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Keywords: VIKOR
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Journal Articles
Journal:
Journal of Solar Energy Engineering
Publisher: ASME
Article Type: Research Papers
J. Sol. Energy Eng. June 2025, 147(3): 031002.
Paper No: SOL-24-1033
Published Online: November 6, 2024
Image
in Direct Normal Irradiance Prediction-Based Optimum Interval Tilt Angles for Enhancement of Energy Output, Levelized Cost of Energy, and CO 2 Emission in a Grid-Connected Photovoltaic System
> Journal of Solar Energy Engineering
Published Online: November 6, 2024
Fig. 1 Angles associated with DNI and the PV module surface More about this image found in Angles associated with DNI and the PV module surface
Image
in Direct Normal Irradiance Prediction-Based Optimum Interval Tilt Angles for Enhancement of Energy Output, Levelized Cost of Energy, and CO 2 Emission in a Grid-Connected Photovoltaic System
> Journal of Solar Energy Engineering
Published Online: November 6, 2024
Fig. 2 Architecture of the Bi-LSTM model for DNI prediction More about this image found in Architecture of the Bi-LSTM model for DNI prediction
Image
in Direct Normal Irradiance Prediction-Based Optimum Interval Tilt Angles for Enhancement of Energy Output, Levelized Cost of Energy, and CO 2 Emission in a Grid-Connected Photovoltaic System
> Journal of Solar Energy Engineering
Published Online: November 6, 2024
Fig. 3 ( a ) and ( c ) Scatter plot among actual DNI versus predicted DNI. ( b ) Comparison among the actual DNI and predicted DNI using Bi-LSTM. More about this image found in ( a ) and ( c ) Scatter plot among actual DNI versus predicted DNI. ( b ) C...
Image
in Direct Normal Irradiance Prediction-Based Optimum Interval Tilt Angles for Enhancement of Energy Output, Levelized Cost of Energy, and CO 2 Emission in a Grid-Connected Photovoltaic System
> Journal of Solar Energy Engineering
Published Online: November 6, 2024
Fig. 4 ( a ) Total SI with optimum annual tilt angle and ( b ) contour map of total annual irradiance More about this image found in ( a ) Total SI with optimum annual tilt angle and ( b ) contour map of tota...
Image
in Direct Normal Irradiance Prediction-Based Optimum Interval Tilt Angles for Enhancement of Energy Output, Levelized Cost of Energy, and CO 2 Emission in a Grid-Connected Photovoltaic System
> Journal of Solar Energy Engineering
Published Online: November 6, 2024
Fig. 5 PV output energy variation with annual tilt angles More about this image found in PV output energy variation with annual tilt angles
Image
in Direct Normal Irradiance Prediction-Based Optimum Interval Tilt Angles for Enhancement of Energy Output, Levelized Cost of Energy, and CO 2 Emission in a Grid-Connected Photovoltaic System
> Journal of Solar Energy Engineering
Published Online: November 6, 2024
Fig. 6 Contour maps of monthly potential irradiance distribution More about this image found in Contour maps of monthly potential irradiance distribution
Image
in Direct Normal Irradiance Prediction-Based Optimum Interval Tilt Angles for Enhancement of Energy Output, Levelized Cost of Energy, and CO 2 Emission in a Grid-Connected Photovoltaic System
> Journal of Solar Energy Engineering
Published Online: November 6, 2024
Fig. 7 Variation of daily optimal tilt angle for a year More about this image found in Variation of daily optimal tilt angle for a year
Image
in Direct Normal Irradiance Prediction-Based Optimum Interval Tilt Angles for Enhancement of Energy Output, Levelized Cost of Energy, and CO 2 Emission in a Grid-Connected Photovoltaic System
> Journal of Solar Energy Engineering
Published Online: November 6, 2024
Fig. 8 PV energy output comparison of different tilt angles More about this image found in PV energy output comparison of different tilt angles
Image
in Direct Normal Irradiance Prediction-Based Optimum Interval Tilt Angles for Enhancement of Energy Output, Levelized Cost of Energy, and CO 2 Emission in a Grid-Connected Photovoltaic System
> Journal of Solar Energy Engineering
Published Online: November 6, 2024
Fig. 9 Monthly LCOE for various tilt angles over a year More about this image found in Monthly LCOE for various tilt angles over a year
