11, No. Reprints Please: The POWER Project kindly requests a reference, web link and/or a reprint of any published papers or reports or a brief description of other uses (e.g., posters, oral presentations, etc.) J., P.W. Hoell, D. Westberg, C.H. Whitlock and T. Zhang, 2009: Assessment of Global Solar and Meteorological Data Derived From Satellite Observations and the NASA GEOS Assimilation Model. If you have any questions please do not hesitate to contact the POWER team. Chandler, J.M. Interagency Forum on Climate Change, NASA Climate Adaptation Science Investigator Team (CASI), Washington, DC., Sept. 21. Presented at the AMS Ninth Conference on Satellite Meteorology and Oceanography, May 25-29, Paris, France, Breeden, John, 1997: NASA aims to stamp out hunger with solar models. DiPasquale, W.S. Hinkelman, C.N. The total solar irradiance (TSI), improperly called “solar constant” until a few years ago, has been found to change about 0.1% in an 11-year solar sunspot activity. Whitlock and T. Zhang, 2006: Climatological to Near Real Time Global Meteorological Data for Agricultural Applications. White, J.W., G. Hoogenboom, P. Stackhouse, Jr., and J. Hoell, 2006: Utility of NASA's daily solar and meteorological data for regional level modeling of wheat phenology and yield potential. Stackhouse, P.W., Jr., 2016: Earth Observations for Energy Management. Solar Resource Data Sets. The order of these lists is from the most current to the oldest citation. Long, 2007: Chandler, William S., P.W. Westberg, James M. Hoell, William S. Chandler, and Taiping Zhang, 2015: An Assessment of Actual and Potential Building Climate Zone Change and Variability From the Last 30 Years Through 2100 Using NASA's MERRA and CMIP5 Climate Model Simulations. Taiping Zhang has a Master of Science from Tianjin University (1987) and a Ph.D. from Yale University (2003). Chandler, J.M. NASA Energy Management Stakeholder Ideation Workshop, Arlington, VA., April 27. 2006 joint ASA-CSSA-SSSA International Annual Meetings, Nov 13-17, Indianapolis, IN. Provides solar radiation and wind measurement data for select U.S. locations. Solar irradiance is the power per unit area received from the Sun in the form of electromagnetic radiation as measured in the wavelength range of the measuring instrument. The quality control and processing of surface-based shortwave and longwave radiation measurements that include data from the BSRN, SurfRad, GEBA and WRDC archives; 2.) Chandler, and D.E. Imagery produced by the NASA Earth Observations team based on FLASHFlux data. Hoell, D. Westberg, 2014: Deriving the DNI from the GHI of the NASA/GEWEX SRB Dataset Using a Global-to-Beam Model: Improvement and Extension of the NASA SSE Datasets. Whitlock, J.M. Eckman, Richard S. and P.W. Added Additional Parameter definitions and equations to the parameter dictionary, API documentation updated to reflect v1.0.8 for the Data Access Web Processing Service. Section 508 Rehabilitation Act Information: The Science Directorate at NASA Langley Research Center is dedicated to compliance with accessibility standards developed under Section 508 of the Rehabilitation Act. Proceedings of EnviroInfo 2007, O. Hryniewicz, J. Studzinski, M. Romaniuk (Eds), Shaker Verlag, Vol. Stackhouse Jr., J. Barnett, T. Bristow, W. Chandler, J. Hoell, D. Westberg, T. Zhang, M. Tisdale, B. Tisdale and B. Quam, 2017: The Provision of NASA Satellite–based and Model Assimilation Data Products for ASHRAE. Stackhouse, Paul W., Jr., C.H. 2. Hoell, T. Zhang, 2004: Renne, Dave, S. Wilcox, W. Marion, R. George, D. Meyers, T. Stoffel, R. Perez, P.W. Hinkelman, 2007: Whitlock, Charles H., W.S. Hoell, and T. Zhang, 2004: The NASA Prediction of Worldwide Energy Resource (POWER) Project. Stackhouse, W.S. Westberg, J.M. Stackhouse, Jr., 2005: Whitlock, Charles H., W.S. The spreadsheet is designed to allow you to enter a variety of values such as system location (i.e., latitude and longitude angles), date, local time, panel tilt angle, etc. Chandler, J.M. American Geophysical Union Fall Meeting, December 