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Cold and hot composite curves of the base case for scenario A.

Cold and hot composite curves of the base case for scenario A.

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in Energy Efficiency Investigation of Natural Gas Hydrate Exploitation Integrated with Methane Reforming > Energy Systems and ProcessesRecent Advances in Design and Control
Published: March 2023
FIG. 2.10 Cold and hot composite curves of the base case for scenario A. More about this image found in Cold and hot composite curves of the base case for scenario A.
Images
Cross-sectional SEM image of a BCZT/CFO/BCZT ME composite.

Cross-sectional SEM image of a BCZT/CFO/BCZT ME composite.

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in Strain Engineering in 2-2 Multilayered Magneto-Electric (ME) Nanocomposites > Strain Engineering in Functional Materials and Devices
Published: March 2023
FIG. 10.2 Cross-sectional SEM image of a BCZT/CFO/BCZT ME composite. More about this image found in Cross-sectional SEM image of a BCZT/CFO/BCZT ME composite.
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Comparison of exergy ratio and methane composition in produced gas for the three scenarios.

Comparison of exergy ratio and methane composition in produced gas for the ...

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in Energy Efficiency Investigation of Natural Gas Hydrate Exploitation Integrated with Methane Reforming > Energy Systems and ProcessesRecent Advances in Design and Control
Published: March 2023
FIG. 2.7 Comparison of exergy ratio and methane composition in produced gas for the three scenarios. More about this image found in Comparison of exergy ratio and methane composition in produced gas for the ...
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Gas composition at equilibrium as a function of CO2(ads)/CO2(g) (feed mole ratio = 1/3, P = 5 bar and T = 500 ∘C) (Li, 2008).

Gas composition at equilibrium as a function of CO 2 ( ads ) /C...

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in Adsorption Enhanced Reforming for High-Efficiency Hydrogen Generation > Energy Systems and ProcessesRecent Advances in Design and Control
Published: March 2023
FIG. 4.3 Gas composition at equilibrium as a function of CO 2 ( ads ) /CO 2 ( g ) (feed mole ratio = 1/3, P = 5 bar and T = 500 ∘ C ) ( Li, 2008 ). More about this image found in Gas composition at equilibrium as a function of CO 2 ( ads ) /C...
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Computational results of spatial distribution of gas composition, velocity, temperature and CO2 loading at the end of the production cycle.

Computational results of spatial distribution of gas composition, velocity,...

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in Adsorption Enhanced Reforming for High-Efficiency Hydrogen Generation > Energy Systems and ProcessesRecent Advances in Design and Control
Published: March 2023
FIG. 4.7 Computational results of spatial distribution of gas composition, velocity, temperature and CO2 loading at the end of the production cycle. More about this image found in Computational results of spatial distribution of gas composition, velocity,...
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Compositions of [(a),(c), and (e)] product gas and [(b),(d), and (f)] exhaust gas in cases I, II, and III are shown in Table 4.1 (Duraiswamy et al., 2010).

Compositions of [(a),(c), and (e)] product gas and [(b),(d), and (f)] exhau...

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in Adsorption Enhanced Reforming for High-Efficiency Hydrogen Generation > Energy Systems and ProcessesRecent Advances in Design and Control
Published: March 2023
FIG. 4.11 Compositions of [(a),(c), and (e)] product gas and [(b),(d), and (f)] exhaust gas in cases I, II, and III are shown in Table 4.1 ( Duraiswamy et al., 2010 ). More about this image found in Compositions of [(a),(c), and (e)] product gas and [(b),(d), and (f)] exhau...
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Structure composition of tower solar thermal power station.

Structure composition of tower solar thermal power station.

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in Heliostat Field Aiming Strategy Optimization with Post-Installation Calibration > Energy Systems and ProcessesRecent Advances in Design and Control
Published: March 2023
FIG. 5.2 Structure composition of tower solar thermal power station. More about this image found in Structure composition of tower solar thermal power station.
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(a) The figure represents alpha(α) scan performed around BCZT (110) and CFO (311) reflections of the ME composite and (110) reflection of individual BCZT film. Inset shows the GIXRD scan of the composite at different grazing angles (α = 0.45° 0.50°, and 0.55°). (b) Variation of percent change in Δ peak broadening of BCZT (110) and peak broadening of ME composite BCZT (110) with respect to grazing incidence angle.

(a) The figure represents alpha(α) scan performed around BCZT (110) and CFO...

