Theuse of data of National Radiometric Standardtook place in the WMO International Pyrheliometer Comparisons IPCXI to evaluate the expended uncertainty of the comparison resultbetweenN ational Radiometric Standards( N...Theuse of data of National Radiometric Standardtook place in the WMO International Pyrheliometer Comparisons IPCXI to evaluate the expended uncertainty of the comparison resultbetweenN ational Radiometric Standards( NRS) and the World Radiometric Reference( WRR) in Davos/World Radiometric Center. The result of expended uncertaintyis 0.17%,which meets the requirements of the World Meteorological Organization( WMO) and has reached the world advanced level.In this paper,the method can be used as a reference and basis for evaluating the uncertainty of thecomparison results of the Provincial solar radiation standard.展开更多
Using the temperature compensation and structure optimization design technology,developed the TBQ-2-B type standard pyranometer on the original pyranometer basis,its stability is better than 2%,reached the internation...Using the temperature compensation and structure optimization design technology,developed the TBQ-2-B type standard pyranometer on the original pyranometer basis,its stability is better than 2%,reached the international standard ISO 9060 and the World Meteorological Organization(WMO) instruments and methods of observation Committee(CIMO) on the first level pyranometer request. Over the years,comparing with our national solar radiation standard(absolute cavity radiometer),its performance is very stable. As a working standard pyranometer,it has been used for more than twenty years in the field of metrological calibration of meteorological radiation instruments.展开更多
文摘Theuse of data of National Radiometric Standardtook place in the WMO International Pyrheliometer Comparisons IPCXI to evaluate the expended uncertainty of the comparison resultbetweenN ational Radiometric Standards( NRS) and the World Radiometric Reference( WRR) in Davos/World Radiometric Center. The result of expended uncertaintyis 0.17%,which meets the requirements of the World Meteorological Organization( WMO) and has reached the world advanced level.In this paper,the method can be used as a reference and basis for evaluating the uncertainty of thecomparison results of the Provincial solar radiation standard.
文摘Using the temperature compensation and structure optimization design technology,developed the TBQ-2-B type standard pyranometer on the original pyranometer basis,its stability is better than 2%,reached the international standard ISO 9060 and the World Meteorological Organization(WMO) instruments and methods of observation Committee(CIMO) on the first level pyranometer request. Over the years,comparing with our national solar radiation standard(absolute cavity radiometer),its performance is very stable. As a working standard pyranometer,it has been used for more than twenty years in the field of metrological calibration of meteorological radiation instruments.