Image
in Direct Normal Irradiance Prediction-Based Optimum Interval Tilt Angles for Enhancement of Energy Output, Levelized Cost of Energy, and CO 2 Emission in a Grid-Connected Photovoltaic System
> Journal of Solar Energy Engineering
Published Online: November 6, 2024
Fig. 10 Annual carbon gas emission reduction for various tilt angles More about this image found in Annual carbon gas emission reduction for various tilt angles
Image
in Direct Normal Irradiance Prediction-Based Optimum Interval Tilt Angles for Enhancement of Energy Output, Levelized Cost of Energy, and CO 2 Emission in a Grid-Connected Photovoltaic System
> Journal of Solar Energy Engineering
Published Online: November 6, 2024
Fig. 11 Flowchart of the PV system design using pvsyst More about this image found in Flowchart of the PV system design using pvsyst
Image
in Direct Normal Irradiance Prediction-Based Optimum Interval Tilt Angles for Enhancement of Energy Output, Levelized Cost of Energy, and CO 2 Emission in a Grid-Connected Photovoltaic System
> Journal of Solar Energy Engineering
Published Online: November 6, 2024
Fig. 12 NSRDB energy database for the specified location in pvsyst More about this image found in NSRDB energy database for the specified location in pvsyst
Image
in Direct Normal Irradiance Prediction-Based Optimum Interval Tilt Angles for Enhancement of Energy Output, Levelized Cost of Energy, and CO 2 Emission in a Grid-Connected Photovoltaic System
> Journal of Solar Energy Engineering
Published Online: November 6, 2024
Fig. 13 Tilt and azimuth angle adjustments of a PV array in pvsyst More about this image found in Tilt and azimuth angle adjustments of a PV array in pvsyst
Journal Articles
Journal:
Journal of Solar Energy Engineering
Publisher: ASME
Article Type: Research Papers
J. Sol. Energy Eng. April 2025, 147(2): 021010.
Paper No: SOL-24-1127
Published Online: October 30, 2024
Image
in Analysis of Erosion of Surfaces in Falling Particle Concentrating Solar Power
> Journal of Solar Energy Engineering
Published Online: October 30, 2024
Fig. 1 Schematic illustration of the falling particle erosion configuration used in computational and experimental studies More about this image found in Schematic illustration of the falling particle erosion configuration used i...
Image
in Analysis of Erosion of Surfaces in Falling Particle Concentrating Solar Power
> Journal of Solar Energy Engineering
Published Online: October 30, 2024
Fig. 2 Photographs of the falling particle erosion setup: ( a ) overall view, ( b ) close-up view of the inclined substrate, ( c ) close-up view of the sand, and ( d ) micrograph of the sand erodent indicating the nominal particle size More about this image found in Photographs of the falling particle erosion setup: ( a ) overall view, ( b ...
Image
in Analysis of Erosion of Surfaces in Falling Particle Concentrating Solar Power
> Journal of Solar Energy Engineering
Published Online: October 30, 2024
Fig. 3 Comparison of eroded area profiles on Inconel 625 from experiments (top row photographs) with those from the computational simulations for 0 deg, 30 deg, 60 deg, and 75 deg More about this image found in Comparison of eroded area profiles on Inconel 625 from experiments (top row...
Image
in Analysis of Erosion of Surfaces in Falling Particle Concentrating Solar Power
> Journal of Solar Energy Engineering
Published Online: October 30, 2024
Fig. 4 Effect of angle of incidence on the erosion depth profile for d n , d p , h n , CR , and H v of 6 mm, 550 µ m, 20 cm, 0.4, and 1.5 GPa, respectively More about this image found in Effect of angle of incidence on the erosion depth profile for d n ,...
Image
in Analysis of Erosion of Surfaces in Falling Particle Concentrating Solar Power
> Journal of Solar Energy Engineering
Published Online: October 30, 2024
Fig. 5 Effect of surface hardness on the erosion depth profile for d n , θ , d p , h n , and CR of 6 mm, 45 deg, 550 µ m, 20 cm, and 0.4, respectively More about this image found in Effect of surface hardness on the erosion depth profile for d n , ...
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