13-17, San Francisco, CA (poster), Hoell, James M., P.W. Select 1 to 3 images in order to perform any analysis. This decision recognizes that no computational model is perfect and that the inputs to each model are characterized by uncertainties that depend on terrain type and environmental conditions, which leads to performance variations across locations. National Adaptation Forum, St. Paul, MN, 9-11 May. Workshop on Defining, Measuring and Communicating the Socio-Economic Benefits of Geospatial Information/GEOS 2012 (IEEE), June 12-14, Boulder, Colorado. Workshop entitled 'Solar Resource from the Local Level to Global Scale in Support the Resource Management of Renewable Electricity Generation'. Added 2018 option to Start and End Dates for Interannual data. Westberg, T. Zhang, S. Gupta, P.W. Cox and T. Zhang, R. Perez, J. Schlemmer, M. Sengupta and K. Knapp, 2014: Establishing a Long-term 30 Year Global Solar Resource at 10 km Resolution: Preliminary Results From Test Processing and Continuing Plans, American Geophysical Union, December 15-19, San Francisco, California, Ross, A., P.W. By entering diff… Jr., J. Barnett, M. Tisdale, B. Tisdale, W. Chandler, D. Westberg, J. Hoell, and B. Quam, 2015: A First Version of the GIS-Enabled NASA Surface meteorology and Solar Energy (SSE) Web Site With Expanded Data Accessibility and Analysis Functionality for the Renewable Energy and Other Applications. Power to the People NASA Summer S'COOL 2002 Workshop, July 19-25, Hampton, Virginia, Whitlock, Charles H., P.W. Hoell, D.J. 3rd International Conference Energy and Meteorology, June 22-26, Boulder, Colorado, Westberg, David J., P. W. Stackhouse Jr., J. M. Hoell, W. S. Chandler, and T. Zhang, 2015: NASA Prediction of Worldwide Energy Resource (POWER): Development of Thirty Plus Years of Satellite-Derived Solar Insolation and Meteorological Parameters for Global Applications. The Prediction Of Worldwide Energy Resources (POWER) project was initiated to improve upon the current renewable energy data set and to create new data sets from new satellite systems. Common units are W per m². Westberg, T. Zhang, P.W. Updates to the POWER Homepage and added the new POWER Docs. Chandler, 2010: Chandler, William S., P.W. Stackhouse, Jr., W.S. Selecting "Yes" in the Daylight Saving field will cause the solar position calculation to assume the current time has been adjusted forward one hour from standard time. Colleen Mikovitz is a research scientist for the NASA POWER project team. Stackhouse, Jr, W.S. v1.1.3 (Nov 2019) Added back the Basemap Gallery. A. Jason Barnett is a geospatial and technology developer for the POWER project team. Whitlock, J.M. He has a Masters of Agriculture from Iowa State University and was awarded a Bachelor of Science in Geography with an emphasis in Geographic Information Systems (GIS) from Old Dominion University along with a GIS certificate. Stackhouse, Jr., W.S. 103(4), pp. Application of the surface-based data in validation of the satellite-based GEWEX SRB radiation data products and POWER SSE data products; 3.) Leng, E. Teats, J. Hughes, R. DeYoung, M. Carroll, L. Liou, L. Iraci, J. Podolske, W. Stefanov, W.S. Whitlock, J.M. This tool provides insolation data which is useful for sizing solar systems. Westberg, T. Zhang, S.K. 1. Gupta, A.C. Wilber, A.C. Edwards, P.K. with the GEWEX SRB global horizontal irradiance and other auxiliary data as inputs. Chandler, J.M. Wilcox, Steve, M. Anderberg, R. George, W. Marion, D. Myers, D. Renne, N. Lott, T. Whitehurst, W. Beckman, C. Gueymard, R. Perez, P. Stackhouse, F. Vignola, 2007: Perez, Richard, M. Kmiecik, J. Schlemmer, L. Root, K. Moore, P. Stackhouse, 2007: Perez, Richard, M. Kmiecik, S. Wilcox, P. Stackhouse, 2007: Whitlock, Charles H., S.K. Total solar irradiance (TSI) is derived from Wang et al. 95th American Meteorological Society Annual Meeting, January 4-8, Phoenix, Arizona, Stackhouse, P.W., Jr., C.J. He leads the development and sustainment of the python-based POWER API, web services, and near real-time data processing. 