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in Strain Engineering in 2-2 Multilayered Magneto-Electric (ME) Nanocomposites > Strain Engineering in Functional Materials and Devices
Published: March 2023
FIG. 10.6 (a) The figure represents alpha(α) scan performed around BCZT (110) and CFO (311) reflections of the ME composite and (110) reflection of individual BCZT film. Inset shows the GIXRD scan of the composite at different grazing angles (α = 0.45° 0.50°, and 0.55°). (b) Variation More about this image found in (a) The figure represents alpha(α) scan performed around BCZT (110) and CFO...
Images
Effect of methane conversion on CO2/CH4 ratio under different H2 compositions of the produced gas.

Effect of methane conversion on CO2/CH4 ratio under d...

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in Energy Efficiency Investigation of Natural Gas Hydrate Exploitation Integrated with Methane Reforming > Energy Systems and ProcessesRecent Advances in Design and Control
Published: March 2023
FIG. 2.13 Effect of methane conversion on CO2/CH4 ratio under different H2 compositions of the produced gas. More about this image found in Effect of methane conversion on CO2/CH4 ratio under d...
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Variation of the Raman shift of B3g(3) mode of YCO with respect to temperature and as a function of Bi composition.

Variation of the Raman shift of B3g...

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in Strain Engineering in Crystalline Solids > Strain Engineering in Functional Materials and Devices
Published: March 2023
FIG. 1.9 Variation of the Raman shift of B3g(3) mode of YCO with respect to temperature and as a function of Bi composition. More about this image found in Variation of the Raman shift of B3g...
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Deep levels in AlxGa1-xN as a function of Al composition showing shallow to deep level transition of donor levels as the material transforms from WBG GaN to UWBG AlxGa1-xN (Kamyczek et al., 2012).

Deep levels in AlxGa1-xN as a function of Al composit...

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in Introduction > Ultrawide Bandgap β-Ga2O3 SemiconductorTheory and Applications
Published: February 2023
FIG. 1.7 Deep levels in AlxGa1-xN as a function of Al composition showing shallow to deep level transition of donor levels as the material transforms from WBG GaN to UWBG AlxGa1-xN ( Kamyczek et al., 2012 ). More about this image found in Deep levels in AlxGa1-xN as a function of Al composit...
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Bandgap variation with the alloy composition for (a) β-(AlxGa1-x)2O3 alloys. The black and color symbols represent the experimental and theoretical values, respectively, for both direct (solid symbols) and indirect (open symbols) bandgaps. Reproduced with permission from Peelaers et al., Appl. Phys. Lett. 112(24), 242101 (2018). Copyright 2018 AIP Publishing LLC. (b) β-(InxGa1-x)2O3 alloys. The solid black line is a fit to experimental data, whereas the dotted and dashed black lines represent the theoretical calculation (von Wenckstern, 2017).

Bandgap variation with the alloy composition for (a) β-(AlxGa...

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in Introduction > Ultrawide Bandgap β-Ga2O3 SemiconductorTheory and Applications
Published: February 2023
FIG. 1.11 Bandgap variation with the alloy composition for (a) β-(AlxGa1-x)2O3 alloys. The black and color symbols represent the experimental and theoretical values, respectively, for both direct (solid symbols) and indirect (open symbols) bandgaps More about this image found in Bandgap variation with the alloy composition for (a) β-(AlxGa...
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Microstructural evolution in a thin film system with isotropic elasticity and two films in the simulation cell; the far-field composition is 0.01. From top left, the microstructures correspond to (non-dimensional) time units: t = 105 200, t = 109 600, t = 112 200, and t = 142 200, respectively.

Microstructural evolution in a thin film system with isotropic elasticity a...

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in Elastic Stress Driven Instabilities in Thin Films and their Assemblies > Strain Engineering in Functional Materials and Devices
Published: March 2023
FIG. 8.5 Microstructural evolution in a thin film system with isotropic elasticity and two films in the simulation cell; the far-field composition is 0.01. From top left, the microstructures correspond to (non-dimensional) time units: t = 105 200, t = 109 600, t = 112 More about this image found in Microstructural evolution in a thin film system with isotropic elasticity a...
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Electrons capture 2, 4 and 6 flux quanta and the composite particles are known as composite Fermions (CF).

Electrons capture 2, 4 and 6 flux quanta and the composite particles are kn...

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in Quantum Hall Effect > Modern Perspectives in the Study of Electronic Systems
Published: December 2022
FIG. 2.23 Electrons capture 2, 4 and 6 flux quanta and the composite particles are known as composite Fermions (CF). More about this image found in Electrons capture 2, 4 and 6 flux quanta and the composite particles are kn...
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Microstructural evolution in a thin film system with isotropic elasticity and two films in the simulation cell; the far-field composition is 0.01. From the top left, the microstructures correspond to (non-dimensional) time units: t = 78 800, t = 84 800, t = 100 800 and t = 251 000, respectively. Note that relatively, the break-up is faster for two films as compared to the case of a single film in the simulation cell.

