ISO 52010-1:2017规定了能源计算气候数据转换的计算程序。 ISO 52010-1:2017的主要内容是计算具有任意方向和倾斜的表面上的太阳辐照度。还提供了一种将太阳辐照度转换为照度的简单方法。 任意表面上的太阳辐照度和照度可作为能量和采光计算、建筑构件（如屋顶、外墙和窗户）和技术建筑系统（如热太阳能收集器、光伏板）的输入。 评估建筑物、建筑构件或技术性建筑系统的热湿性能所需的气候数据的其他参数[如风、温度、湿度和长期温度]- 波（热）辐射]应根据ISO 15927-4中的程序获得。这些数据在ISO 52010-1:2017中作为输入列出，并作为输出传递，无需任何转换。 注1:通过ISO 52010-1:2017传递这些数据的原因是，所有EPB标准都有一个单一且一致的来源，并且如果特定应用需要，可以进行任何转换或其他处理。 注2:引言中的表1显示了ISO 52010-1:2017在ISO 52000-1规定的模块化结构背景下在EPB标准集内的相对位置。

ISO 52010-1:2017 specifies a calculation procedure for the conversion of climatic data for energy calculations. The main element in ISO 52010-1:2017 is the calculation of solar irradiance on a surface with arbitrary orientation and tilt. A simple method for conversion of solar irradiance to illuminance is also provided. The solar irradiance and illuminance on an arbitrary surface are applicable as input for energy and daylighting calculations, for building elements (such as roofs, facades and windows) and for components of technical building systems (such as thermal solar collectors, PV panels). Other parameters of climatic data needed to assess the thermal and moisture performance of buildings, building elements or technical building systems [like wind, temperature, moisture and long-wave (thermal) radiation] are to be obtained according to the procedures in ISO 15927？4. These data are listed in ISO 52010-1:2017 as input and passed on as output without any conversion. NOTE 1 The reason for passing these data via ISO 52010-1:2017 is to have one single and consistent source for all EPB standards and to enable any conversion or other treatment if needed for specific application. NOTE 2 Table 1 in the Introduction shows the relative position of ISO 52010-1:2017 within the set of EPB standards in the context of the modular structure as set out in ISO 52000-1.