Presentation Details
| Enhancing the Accuracy and Coverage of the National Solar Radiation Data Base Manait Sengupta1, Yu Xie1, Aron Habte1, Brandon Benton1, Paul Edwards1, Jaemo Yang1, Mike Foster2, Andrew Heidinger3, Paul Stackhouse4. 1National Lab of the Rockies, Golden, CO, USA.2University of Wisconsin, Madison, WI, USA.3NOAA, Madison, WI, USA.4NASA, Hampton, VA, USA |
Abstract
The National Solar Radiation Database (NSRDB) provides comprehensive global solar resource data at a high temporal and spatial resolution. The NSRDB employs satellite-based modeling to retrieve cloud properties and subsequently compute solar radiation. Other input parameters—including aerosol optical properties, precipitable water vapor, surface albedo, temperature, and pressure—are also used as input by the model. The NSRDB data were recently updated using physical solar model (PSM) version 4, which includes an improved gap-filling algorithm, based on machine-learning techniques, for the missing cloud properties, corrections of solar position calculations, an enhanced algorithm for computing land-surface albedo over snow or ice surfaces, and a physics-based model for computing DNI. The updated PSM was used to generate solar radiation data for 2021-2024, including global horizontal irradiance (GHI), direct normal irradiance (DNI), and diffuse horizontal irradiance (DHI). This model was also used to reprocess all previous NSRDB data from 1998-2020. The NSRDB was validated using high-quality measurements from surface sites, including NOAA’s the Surface Radiation Budget (SURFRAD). According to data for 2019-2024, the NSRDB processed by the latest PSM has mean bias error (MBE) within 5% and 8%, respectively, for GHI and DNI. This study provides users with the latest NSRDB information and outlines plans for ongoing development and updates. Most recently, observation from polar-orbiting satellite were input into the PSM v4 to produce the NSRDB Polar data that covers the entire Arctic region.
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No part of this publication may be reproduced, distributed, or transmitted in any form or by any means, including photocopying, recording, or other electronic or mechanical methods, without the prior written permission of the author.