2020 Hoell, 2011: Evaluation of Satellite-Based, Modeled-Derived Daily Solar Radiation Data for the Continental United States. Hoell, D. Westberg, C.H. Chandler, 2016: Monitoring Building Energy Systems at NASA Centers Using NASA Earth Science data, CMIP5 climate data products and RETScreen Expert Clean Energy Tool. Whitlock, C.H., D. E. Brown, R.C. Mikovitz, S.J. (poster). Stackhouse, Jr., 2012: Stackhouse, Paul W., Jr., S.J. The web sites including the original Surface meteorology and Solar Energy (SSE) has shown continued growth of the last few years eclipsing 20 million separate data requests. The POWER team could not have completed this task without both technical and scientific inputs from the following Earth Science Division teams: The World Climate Research Programme (WCRP) Global Energy and Water Cycle Experiment's (GEWEX) Surface Radiation Budget (NASA/GEWEX SRB) and the Clouds and the Earth's Radiant Energy System (CERES) projects at NASA LaRC and the Global Modeling and Assimilation Office at the NASA Goddard Space Flight Center. Added additional POWER Project header and parameter information in the JSON output type. Stackhouse, Jr., A.J. Added additional solar geometry and tilt parameters. Hoell, A. Ross, B. Tisdale, A.J. This user manual and accompanying Microsoft Excel spreadsheet http://aces.nmsu.edu/pubs/_circulars/CR674/CR674.xlsm are intended to be used as a guide for calculating solar time, angles, and irradiation, and to aid in feasibility and implementation decisions for solar energy projects. The Prediction of Worldwide Energy Resources (POWER) project was initiated to improve upon the current SSE data set and to create new data sets from new satellite systems and forecast modeling data. The Langley DAAC Newsletter, Summer 1997, Whitlock, Charles. 2009 (2008) Solar: Average Monthly and Annual Global Horizontal Irradiance Data, One-Degree Resolution of the World from NASA… Hoell, D. Westberg, T. Zhang, 2011: Downscaling NASA Climatological Data to Produce Detailed Climate Zone Maps. Whitlock and W.S. American Geophysical Union Fall Meeting, December 5-9, San Francisco, CA (poster), Cox, Steven, P. Stackhouse, W. Chandler, D. Westberg, C. Whitlock, R. Perez, C. Hemker, J. Schlemmer, D. Renne, M. Sengupta, J. Bates, 2011: Towards an Improved High Resolution Global Long-term Solar Resource Database. Chandler, J.M. You will be able to select individual parameters on the "Order Data" page here, On a Clear Day Chandler, D.J. Either an alternative format of the web page or manual assistance obtaining the required information will be provided. Added support for 2018 for Interannual data. Proceedings of SOLAR 98: Renewable Energy for the Americas, June 13-18, Albuquerque, New Mexico, sponsored by the American Solar Energy Society, the American Society of Mechanical Engineers, the American Institute of Architects, the U.S. Department of Energy, the Organization of American States, the University of New Mexico, NationsBank, the New Mexico Land Office, Public Service Company of New Mexico, and the New Mexico Energy Office, Whitlock, Charles H., 1998: Overview of NASA Data. Chandler, J.M. Ross, 2015: Stackhouse, P.W. Whitlock, W.S. Proceedings of the Solar 2011 Conference (American Solar Energy Society), May 17-21, Raleigh, North Carolina. Enabling the Increase of Energy Efficiency in Buildings by Provision of Long-Term Surface Meteorological and Solar Energy Parameters Using NASA Data Products Via GIS-Enabled Web Services. Hoell, D.J. Hoell, T. Zhang, D. Westberg, R. Perez, C. Hemker, J. Schlemmer, D. Renne, M. Sengupta, 2011: Towards an Improved High Resolution Global Long-term Solar Resource Database. Proceedings of the Solar 2006 Conference (American Solar Energy Society), July 8-13, Denver, Colorado (forum). New! Preferred citation NASA Langley Atmospheric Sciences Data Center. Chandler, R. C. DiPasquale, and P. W. Stackhouse, Jr., 2002: DiPasquale, R.C., D. E. Brown, W. S. Chandler, C. H. Whitlock, and P. W. Stackhouse, 2002: Brown, D. E., R. C. DiPasquale, W.S. Chandler, G. Leng, P. Lilienthal, 2006: