive convection system, which can occur when both the temperature and concentration influence the density of the fluid. The persistence of layers may depend on the buoyancy ratio, the Rayleigh number, boundary conditions, and initial conditions, which alter the chemical distribution and thus the balance between thermal and chemical buoyancies. Our simulations suggest that the layering could exist for a longer duration if the buoyancy ratio is raised with boundary conditions that maintain a large concentration difference. When the layers are present, heat and material transport are significantly inhibited through the subsurface ocean from the silicate interior to the base of the icy shell.
    Description: Plain Language Summary: The subsurface oceans of icy satellites are almost certainly salt to some degree, and this gives rise to the possibility of layering by the process of double‐diffusive convection. The evolution of layers has long been a topic of interest for the terrestrial ocean, and under subsurface ocean conditions there are additional motives to study this phenomenon, as the layers can hinder heat and material transport and thus have to be taken into account when considering the evolution of the icy moons and what could be observed on the surface. We investigate the evolution of layers in a double‐diffusive convection system, where both the temperature and the concentration affect the density of the fluid. We examine the development of the first and subsequent layers, how they emerge and finally disappear, and what could prolong their lifetimes.
    Description: Key Points: Layer formation is possible in a subsurface ocean that is heated from below, enriched in salts at the bottom and fresher on top. Layering is a transient feature, but this can be long lasting if the concentration difference between the top and bottom is large. As heat and material transport is inhibited while layers exist, the subsurface ocean may not be efficient in transport.
    Description: DFG
    Description: https://doi.org/10.35003/OIT7ZO
    Keywords: ddc:523 ; subsurface oceans ; icy moons ; layering ; transport mechanism
    Language: English
    Type: doc-type:article
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  • 4
    Electronic Resource
    Electronic Resource
    Mixing in the transition to strong turbulence in infinite Prandtl number thermal convection as applied to the Earth's mantle (1991)
    New York, NY : American Institute of Physics (AIP)
    Physics of Fluids 3 (1991), S. 1452-1452 
    Details
    ISSN: 1089-7666
    Source: AIP Digital Archive
    Topics: Physics
    Notes: Recently there has developed a great deal of interest in the transition to hard turbulence in thermal convection. This transition and the corresponding hard turbulence regime has been the subject of laboratory and numerical experiments. Our study of convection at high Rayleigh numbers (Ra) has been motivated by the phenomenon of subsolidus mantle convection, whose Ra may range between 5×105 and O(108), depending on the still uncertain estimates of the lower-mantle viscosity. We have conducted a series of calculations at Ra spanning between 5×105 and 108 because we are interested in the transition from weak to strong turbulence in mantle convection and the effects this transition would have on mixing. We have employed a two-dimensional finite-element method, combined with an implicit, predictor–corrector, time-stepping scheme to advance the evolutionary temperature equation. The biharmonic equation for the streamfunction is solved exactly by a variational equation at each time step. We present direct numerical simulations of two-dimensional, high Ra thermal convection for constant property fluids with both base-heated and partially internally heated configurations in large-aspect-ratio boxes (up to 10).We will emphasize the importance of visualization of these strongly time-dependent results, as they present a formidable challenge in the management and analysis of the data. First, an adequate resolution of the boundary layer and mixing layer requires high resolution. In our large (10) aspect-ratio box runs we have employed around 27 000 unevenly spaced elements, resulting in about 105 unknowns per time step. Each run goes up to between 105 and 106 time steps in order to get many overturns of the dominant cells. We will present videos displaying the evolution of the physical fields, in particular the temperature and vorticity fields, which give a vivid portrayal of the mixing dynamics. Visualization is a handy medium for illustrating and also for discovering the richness of the mixing process, its multiple spatial and time scales in the transition from weak to strong turbulence. At Ra around 106, we have found that convection does not take place in a strictly cellular manner. Thermals emanate from the hot and cold boundary layers, which are superimposed on a large-scale type of circulation. These boundary layer instabilities enhance mixing of the interior.The fate of these instabilities is determined ultimately by the large-scale flow. With greater amounts of internal heating, the large-scale flow becomes smaller and mixing between distant regions is inhibited, but that between neighboring cells is enhanced by the changes of the flow pattern induced by internal heating. We have found a "mixing layer'' above the thermal boundary layer in the hard-turbulent regime. At high Ra, between 107 and 108, we find breakdown of globally connected thermal plumes for base-heated convection. In this hard-turbulent regime the plumes become disconnected, "podlike'' structures, thus inhibiting efficient vertical mixing. This disconnection of plumes in base-heated convection is to be regarded as a manifestation of the soft to hard turbulence transition. In the presence of internal heating and high Ra the descending cold boundary layers become dominant and serve to promote the interaction between the top and bottom, while the ascending plumes diminish in strength and disappear altogether. Mixing in the mantle thus influenced by the vigor in convection, the amount of internal heating, and the aspect ratio of the global configuration.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1063/1.858039