Microstructural evolution in a thin film system with isotropic elasticity a...

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in Elastic Stress Driven Instabilities in Thin Films and their Assemblies > Strain Engineering in Functional Materials and Devices
Published: March 2023
FIG. 8.7 Microstructural evolution in a thin film system with isotropic elasticity and two films in the simulation cell; the far-field composition is 0.01. From the top left, the microstructures correspond to (non-dimensional) time units: t = 78 800, t = 84 800, t = 100 More about this image found in Microstructural evolution in a thin film system with isotropic elasticity a...
Book Chapter

Energy Efficiency Investigation of Natural Gas Hydrate Exploitation Integrated with Methane Reforming

Available to Purchase

Series: AIPP Books, Methods
Published: March 2023
10.1063/9780735425743_002
EISBN: 978-0-7354-2574-3
ISBN: 978-0-7354-2572-9
... using CO2/H2 and found the impact of CO2/H2 composition and injection rate on CH4 production and CO2 sequestration. However, none of the literature has conducted a process design and process simulation of the integrated system of the NGH...
Open the PDF for Energy Efficiency Investigation of Natural Gas Hydrate Exploitation Integrated with Methane Reforming in another window
Images
Microstructural evolution in a thin film system with isotropic elasticity, the far-field composition is 0.05 leading to growth along with film break-up. From the top left, the microstructures correspond to (non-dimensional) time units: t = 114 600, t = 122 800, t = 133 800 and t = 205 800, respectively. These times indicate that the growth slows down the break-up dynamics compared to the previous case of (near) static break-up.

Microstructural evolution in a thin film system with isotropic elasticity, ...

Available to Purchase
in Elastic Stress Driven Instabilities in Thin Films and their Assemblies > Strain Engineering in Functional Materials and Devices
Published: March 2023
FIG. 8.6 Microstructural evolution in a thin film system with isotropic elasticity, the far-field composition is 0.05 leading to growth along with film break-up. From the top left, the microstructures correspond to (non-dimensional) time units: t = 114 600, t = 122 800 More about this image found in Microstructural evolution in a thin film system with isotropic elasticity, ...
Images
Microstructural evolution in a thin film system with isotropic elasticity and two films in the simulation cell, the far-field composition is 0.05 leading to growth along with film break-up. From top left, the microstructures correspond to (non-dimensional) time units: t = 110 800, t = 122 800, t = 143 400, and t = 270 800, respectively. These times indicate that the growth slows down the break-up dynamics compared to the previous case of (near) static break-up.

Microstructural evolution in a thin film system with isotropic elasticity a...

Available to Purchase
in Elastic Stress Driven Instabilities in Thin Films and their Assemblies > Strain Engineering in Functional Materials and Devices
Published: March 2023
FIG. 8.8 Microstructural evolution in a thin film system with isotropic elasticity and two films in the simulation cell, the far-field composition is 0.05 leading to growth along with film break-up. From top left, the microstructures correspond to (non-dimensional) time units: t = 110 More about this image found in Microstructural evolution in a thin film system with isotropic elasticity a...
Book Chapter

Strain Engineering in 2-2 Multilayered Magneto-Electric (ME) Nanocomposites

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Series: AIPP Books, Principles
Published: March 2023
10.1063/9780735425590_010
EISBN: 978-0-7354-2559-0
ISBN: 978-0-7354-2556-9
... Magnetoelectricity and multiferroicity in single-phase materials have been introduced in earlier chapters and hence this chapter will deal with only nanocomposites with magnetoelectric coupling and the merits and demerits of ME composites. As discussed in Chap. 7, the single-phase multiferroic systems are either...
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(a) Conduction band offsets of β-(AlxGa1-x)2O3/Ga2O3 with alloy composition for different crystal orientations from DFT calculation and experimental XPS studies (Mu et al., 2020; and Bhuiyan et al., 2021). (b) Alloy composition effect on formation enthalpy for β-(AlxGa1-x)2O3 alloys showing an energetically favorable monoclinic phase up to 71% Al composition. For Al composition x > 0.71, the monoclinic phase becomes unstable and the corundum phase is the preferred crystal structure.

(a) Conduction band offsets of β-(AlxGa1-x)2...

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in Introduction > Ultrawide Bandgap β-Ga2O3 SemiconductorTheory and Applications
Published: February 2023
FIG. 1.12 (a) Conduction band offsets of β-(AlxGa1-x)2O3/Ga2O3 with alloy composition for different crystal orientations from DFT calculation and experimental XPS studies ( Mu et al., 2020 ; and Bhuiyan et al More about this image found in (a) Conduction band offsets of β-(AlxGa1-x)2...