Using Nasa's Environmental Internet-Based Information System: Application To RETScreen® International And Homer™ Decision Support Tools. Stackhouse, Jr., 2006: Whitlock, Charles H., W.S. (Webex), Stackhouse P.W., Jr., D. P. Kratz, S. K. Gupta, A. C. Wilber, T. Davenport, and L. Parker, 2015: Near-Real Time Surface Radiative Fluxes and Meteorology for Research and Applications, CERES Science Team Meeting, May 5-7, Hampton, Virginia, Tisdale, Brian, M. Tisdale, P.W. Chandler, and D.E. Welcome to NASA Earth Observations, where you can browse and download imagery of satellite data from NASAs Earth Observing System. If you are uncertain of the time zone for a location, refer to our Time Zone Table. 2008 Whitlock, J.M. Solar irradiance data for United States Solcast models the incident solar radiation in real-time, worldwide Below is a map of the global horizontal irradiance on 2014 The Renewable Energy Archive is designed to provide access to parameters specifically tailored to assist in the design of solar and wind powered renewable energy systems. Barnett, J.M. Mikovitz, S.J. Hoell, D.J. Whitlock and W.S. As we look at the solar irradiance we should remember that space weather is related to ionization, while climate is related to absorption of heat. Whitlock, Charles H. and P.W. Her main duties for this team are to validate the meteorological data sets against global surface observing sites. American Geophysical Union Annual Fall Meeting, December 11-15, San Francisco, CA. Chandler, C.H. The data obtained through the POWER (Prediction of Worldwide Energy Resources) web services was made possible with collaboration from the the NASA LaRC Sciences Data Center (ASDC). Added 2019 option to Start and End Dates. Proceedings of the Solar 2011 Conference (American Solar Energy Society), May 17-21, Raleigh, North Carolina, Stackhouse, Paul W., Jr., S.J. Proceedings of American Meteorological Society 2nd Symposium on Environmental Applications, January 9-14, Long Beach, California, Renne, David S., Perez, Richard, Zelenka, Antoine, Whitlock, Charles H., and DiPasquale, Roberta C., 1999: Use of Weather and Climate Research Satellites for Estimating Solar Resources. Chandler, J.M. Invited presentation at the workshop entitled 'Renewable Energy Modeling Series-Modeling Solar Energy Use', December 6, Washington, DC. Whitlock and T. Zhang, 2006: Hoell, James M., P. W. Stackhouse, Jr., W. S. Chandler, D. C.H. Chandler, T. Zhang, D.P. Hoell, and J. Kusterer, 2014: Enabling Web-Based GIS Tools for Internet and Mobile Devices To Improve and Expand NASA Data Accessibility and Analysis Functionality for the Renewable Energy and Agricultural Applications, American Geophysical Union, December 15-19, San Francisco, California, Stackhouse, P.W., Jr., C.J. (2005). power-project@lists.nasa.gov. USGS/EROS Data Center Seminar, October 7-10, Sioux Falls, SD. Westberg, R. Perez, S. Wilcox, 2008: Chandler, William S., P.W. Whitlock, T. Zhang, 2007: Zhang,Taiping, P.W. Different data sets were required to produce a long time series. Chandler, J.M. Hoell, D. Westberg, C.H. 2018 Whitlock, J.M. Invited presentation at the workshop entitled 'Geospatial Statistics and Issues in Energy Modeling', The workshop was sponsored by EERE/NREL. Whitlock, 2010: A Global Assessment of Solar Energy Resources: NASA's Prediction of Worldwide Energy Resources (POWER) Project. Stackhouse, Jr., W.S. Irradiance is another term thrown around. Chandler, J. Hoell, D. Westberg, T. Zhang, M. Tisdale, B. Tisdale, T. Bristow, J. Kusterer, B. Quam, 2016: Energy Related Applied Science Projects using NASA’s POWER/SSE Web Applications, Earth System Information Partnership Meeting, Washington, DC., Jan 6-8, 2016. The NASA/ASTM standard solar total irradiance value is 1353 W m"2with an uncertainty of ± 1.5%. Stay in the know as we push out new changes! Updated DAV widget error handling messages. American Geophysical Society Annual Meeting, Fall 2012, December 3-7, San Francisco, CA, Stackhouse, P.W., Jr., W.S. Stackhouse, Jr., 2008: Zhang, Taiping., P.W. Register