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  • 5
    Electronic Resource
    Electronic Resource
    The origin of a characteristic frequency in hard thermal turbulence (1991)
    New York, NY : American Institute of Physics (AIP)
    Physics of Fluids 3 (1991), S. 2003-2006 
    Details
    ISSN: 1089-7666
    Source: AIP Digital Archive
    Topics: Physics
    Notes: New methods are proposed for filtering the time series of heat flux which is useful for detecting the characteristic frequencies in hard turbulent convection. High-resolution solutions have been obtained for a Rayleigh (Ra) of 108 and infinite Prandtl number in a box with an aspect ratio of 1.8, in which the finest grid consisting of 140×400 bicubic splines was used. Successively higher temporal derivatives and high-pass spectral filtering of the Nusselt number at this high Ra reveal the existence of bursts. They are closely related to the presence of plumes in the thermal boundary layer in that there is a relative absence of activity in the boundary layer just before the onset of a burst and, on the other hand, there is a period of intense activity shortly before the end of a burst. These bursts are spaced evenly in time, thus yielding a single characteristic frequency, which may be related to a period associated with a pulsation mechanism in hard turbulent convection.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1063/1.857933
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  • 6
    Electronic Resource
    Electronic Resource
    Transitional steps in the solubilization of protein-containing membranes and liposomes by nonionic detergent (1993)
    s.l. : American Chemical Society
    Biochemistry 32 (1993), S. 1648-1656 
    Details
    ISSN: 1520-4995
    Source: ACS Legacy Archives
    Topics: Biology , Chemistry and Pharmacology
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1021/bi00057a032
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  • 7
    Electronic Resource
    Electronic Resource
    Indicator dyes as probes of electrostatic potential changes on macromolecular surfaces (1975)
    s.l. : American Chemical Society
    Biochemistry 14 (1975), S. 2317-2323 
    Details
    ISSN: 1520-4995
    Source: ACS Legacy Archives
    Topics: Biology , Chemistry and Pharmacology
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1021/bi00682a007
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  • 8
    Electronic Resource
    Electronic Resource
    Transition to hard turbulence in thermal convection at infinite Prandtl number (1990)
    New York, NY : American Institute of Physics (AIP)
    Physics of Fluids 2 (1990), S. 2157-2163 
    Details
    ISSN: 1089-7666
    Source: AIP Digital Archive
    Topics: Physics
    Notes: Direct numerical simulations of two-dimensional high Rayleigh (Ra) number, base-heated thermal convection in large aspect-ratio boxes are presented for infinite Prandtl number fluids, as applied to the Earth's mantle. A transition is characterized in the flow structures in the neighborhood of Ra between 107 and 108. These high Ra flows consist of large-scale cells with strong intermittent, boundary-layer instabilities. For Ra exceeding 107 it is found that the heat-transfer mechanism changes from one characterized by mushroom-like plumes to one consisting of disconnected ascending instabilities, which do not carry with them all the thermal anomaly from the bottom boundary layer. Plume–plume collisions become much more prominent in high Ra situations and have a tendency of generating a pulse-like behavior in the fixed plume. This type of instability represents a distinct mode of heat transfer in the hard turbulent regime. Predictions of this model can be used to address certain issues concerning the mode of time-dependent convection in the Earth's mantle.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1063/1.857802
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  • 9
    Electronic Resource
    Electronic Resource
    Mantle convection simulations with rheologies that generate plate-like behaviour (1998)
    [s.l.] : Macmillan Magazines Ltd.
    Nature 395 (1998), S. 686-689 
    Details
    ISSN: 1476-4687
    Source: Nature Archives 1869 - 2009
    Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics
    Notes: [Auszug] A long-standing problem in geodynamics is how to incorporate surface plates in numerical models of mantle convection. Plates have usually been inserted explicitly in convection models as rigidrafts, as a separate rheological layer, or as a high-viscosity region within weak zones. Plates have ...
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1038/27185
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  • 10
    Electronic Resource
    Electronic Resource
    Numerical simulations of thermal-chemical instabilities at the core–mantle boundary (1988)
    [s.l.] : Nature Publishing Group
    Nature 334 (1988), S. 237-240 
    Details
    ISSN: 1476-4687
    Source: Nature Archives 1869 - 2009
    Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics
    Notes: [Auszug] The seismically resolved anomalous zone above the core-mantle boundary (CMB) holds the key to understanding the dynamical behaviour of the D" region. Three-dimensional seismic studies4'6 indicate the existence of long-wavelength CMB topography. To date, most attempts2'7 to explain these topographic ...
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1038/334237a0
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