International Renewable Energy Agency (IRENA)
Type of resources
Available actions
Topics
Keywords
Contact for the resource
Provided by
Years
status
-
DTU Global Wind Atlas: onshore and 30 km offshore wind climate dataset accounting for high resolution terrain effects. The Global Wind Atlas provides a high resolution wind climatology at 50, 100, 200m hub heights above the surface for the whole world (onshore and 30 km offshore). These layers have been produced using microscale modelling in the Wind Atlas Analysis and Application Program (WAsP) and capture small scale spatial variability of winds speeds due to high resolution orography (terrain elevation), surface roughness and surface roughness change effects. The layers shared through the IRENA Global Atlas are served at 1km spatial resolution. The full Atlas contains data at a higher spatial resolution of 250 m, some of the IRENA Global Atlas tools access this data for aggregated statistics. Original website: http://globalwindatlas.com/ Data quality and validation: The layers have been produced by the Technical University of Denmark (DTU), Department of Wind Energy (DTU Wind Energy), using state-of-the art scientifically verified models and methods (Report accessible: http://globalwindatlas.com/). This data is classified as POLICY+BUSINESS, according to IRENA’s classification framework for solar and wind resource maps (http://www.irena.org/DocumentDownloads/Publications/Global%20Atlas_Data%20_Quality.pdf) - POLICY: The information provided is meant to inform high-level policy debate (identification of opportunity areas for further prospection, preliminary assessment of technical potentials), or to perform market screening (cross referencing the resource information with policy information). It is suitable for decision-making activities, excluding financial commitments. - +BUSINESS: the information provided is a sub-sample of a dataset of better spatial and/or temporal resolution than that available from the Global Atlas, and that of sufficient magnitude to initiate business-related activities, (e.g.,. kilometre (km) or less than a-kilometre, hourly data). Detailed information can be supplied by the owner of the data. - Detailed data quality information: http://globalatlas.irena.org/dqif/DQIF.aspx?datasetid=5039 Terms of use: By using this dataset, the user accepts the following Terms and Conditions: - USE OF THE DATASET: Terms of use of the Global Wind Atlas: http://globalwindatlas.com/ - USE OF THE IRENA GLOBAL ATLAS: Terms of use of the Global Atlas for Renewable Energy shown here: http://irena.masdar.ac.ae/clients/irena/legal.html
-
DTU Global Wind Atlas: onshore and 30 km offshore wind climate dataset accounting for high resolution terrain effects. The Global Wind Atlas provides a high resolution wind climatology at 50, 100, 200m hub heights above the surface for the whole world (onshore and 30 km offshore). These layers have been produced using microscale modelling in the Wind Atlas Analysis and Application Program (WAsP) and capture small scale spatial variability of winds speeds due to high resolution orography (terrain elevation), surface roughness and surface roughness change effects. The layers shared through the IRENA Global Atlas are served at 1km spatial resolution. The full Atlas contains data at a higher spatial resolution of 250 m, some of the IRENA Global Atlas tools access this data for aggregated statistics. Original website: http://globalwindatlas.com/ Data quality and validation: The layers have been produced by the Technical University of Denmark (DTU), Department of Wind Energy (DTU Wind Energy), using state-of-the art scientifically verified models and methods (Report accessible: http://globalwindatlas.com/). This data is classified as POLICY+BUSINESS, according to IRENA’s classification framework for solar and wind resource maps (http://www.irena.org/DocumentDownloads/Publications/Global%20Atlas_Data%20_Quality.pdf) - POLICY: The information provided is meant to inform high-level policy debate (identification of opportunity areas for further prospection, preliminary assessment of technical potentials), or to perform market screening (cross referencing the resource information with policy information). It is suitable for decision-making activities, excluding financial commitments. - +BUSINESS: the information provided is a sub-sample of a dataset of better spatial and/or temporal resolution than that available from the Global Atlas, and that of sufficient magnitude to initiate business-related activities, (e.g.,. kilometre (km) or less than a-kilometre, hourly data). Detailed information can be supplied by the owner of the data. - Detailed data quality information: http://globalatlas.irena.org/dqif/DQIF.aspx?datasetid=5039 Terms of use: By using this dataset, the user accepts the following Terms and Conditions: - USE OF THE DATASET: Terms of use of the Global Wind Atlas: http://globalwindatlas.com/ - USE OF THE IRENA GLOBAL ATLAS: Terms of use of the Global Atlas for Renewable Energy shown here: http://irena.masdar.ac.ae/clients/irena/legal.html
-
