A non-steady state diagenetic model for changes in sediment biogeochemistry in response to seasonally hypoxic/anoxic conditions in the “dead zone” of the Louisiana shelf

AbstractWe examine the evolution of the snow line in a protoplanetary disc. If the magneto-rotational instability (MRI) drives turbulence throughout the disc, there is a unique snow line outside of which the disc is icy. The snow line moves closer to the star as the infall accretion rate drops. Because the snow line moves inside the radius of the Earth's orbit, the formation of our water-devoid planet is difficult with this model. However, protoplanetary discs are not likely to be sufficiently ionised to be fully turbulent. A dead zone at the mid-plane slows the flow of material through the disc and a global steady state cannot be achieved. We model the evolution of the snow line also in a disc with a dead zone. As the mass is accumulating, the outer parts of the dead zone become self gravitating, heat the massive disc and thus the outer snow line does not come inside the radius of the Earth's orbit. With this model there is sufficient time and mass in the disc for the Earth to form from water-devoid planetesimals at a radius of 1AU. Furthermore, the additional inner icy region within the dead zone predicted by this model may allow for the formation of giant planets close to their host star without the need for much migration.

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LIFE IN THE DEAD ZONE: A DIVERSE MIOCENE ICHNOFAUNA PRESERVED IN VOLCANIC ASH, ASHFALL FOSSIL BEDS STATE HISTORICAL PARK, NEBRASKA, USA

10.1130/abs/2018am-318389 ◽

2018 ◽

Author(s):

Jon J. Smith ◽

◽

R.M. Joeckel ◽

Rick E. Otto ◽

Shane T. Tucker

Keyword(s):

Volcanic Ash ◽

Dead Zone ◽

The Dead

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Study on the "Dead Zone" of the Operation of the Automatic Device for Elimination of the Asynchronous Operation of Overhead Power Transmission Lines

10.1109/uralcon52005.2021.9559567 ◽

2021 ◽

Author(s):

V. A. Kizin ◽

A. Yu. Smirnova ◽

S. S. Shovkoplyas

Keyword(s):

Transmission Lines ◽

Power Transmission ◽

Dead Zone ◽

Automatic Device ◽

Power Transmission Lines ◽

Asynchronous Operation ◽

Overhead Power Transmission Lines ◽

The Dead

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Improved Pole-placement Control with Feed-forward Dead Zone Compensation for Position Tracking of Electro-Pneumatic Actuator System Improved Pole-placement Control with Feed-forward Dead Zone Compensation for Position Tracking of Electro-Pneumatic Actuato

ELEKTRIKA- Journal of Electrical Engineering ◽

10.11113/elektrika.v20n2.272 ◽

2021 ◽

Vol 20 (2) ◽

pp. 25-32

Author(s):

Noorhazirah Sunar ◽

Mohd Fua’ad Rahmat ◽

Ahmad ‘Athif Mohd Fauzi ◽

Zool Hilmi Ismail ◽

Siti Marhanis Osman ◽

...

Keyword(s):

Dead Zone ◽

Pneumatic Actuator ◽

Pole Placement ◽

Position Tracking ◽

Zone Model ◽

Feed Forward ◽

The Dead ◽

Chattering Effect ◽

Pole Placement Controller ◽

Pole Placement Control

Dead-zone in the valve degraded the performances of the Electro-Pneumatic Actuator (EPA) system. It makes the system difficult to control, become unstable and leads to chattering effect nearest desired position. In order to cater this issue, the EPA system transfer function and the dead-zone model is identified by MATLAB SI toolbox and the Particle Swarm Optimization (PSO) algorithm respectively. Then a parametric control is designed based on pole-placement approach and combine with feed-forward inverse dead-zone compensation. To reduce chattering effect, a smooth parameter is added to the controller output. The advantages of using these techniques are the chattering effect and the dead-zone of the EPA system is reduced. Moreover, the feed-forward system improves the transient performance. The results are compared with the pole-placement control (1) without compensator and (2) with conventional dead-zone compensator. Based on the experimental results, the proposed controller reduced the chattering effect due to the controller output of conventional dead-zone compensation, 90% of the pole-placement controller steady-state error and 30% and 40% of the pole-placement controller with conventional dead-zone compensation settling time and rise time.

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The Dead Zone in System Identification

Bounding Approaches to System Identification ◽

10.1007/978-1-4757-9545-5_5 ◽

1996 ◽

pp. 69-82

Author(s):

K. Forsman ◽

L. Ljung

Keyword(s):

System Identification ◽

Dead Zone ◽

The Dead

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Properties of the dead zone due to the gas cushion effect in PBX 9502

10.1063/1.5044957 ◽

2018 ◽

Author(s):

William W. Anderson

Keyword(s):

Dead Zone ◽

The Dead

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Piecewise Nonlinear Energy Sink

Volume 8: 27th Conference on Mechanical Vibration and Noise ◽

10.1115/detc2015-47301 ◽

2015 ◽

Cited By ~ 1

Author(s):

Mohammad A. Al-Shudeifat

Keyword(s):

Dead Zone ◽

Linear Structure ◽

Nonlinear Energy Sink ◽

Viscous Damping ◽

Nonlinear Stiffness ◽

Flexible Design ◽

Energy Inputs ◽

Energy Sink ◽

The Dead ◽

Nonlinear Energy

Symmetric piecewise nonlinearities are employed here to design highly efficient nonlinear energy sink (NES). These symmetric piecewise nonlinearities are usually called in the literature as dead-zone nonlinearities. The proposed dead-zone NES includes symmetric clearance about its equilibrium position in which zero stiffness and linear viscous damping are incorporated. At the boundaries of the symmetric clearance, the NES is coupled to the linear structure by either linear or nonlinear stiffness components in addition to similar viscous damping to that in the clearance zone. By this flexible design of the dead-zone NES, we obtain a considerable enhancement in the NES efficiency at moderate and severe energy inputs. Moreover, the dead-zone NES is also found here through numerical simulations to be more robust for damping and stiffness variations than the linear absorber and some other types of NESs.

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Experimental investigation on steady granular flows interacting with an obstacle down an inclined channel: study of the dead zone upstream from the obstacle. Application to interaction between dense snow avalanches and defence structures

Natural Hazards and Earth System Science ◽

10.5194/nhess-2-187-2002 ◽

2002 ◽

Vol 2 (3/4) ◽

pp. 187-191 ◽

Cited By ~ 29

Author(s):

T. Faug ◽

P. Lachamp ◽

M. Naaim

Keyword(s):

Experimental Investigation ◽

Dead Zone ◽

Granular Flows ◽

Friction Angle ◽

Snow Avalanches ◽

Zone Length ◽

Inclined Channel ◽

Zone Of Influence ◽

The Dead ◽

Obstacle Height

Abstract. An experimental investigation with dry granular flows passing over an obstacle down a rough inclined channel has been performed. The aim is to improve our understanding of the interaction between dense snow avalanches and defence structures. Specific attention was directed to the study of the zone of influence upstream from the obstacle, linked to the formation of a dead zone. The dead zone length L was systematically measured as a function of the obstacle height H and the channel inclination θ, for several discharges. In a whole range of channel inclinations, all the data are shown to collapse into a single curve when properly scaled. The scaling is based on the introduction of a theoretical deposit length (depending on H, θ and the internal friction angle of the material, φ) and a Froude number of the flow depending on the obstacle height.

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