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引用本文:胡景波,邱杰,王磊,刘双喜.湖州地区辐射影响因子分析[J].中国农业资源与区划,2019,40(2):161~166
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湖州地区辐射影响因子分析
胡景波, 邱杰, 王磊, 刘双喜
湖州市气象局,浙江湖州313000
摘要:
[目的]为了探究湖州地区太阳辐射情况,利用2009年1月至2017年12月湖州国家基本气象站的辐射观测资料、地面常规观测资料以及大气成分观测资料。[方法]文章分析了湖州地区太阳辐射的变化特征,并检验了太阳辐射与部分气象要素极值的相关性。[结果]太阳辐射日变化基本呈抛物线型。6月因湖州地区进入梅雨季节,阴雨寡照,并不是一年中辐射最大的月份,一年中辐射的最大值出现在7月,之后逐渐下降。按季节统计,夏季辐射最大,春季次之,秋季比冬季略高。除了2015年以外,近几年辐射总量平稳中稍有下降,考虑到可能存在的辐射年际变化,并不能就此认为该地区的辐射处于下降趋势中。辐射强度与总云量、低云量、最小相对湿度为负相关,与日最高温度、日最高地温呈正相关。晴天时,太阳辐射强度与颗粒物浓度PM10、PM25、PM1三者相关性基本一致,均为春、秋和冬季呈负相关,夏季呈正相关,两者的关系应该按季节具体分析。[结论]影响湖州地区辐射的因子有很多,部分气象因子相关性较好,颗粒物浓度不能简单看成全年太阳辐射的影响因子。
关键词:  太阳辐射影响因子气象要素极值颗粒物浓度相关性
DOI:
分类号:P4221
基金项目:湖州市气象局气象科研项目“湖州地区辐射数据特征影响分析”(hzqx201704)
ANALYSIS OF RADIATION INFLUENCE FACTORS IN HUZHOU AREA
Hu Jingbo, Qiu Jie, Wang Lei, Liu Shuangxi
Huzhou Meteorological Bureau, Huzhou, Zhejiang 313000,China
Abstract:
The research is intend to explore the solar radiation situation in Huzhou, so as to prove the correlation between solar radiation and extreme values of some meteorological elements. The radiation observation data of Huzhou National Basic Meteorological Station, the surface conventional observation data and the atmospheric composition observation data from January 2009 to December 2017 were used to analyze the variation characteristics of solar radiation in Huzhou area and proved its correlation with other meteorological elements. The result shows that the diurnal variation of ultraviolet radiation is basically parabolic. June, due to the rainy season in Huzhou, is not the largest radiation month in a year. The maximum radiation in a year appears in July, and then declined gradually. According to the seasonal statistics, the radiation in summer is the highest, followed by spring, and it is slightly higher in autumn than in winter. Except for 2015, the total radiation has declined slightly in recent years. Considering the possible interannual variations of radiation, it is not considered that the radiation in this region is in a declining trend. Solar radiation intensity is negatively correlated with total cloud cover, low cloud cover and minimum relative humidity, positively correlated with daily maximum temperature and maximum ground temperature, and is consistent with PM10, PM2.5, PM1 on sunny days, which is negatively correlated in spring, autumn and winter, positively correlated in summer. The relationship between total radiation and particulate matter concentration should be analyzed according to the season. There are many factors affecting the radiation in Huzhou area, some meteorological factors have a good correlation, and the concentration of particulate matter cannot simply be regarded as the influence factor of the annual solar radiation.
Key words:  solar radiation  influence factor  extreme value of meteorological elements  particulate matter concentration  correlation
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