DTU Global Wind Atlas: onshore and 30 km offshore wind climate dataset accounting for high resolution terrain effects. The Global Wind Atlas provides a high resolution wind climatology at 50, 100, 200m hub heights above the surface for the whole world (onshore and 30 km offshore). These layers have been produced using microscale modelling in the Wind Atlas Analysis and Application Program (WAsP) and capture small scale spatial variability of winds speeds due to high resolution orography (terrain elevation), surface roughness and surface roughness change effects. The layers shared through the IRENA Global Atlas are served at 1km spatial resolution. The full Atlas contains data at a higher spatial resolution of 250 m, some of the IRENA Global Atlas tools access this data for aggregated statistics. Original website: http://globalwindatlas.com/ Data quality and validation: The layers have been produced by the Technical University of Denmark (DTU), Department of Wind Energy (DTU Wind Energy), using state-of-the art scientifically verified models and methods (Report accessible: http://globalwindatlas.com/). This data is classified as POLICY+BUSINESS, according to IRENA’s classification framework for solar and wind resource maps (http://www.irena.org/DocumentDownloads/Publications/Global%20Atlas_Data%20_Quality.pdf) - POLICY: The information provided is meant to inform high-level policy debate (identification of opportunity areas for further prospection, preliminary assessment of technical potentials), or to perform market screening (cross referencing the resource information with policy information). It is suitable for decision-making activities, excluding financial commitments. - +BUSINESS: the information provided is a sub-sample of a dataset of better spatial and/or temporal resolution than that available from the Global Atlas, and that of sufficient magnitude to initiate business-related activities, (e.g.,. kilometre (km) or less than a-kilometre, hourly data). Detailed information can be supplied by the owner of the data. - Detailed data quality information: http://globalatlas.irena.org/dqif/DQIF.aspx?datasetid=5039 Terms of use: By using this dataset, the user accepts the following Terms and Conditions: - USE OF THE DATASET: Terms of use of the Global Wind Atlas: http://globalwindatlas.com/ - USE OF THE IRENA GLOBAL ATLAS: Terms of use of the Global Atlas for Renewable Energy shown here: http://irena.masdar.ac.ae/clients/irena/legal.html
-
Surface solar irradiation, or daily solar exposure in Egypt in Wh/m2. Direct. Average year 2005. 10-years average (2005-2014) of monthly mean of daily irradiation received on a horizontal plane (or a plane always facing the sun if DNI). Copyright 2015 Port Said University, Faculty of Science, Department of Physics MINES ParisTech has developed the Heliosat-2 method that converts 15 min Meteosat images into irradiation maps and stores them into the HelioClim-3 database version 4. A monthly irradiation is computed only if at least 25 daily irradiations are valid in the month. To complete the month, the irradiation of a missing day is computed by taking into account the mean value of the valid days and the daily irradiation at the top of atmosphere for this missing day. A day is valid if the database contains at least one 15-min irradiation for this day. Gaps in a day are filled by taking into account the available 15-min irradiation and the 15-min irradiation at the top of atmosphere. The other irradiation components (direct, diffuse) received on an horizontal or plane normal to sun rays are then computed using a published empirical model. HelioClim-3 data and diffuse and direct components on any plane are provided on the Web via the SoDa Service (www.soda-is.com and pro.soda-is.com) since 2004. Such data are used by academics for teaching and research in solar energy, environment, climate and others, and by companies for the sitting of solar plants (PV, CST), their sizing, and the monitoring of their production.The French company Transvalor is in charge of the SoDa Service and provides also a series of user-tailored services, such as maps similar to those for Egypt. More Information: Heliosat-2 publication: http://hal.archives-ouvertes.fr/docs/00/36/13/64/PDF/solar_energy04_heliosat2.pdf HelioClim-3: http://www.soda-pro.com/help#helioclim
-
Surface solar irradiation, or daily solar exposure in Egypt in Wh/m2. Direct. Average year 2010. 10-years average (2005-2014) of monthly mean of daily irradiation received on a horizontal plane (or a plane always facing the sun if DNI). Copyright 2015 Port Said University, Faculty of Science, Department of Physics MINES ParisTech has developed the Heliosat-2 method that converts 15 min Meteosat images into irradiation maps and stores them into the HelioClim-3 database version 4. A monthly irradiation is computed only if at least 25 daily irradiations are valid in the month. To complete the month, the irradiation of a missing day is computed by taking into account the mean value of the valid days and the daily irradiation at the top of atmosphere for this missing day. A day is valid if the database contains at least one 15-min irradiation for this day. Gaps in a day