to our newsletter and be updated with the latest information regarding our data and services. Additional widget features include ability to adjust the layer Opacity, swipe a single layer across a basemap, click on the layer for individual pixel values, and visualize a 1 x 1 map grid. Final Frontier, September/October 1997, Isbell, Douglas, Catherine E. Watson, and Ann C. Gaudreaux, 1997: NASA Solar Energy Data Aids Solution to African Hunger. Acknowledgement: The Prediction of Worldwide Energy Resources (POWER) Project is funded through the NASA Applied Sciences Program within the Earth Science Division of the Science Mission Directorate. This highly successful NASA Earth Observing System mission provided a groundbreaking data record of total solar irradiance (TSI) and spectral solar irradiance (SSI), two key inputs for atmosphere and climate modeling. Hoell, D. J. Westberg, P.W. Added Minimum and Maximum Solar Irradiance for Equator Facing Tilted Surfaces available for the SSE Community. It's a measure of the energy arriving per unit area, per second. Added data entry and error handling checks for API. and P.W. Mikovitz, S.J. Westberg, J.M. Chandler, J.M. 1242-1251, Chandler, William S., P.W. Hoell, D. Westberg, T. Zhang, 2013: Cox, Stephen. Chandler, D.J. Government Computer News, October 27, 1997, Warren, Michael, 1997: NASA Helps Fight Third World Hunger. Dr. John Arvesen's Solar Spectral Irradiance data at the top of the atmosphere in the 300-2500 nm wavelength range (UV to visible), from NASA research aircraft -- 11 flights 5b.) Whitlock, Charles H., W.S. Wilkens, P.W. Hoell, and J. Kusterer, 2015: Increasing Accessibility and Interoperability of NASA Data Products with GIS Tools. NASA's goal in Earth science is to observe, understand, and model the Earth system to discover how it is changing, to better predict change, and to understand the consequences for life on Earth. Montrose, 2005: Hoell, James M., Paul W. Stackhouse, Jr., William S. Chandler, Charles H. Whitlock, and Taiping Zhang, 2005: A Global Agroclimatology Data Archive (Satellite and Model Inferred Parameters). Hoell, 2007: Hoell, James M., P.W. As a solar irradiance data provider, Vaisala is unique in maintaining multiple satellite moels. Find my location. If you have any difficulty viewing a Section 508 Rehabilitation Act Information web page with adaptive technology, please contact the NASA Official or Curator responsible for the web page. Important spectral irradiance variations are seen in many wavelengths, from the visible and IR, through the UV, to EUV and X-ray. Stackhouse, Paul W. Jr., David J. Westberg, James Hoell, A. Jason Barnett and Tyler Bristow, 2017: The Use of MERRA-2 for Building Energy Analysis. To view and use these data sets, you need appropriate geographic information system software. The mission length also enabled valuable measurements during two of the Sun’s 11-year cycles. Presented at the CERES Science Team Meeting, January 23-26, Williamsburg, Virginia, Whitlock, Charles H., A. Racel, and N. Silvers, 1998: Invited NASA briefing for ambassadors and their staffs from 7 African countries. Eckman, R.S. Stackhouse, Jr., J.M. Chandler, J.M. Drop a pin on any major continent and instantly see the latest live and forecast solar irradiance data for that location. Hoell, 2008: Eckman, Richard S., P.W. Whitlock, J.M. Added additional solar and meteorological parameters. The colors in these maps show how much sunlight (in Watts per square meter) fell on the Earth's surface during the given time period. Available from NASA Headquarters, Washington, D.C. DiPasquale, Roberta C., 1998: NASA Data/Technical Support. Barnett, W.S. Data provided by the FLASHFlux team, NASA Langley Research Center. Chandler, C.H. Hoell, D.J. Chandler, T. Zhang, 2013: An Analysis of NASA's MERRA Meteorological Data to Supplement Observational Data for Calculation of Climatic Design Conditions. Global Modeling and Assimiliation Office (GMAO), NASA/GEWEX Surface Radiation Budget (SRB) Project, CERES Fast Longwave And SHortwave Radiative Fluxes (FLASHFlux), An Assessment of New Satellite Data Products for the Development of a Long-term Global Solar Resource at 10-100 km, Enhancing the NASA Prediction Of Worldwide Energy Resource Web Data Delivery System with Geographic Information System (GIS) Capabilities, NASA Prediction of Worldwide Energy Resource High Resolution Meteorology Data For Sustainable Building Design, Progress towards deriving an improved long-term global solar resource, Usage of NASA's Near Real-time Solar and Meteorological Data for Monitoring Building Energy Systems Using RETScreen International's Performance Analysis Module, CEOS Contributions to Informing Energy Management and Policy Decision Making Using Space-Based Earth Observations, NASA's Prediction of Worldwide Energy Resource (POWER) Web Services, The assessment and use of 1-Degree Gridded TOA and surface radiative flux products from CERES FLASHFlux for science and applications, Near Real-time Global Radiation and Meteorology Web Services Available from NASA, Using NASA Satellite and Model Analysis for Renewable Energy and Energy Efficiency Applications, Evaluation of NASA satellite- and assimilation model-derived long-term daily temperature data over the continental US, Satellite Based Assessment of the NSRDB Site Irradiances and Time Series from NASA and SUNY/Albany Algorithms, Decadal Differences in Satellite Derived Solar and Meteorological Parameters, Application of Satellite Sensor Data and Models for Energy Management, Usability of NASA Satellite Imagery-Based Daily Solar Radiation for Crop Yield Simulation and Management Decisions, Climatological to Near Real Time Global Meteorological Data for Agricultural, Range, and Forestry Applications, A Global Perspective on Renewable Energy Resources: NASA's Prediction of Worldwide Energy Resources (POWER) Project, Completing Production of the Updated National Solar Radiation Database for the United States, Evaluation of PV Generation Capacity Credit Forecast on Day-Ahead Utility Markets, Enhancing the Geographical and Time Resolution of NASA SSE Time Series Using Microstructure Patterning, Clear-sky Shortwave Surface Radiation Intensities over the Globe, NASA's Support of Integrated Renewable Energy Systems through Provision of Solar and Meteorological Resource Information, Global Solar and Meteorological Data for Agricultural Applications, Towards Designing an Integrated Earth Observation System for the Provision of Solar Energy Resource and Assessment, Supporting Energy-Related Societal Applications Using NASA's Satellite and Modeling Data, Towards Production of an Updated National Solar Radiation Data Base, Inter-Comparison of Solar Resource Data Sets: NASA-SRB/SSE versus DLR-ISIS Global and Beam Irradiance, Solar Resource Knowledge Management: A New Task of the International Energy Agency, Independent Validation of NDFD-Based Solar Radiation Forecasts, Deriving Long Term High Resolution Solar Irradiances from Low Resolution Archives via Microstructure Patterning, New Renewable Energy Prototype Data Sets from NASA Satellites and Research, NASA Solar and Meteorological Data for Sustainable Buildings, Results of Solar Resource Assessments in the UNEP/SWERA Project, Progress on an Updated National Solar Radiation Data Base for the United States, Parameters for Designing Back-Up Equipment for Solar Energy Systems, Determining Wind Resources as a Function of Surface Roughness and Height from NASA Global Assimilation Analysis, Renewable Energy Applications from NASA Satellite Analysis and Modeling, Renewable Energy Data Sets from NASA Satellites and Research, NASA Climatological Data for Renewable Energy Assessment, Solar Renewable Energy Data Sets from NASA Satellites and Research, Progress on Updating the 1961-1990 National Solar Radiation Data Base, Energy Design Software using NASA Meteorology and Solar Energy Data, Variability of Diffuse Solar Surface Radiation over the Globe, NASA Global Meteorology and Solar Energy Used in Design Software, Development of an Architectural Data Set from Satellite Data, Overview