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Solar resource mapping in Zambia : solar modeling report (英语)

详细

  • 文件日期

    2014/11/01

  • 文件类型

    ESMAP(能源部门管理协助计划)文件

  • 报告号

    98030

  • 卷号

    1

  • Total Volume(s)

    1

  • 国家

    赞比亚,

  • 地区

    非洲,

  • 发布日期

    2015/07/23

  • Disclosure Status

    Disclosed

  • 文件名称

    Solar resource mapping in Zambia : solar modeling report

  • 关键词

    solar resource;renewable energy resource mapping;solar power plant;aerosol optical depth;satellite data;solar radiation;short period of time;solar thermal power plant;meteorological data;data quality control;input data;transmission and distribution;probability of occurrence;renewable energy development;Access to Electricity;technical assistance program;solar energy technology;power generation capacity;quantity of water;incident solar energy;high spatial resolution;solar radiation data;direct solar radiation;snow and ice;amount of aerosol;solar power technology;digital map;air mass;measuring station;seasonal variability;performance assessment;meteorological parameters;liquid particles;physical model;temporal variability;direct radiation;diffuse radiation;atmospheric attenuation;high frequency;site selection;temporal resolution;cloud cover;air temperature;geographical difference;data needs;atmospheric condition;historical data;electrical grid;power output;satellite sensors;photovoltaic module;weather condition;high resolution;atmospheric data;geospatial planning;solar technology;limited information;solar electricity;reflected radiation;quality assessment;short wavelengths;high concentration;measured value;geographical data;transport model;cell surface;daily data;file format;azimuth angle;gap filling;terrain condition;constant value;accurate assessment;measurement error;quality information;sensor calibration;average data;grid model;valid data;desert area;data gaps;seasonal changes;temporal dynamics;intergovernmental organisation;spectral band;surface albedo;national centre;solar irradiance;local condition;spatial representation;inter governmental organization;aerosol concentration;aggregate value;environmental variable;wind velocity;chemical composition;cloud properties;meteorological satellite;physical process;simple regression;empirical model;particle size;photovoltaic electricity;geographical conditions;effective approach;geostationary satellites;optical property;land surface;solar development;measuring instrument;hybrid system;expert reports;data format;electricity output;innovative feature;digital image;electricity production;dynamic nature;atmospheric gas;absolute amount;negative value;ice crystals;microclimate effects;global knowledge;climatic zone;distribution grid;solar spectrum;performance rating;solid particles;horizontal visibility;dry regions;humid regions;data loggers;free fuel;sea level;relative thickness;aerosol extinction;remote location;electricity service;support infrastructure;clean environment;modern economy;measuring equipment;data loss;climate forecast;arid zone;upper atmosphere;remote sensing;raw data;accurate determination;back up;small area;fast feedback;remote area;shaded areas;common problems;photovoltaic technology;meteorological stations;aggregate statistic;incomplete data;geographic region;gas molecule;operational service;project operation;primary focus;volcanic eruption;professional development;missing data;qualified personnel;quality check;output data;data provider;energy market;regional adaptation;solar industry;photovoltaic cell;

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