are filled by taking into account the available 15-min irradiation and the 15-min irradiation at the top of atmosphere. The other irradiation components (direct, diffuse) received on an horizontal or plane normal to sun rays are then computed using a published empirical model. HelioClim-3 data and diffuse and direct components on any plane are provided on the Web via the SoDa Service (www.soda-is.com and pro.soda-is.com) since 2004. Such data are used by academics for teaching and research in solar energy, environment, climate and others, and by companies for the sitting of solar plants (PV, CST), their sizing, and the monitoring of their production.The French company Transvalor is in charge of the SoDa Service and provides also a series of user-tailored services, such as maps similar to those for Egypt. More Information: Heliosat-2 publication: http://hal.archives-ouvertes.fr/docs/00/36/13/64/PDF/solar_energy04_heliosat2.pdf HelioClim-3: http://www.soda-pro.com/help#helioclim
-
Surface solar irradiation, or daily solar exposure in Egypt in Wh/m2. Direct. Average year 2008. 10-years average (2005-2014) of monthly mean of daily irradiation received on a horizontal plane (or a plane always facing the sun if DNI). Copyright 2015 Port Said University, Faculty of Science, Department of Physics MINES ParisTech has developed the Heliosat-2 method that converts 15 min Meteosat images into irradiation maps and stores them into the HelioClim-3 database version 4. A monthly irradiation is computed only if at least 25 daily irradiations are valid in the month. To complete the month, the irradiation of a missing day is computed by taking into account the mean value of the valid days and the daily irradiation at the top of atmosphere for this missing day. A day is valid if the database contains at least one 15-min irradiation for this day. Gaps in a day are filled by taking into account the available 15-min irradiation and the 15-min irradiation at the top of atmosphere. The other irradiation components (direct, diffuse) received on an horizontal or plane normal to sun rays are then computed using a published empirical model. HelioClim-3 data and diffuse and direct components on any plane are provided on the Web via the SoDa Service (www.soda-is.com and pro.soda-is.com) since 2004. Such data are used by academics for teaching and research in solar energy, environment, climate and others, and by companies for the sitting of solar plants (PV, CST), their sizing, and the monitoring of their production.The French company Transvalor is in charge of the SoDa Service and provides also a series of user-tailored services, such as maps similar to those for Egypt. More Information: Heliosat-2 publication: http://hal.archives-ouvertes.fr/docs/00/36/13/64/PDF/solar_energy04_heliosat2.pdf HelioClim-3: http://www.soda-pro.com/help#helioclim
-
Surface solar irradiation, or daily solar exposure in Egypt in Wh/m2. Direct. Average year 2013. 10-years average (2005-2014) of monthly mean of daily irradiation received on a horizontal plane (or a plane always facing the sun if DNI). Copyright 2015 Port Said University, Faculty of Science, Department of Physics MINES ParisTech has developed the Heliosat-2 method that converts 15 min Meteosat images into irradiation maps and stores them into the HelioClim-3 database version 4. A monthly irradiation is computed only if at least 25 daily irradiations are valid in the month. To complete the month, the irradiation of a missing day is computed by taking into account the mean value of the valid days and the daily irradiation at the top of atmosphere for this missing day. A day is valid if the database contains at least one 15-min irradiation for this day. Gaps in a day are filled by taking into account the available 15-min irradiation and the 15-min irradiation at the top of atmosphere. The other irradiation components (direct, diffuse) received on an horizontal or plane normal to sun rays are then computed using a published empirical model. HelioClim-3 data and diffuse and direct components on any plane are provided on the Web via the SoDa Service (www.soda-is.com and pro.soda-is.com) since 2004. Such data are used by academics for teaching and research in solar energy, environment, climate and others, and by companies for the sitting of solar plants (PV, CST), their sizing, and the monitoring of their production.The French company Transvalor is in charge of the SoDa Service and provides also a series of user-tailored services, such as maps similar to those for Egypt. More Information: Heliosat-2 publication: http://hal.archives-ouvertes.fr/docs/00/36/13/64/PDF/solar_energy04_heliosat2.pdf HelioClim-3: http://www.soda-pro.com/help#helioclim
-