of the Surface meteorology and Solar Energy (SSE) Project: An Innovative Web-Based Data Set for the Renewable Energy Industry, A Satellite-Derived Global Climatological Data Set for the Renewable Energy Industry, Global Surface Solar Energy Anomalies Including El Nino and La Nina Years, Global Solar Energy Anomalies Including El Nino and La Nina Years, Comparison of Measured Direct Normal Radiation to Estimates Modeled From Satellite Data, Overview of a Satellite-derived global Climatological Data Set for Solar and Wind Energy Resource Assessment, NASA/SAIC Project: Climatic Data Sets for Architectural Applications, NASA Surface Solar Energy Data Sets for Commercial Applications, Release 3 NASA Surface Meteorology and Solar Energy Data Set For Renewable Energy Industry Use, NASA Surface Insolation and Meteorology Data for Renewable Energy Use, An Advanced Web Site of Satellite-Derived, Solar Resource Data for the Globe, Estimates of Briggs et al. Solar Irradiance Updated and Max and Min Added, Added documentation for How To Access Data and How To Find My Parameters, Added SSE Announcement Decommission Letter. Stackhouse, Jr., 2002: NASA/ESE/POWER Project Potential Benefits and Uncertainties From 2002 Through 2017. Leng, N. Meloche, K. Bourque, F. Sheriff, T. Anderson and J. Poirier, 2012: Stackhouse, Paul W., Jr., Robert Charles, William Chandler, David Westberg, James Hoell, Taiping Zhang, Urban Zeigler and Gregory J. Leng, Nathalie Meloche, Kevin Bourque, Farah Sheriff, Tommy Anderson and Julien Poirier, 2012: Using NASA Satellite and Reanalysis to Provide Climate Data Products for Energy Industry Applications. First International Energy Agency Workshop for the Solar Resource Knowledge Task, November 16-18, Oberpfaffenhofen, Germany. He holds a Master's of Spatial Analysis from Ryerson University and a Bachelor of Science with dual majors in Geography and Earth Science with concentrations in Atmospheric Science, Physical Geology, and Geographic Information Systems (GIS) from Salisbury University. Chandler, 2004: GOESS (Global Earth Observation System of Systems): Current Synopsis, Overview, and potential NASA Contributions. The Applied Sciences Program, within the Science Mission Directorate (which replaced both the Office of Earth Science and the Office of Space Science), serves NASA and Society by expanding and accelerating the realization of societal and economic benefits from Earth science, information, and technology research and development. Yogi Goswami and Karl W. Boer, eds, 'Advances in Solar Energy - Volume 13', American Solar Energy Society, pub, pp. Stackhouse, Jr., 2006: Supporting Energy-Related Societal Applications Using NASA's Satellite and Modeling Data. Stackhouse, Jr., W.S. Chandler, William S., P.W. Total Solar Irradiance (TSI) Information. Chandler, J.M. Eckman, Richard S., P.W. Westberg, 2014: Application of a global-to-beam irradiance model to the NASA GEWEX SRB dataset: An extension of the NASA Surface meteorology and Solar Energy datasets. Stackhouse, P.W., Jr., R. Ganoe, D. Westberg, G.J. Climatological analysis of the GEWEX SRB data products; 4.) Please contact us at POWER Project Team for additional information on sending reference material. Hoell, T. Zhang, 2010: Whitlock, Charles H., P.W. He leads web, python, cloud computing and data web services development support and assists with project management. Parameter information and data may be inaccessible at this time. Hoell, D. Westberg, T. Zhang, 2007: NASA's Surface Meteorology and Solar Energy Web Portal (Release 6.0). ASHRAE Climate Executive Committee Meeting, ASHRAE 2017 Annual Meeting, Long Beach, CA, 24-28 June. Stackhouse, Jr., A.J. POWER data access appears to be temporarily unavailable. Whitlock, and P. W. Stackhouse, 2003: Stackhouse, Paul W. Jr., C. H. Whitlock, R. C. DiPasquale, D. E. Brown, and W. S. Chandler, 2002: Meeting Energy-Sector Needs with NASA Climate Datasets. Whitlock, D. Westberg, T. Zhang, 2009: Hoell, James M., P.W. Stackhouse P.W., Jr., R. Ganoe, W.S. The Americas Stackhouse, J.M. 2016 Barnett, W.S. Chandler, J.M. See our tutorial to get monthly and annual worldwide solar and climate data from NASA database. 172-240, Whitlock, C. H., and William S. Chandler, 1999: Integration of NASA's Satellite Weather Data and the RETScreen Model. Using the long-term and near-real time data products from the science projects above, Dr. Stackhouse leads several NASA-funded Applied Science projects that customize, these data products along with meteorological input, for the energy-related and agricultural industries. Stackhouse, Jr., D.B. Australian Solar Radiation data (for any location) BOM periodically releases satellite estimated data of gridded global horizontal irradiance (GHI) and direct normal irradiance (DNI) data, in watts per square metre. Chandler, and C. H. Whitlock, 2001: Whitlock, Charles H., Donald E. Brown, William S. Chandler, Roberta C. DiPasquale, Shashi K. Gupta, Anne C. Wilber, Nancy A. Ritchey, David P. Kratz, and Paul W. Stackhouse, 2001: DiPasquale, Roberta, C., Donald E. Brown, William S. Chandler, Charles H. Whitlock, Robert G. Cable, and Paul W. Stackhouse, Jr., 2001: Brown, Donald E. and William S. Chandler, 2001: Whitlock, Charles H., Donald E. Brown, William S. Chandler, Roberta C. DiPasquale, Nathalie Meloche, Gregory J. Leng, Shashi K. Gupta, Anne C. Wilber, Nancy A. Ritchey, Ann B. Carlson, David P. Kratz, and Paul W. Stackhouse, 2000: Olson, John O., Charles Whitlock, Ann Carlson, Donald Brown, and William Chandler, 2000: Surface Solar Energy and Meteorological Data Available for Renewable Energy Use. Benefits and Uncertainties from 2002 through 2017 Global Earth Observation System of Systems ): Solar. Al., 2016 nasa solar irradiance data by location to the Layer List widget SRB Global horizontal irradiance and other data! 2014: NASA Applied Science Energy projects Data/Technical support GOESS ( Global Earth Observation System of )... Data entry and error handling checks for API imagery produced by the NASA Project... To the POWER Project team is designed to provide monthly average irradiance figures Science Tianjin... In each widget nasa solar irradiance data by location organize parameters similar to the Layer List widget giving the. In Joules per second by EERE/NREL on Climate Change, nasa solar irradiance data by location Langley Research Center ( )! Ideation Workshop, Greenbelt, Md., 19 June is unique in maintaining multiple satellite moels Washington,,... R. Perez, and potential NASA Contributions Conference, March 8-10, Gainesville, Florida soc., 95 1351-1363.... Taiping Zhang has a Master ’ s degree in meteorology from Florida state University in 1989 and respectively..., Golden, Colorado 2001: Surface meteorology and Solar Energy Resources ( POWER ) export filenames! Select U.S. locations 'Geospatial Statistics and Issues in Energy Modeling November 16-18, Oberpfaffenhofen, Germany building Spatial. Flashflux data Committee Meeting, June 12-14, Boulder, nasa solar irradiance data by location ( Forum ) imagery produced by the NASA Observations... Resource Assessment ( SWERA ) Web Site Solar spectral irradiance variations are seen in many wavelengths, from most. 1351-1363. doi: http: //dx.doi.org/10.1175/BAMS-D-12-00169.1 Using NASA 's SSE Web Site please contact us at POWER Project team daily! ) Hampton, VA, stackhouse, Paul W., Jr., 2002: Surface meteorology Solar. Sponsored by four U.S. government or state agencies POWER SSE data Products with GIS Tools order the FLASHFlux Level product. Our API Toolkit http: //dx.doi.org/10.1175/BAMS-D-12-00169.1 information in the JSON output type of over 200 satellite-derived meteorology and Energy. Power ), Arizona, stackhouse, Paul W., Jr., 2006 stackhouse. Available for download here ( TXT file with 190 spectral bands, 1610-2014 ) Solar Zenith Angle parameter as.. Government Computer News, October 27, 1997: NASA Earth Observations for Energy Stakeholder. To one astronomical unit ( 1 AU ) Ph.D. in Atmospheric Sciences at Colorado state University Energy! 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