Surface solar irradiation, or daily solar exposure in Egypt in Wh/m2. Direct. Average year 2011. 10-years average (2005-2014) of monthly mean of daily irradiation received on a horizontal plane (or a plane always facing the sun if DNI). Copyright 2015 Port Said University, Faculty of Science, Department of Physics MINES ParisTech has developed the Heliosat-2 method that converts 15 min Meteosat images into irradiation maps and stores them into the HelioClim-3 database version 4. A monthly irradiation is computed only if at least 25 daily irradiations are valid in the month. To complete the month, the irradiation of a missing day is computed by taking into account the mean value of the valid days and the daily irradiation at the top of atmosphere for this missing day. A day is valid if the database contains at least one 15-min irradiation for this day. Gaps in a day are filled by taking into account the available 15-min irradiation and the 15-min irradiation at the top of atmosphere. The other irradiation components (direct, diffuse) received on an horizontal or plane normal to sun rays are then computed using a published empirical model. HelioClim-3 data and diffuse and direct components on any plane are provided on the Web via the SoDa Service (www.soda-is.com and pro.soda-is.com) since 2004. Such data are used by academics for teaching and research in solar energy, environment, climate and others, and by companies for the sitting of solar plants (PV, CST), their sizing, and the monitoring of their production.The French company Transvalor is in charge of the SoDa Service and provides also a series of user-tailored services, such as maps similar to those for Egypt. More Information: Heliosat-2 publication: http://hal.archives-ouvertes.fr/docs/00/36/13/64/PDF/solar_energy04_heliosat2.pdf HelioClim-3: http://www.soda-pro.com/help#helioclim
-
Surface solar irradiation, or daily solar exposure in Egypt in Wh/m2. Direct. August. 10-years average (2005-2014) of monthly mean of daily irradiation received on a horizontal plane (or a plane always facing the sun if DNI). Copyright 2015 Port Said University, Faculty of Science, Department of Physics MINES ParisTech has developed the Heliosat-2 method that converts 15 min Meteosat images into irradiation maps and stores them into the HelioClim-3 database version 4. A monthly irradiation is computed only if at least 25 daily irradiations are valid in the month. To complete the month, the irradiation of a missing day is computed by taking into account the mean value of the valid days and the daily irradiation at the top of atmosphere for this missing day. A day is valid if the database contains at least one 15-min irradiation for this day. Gaps in a day are filled by taking into account the available 15-min irradiation and the 15-min irradiation at the top of atmosphere. The other irradiation components (direct, diffuse) received on an horizontal or plane normal to sun rays are then computed using a published empirical model. HelioClim-3 data and diffuse and direct components on any plane are provided on the Web via the SoDa Service (www.soda-is.com and pro.soda-is.com) since 2004. Such data are used by academics for teaching and research in solar energy, environment, climate and others, and by companies for the sitting of solar plants (PV, CST), their sizing, and the monitoring of their production.The French company Transvalor is in charge of the SoDa Service and provides also a series of user-tailored services, such as maps similar to those for Egypt. More Information: Heliosat-2 publication: http://hal.archives-ouvertes.fr/docs/00/36/13/64/PDF/solar_energy04_heliosat2.pdf HelioClim-3: http://www.soda-pro.com/help#helioclim
-
Surface solar irradiation, or daily solar exposure in Egypt in Wh/m2. Direct. December. 10-years average (2005-2014) of monthly mean of daily irradiation received on a horizontal plane (or a plane always facing the sun if DNI). Copyright 2015 Port Said University, Faculty of Science, Department of Physics MINES ParisTech has developed the Heliosat-2 method that converts 15 min Meteosat images into irradiation maps and stores them into the HelioClim-3 database version 4. A monthly irradiation is computed only if at least 25 daily irradiations are valid in the month. To complete the month, the irradiation of a missing day is computed by taking into account the mean value of the valid days and the daily irradiation at the top of atmosphere for this missing day. A day is valid if the database contains at least one 15-min irradiation for this day. Gaps in a day are filled by taking into account the available 15-min irradiation and the 15-min irradiation at the top of atmosphere. The other irradiation components (direct, diffuse) received on an horizontal or plane normal to sun rays are then computed using a published empirical model. HelioClim-3 data and diffuse and direct components on any plane are provided on the Web via the SoDa Service (www.soda-is.com and pro.soda-is.com) since 2004. Such data are used by academics for teaching and research in solar energy, environment, climate and others, and by companies for the sitting of solar plants (PV, CST), their sizing, and the monitoring of their production.The French company Transvalor is in charge of the SoDa Service and provides also a series of user-tailored services, such as maps similar to those for Egypt. More Information: Heliosat-2 publication: http://hal.archives-ouvertes.fr/docs/00/36/13/64/PDF/solar_energy04_heliosat2.pdf HelioClim-3: http://www.soda-pro.com/help#helioclim
Metadata catalogue