ASTM E1038-10(2015)
用发射冰球撞击法测定光电模组抗冰雹能力的标准实践规程
Standard Test Method for Determining Resistance of Photovoltaic Modules to Hail by Impact with Propelled Ice Balls
ASTM E1038-10(2015) 发布历史
ASTM E1038-10(2015)由美国材料与试验协会 US-ASTM 发布于 2010。
ASTM E1038-10(2015) 在中国标准分类中归属于: F12 太阳能,K83 物理电源,在国际标准分类中归属于: 27.160 太阳能工程。
ASTM E1038-10(2015) 用发射冰球撞击法测定光电模组抗冰雹能力的标准实践规程的最新版本是哪一版?
最新版本是 ASTM E1038-10(2019) 。
ASTM E1038-10(2015) 发布之时,引用了标准
- ASTM E1036 使用参考电池的非集中器地面光伏模块和阵列的电气性能的标准测试方法
- ASTM E1462 光伏组件绝缘完整性和接地路径连续性的标准试验方法
- ASTM E772 有关太阳能转换的标准术语
- ASTM E822 用推进的冰球冲击测定太阳能集热器盖对冰雹阻力的标准实施规程
ASTM E1038-10(2015)的历代版本如下:
- 2019年 ASTM E1038-10(2019) 用推进冰球撞击确定光伏模块对冰雹的抵抗力的标准测试方法
- 2010年 ASTM E1038-10(2015) 用发射冰球撞击法测定光电模组抗冰雹能力的标准实践规程
- 2010年 ASTM E1038-10 用冲击推动冰球测定光电组件抗冰雹性的标准试验方法
- 2005年 ASTM E1038-05 用冲击推动冰球测定光电组件抗冰雹性的标准试验方法
- 1998年 ASTM E1038-98(2004) 通过撞击推动冰球法测定光电池组件抗冰雹能力的试验方法
- 1998年 ASTM E1038-98 通过撞击推动冰球法测定光电池组件抗冰雹能力的试验方法
4.1 In many geographic areas, there is concern about the effect of falling hail upon photovoltaic modules. This test method may be used to determine the ability of photovoltaic modules to withstand the impact forces of hailstones. In this test method, the ability of a photovoltaic module to withstand hail impact is related to its tested ability to withstand impact from ice balls. The effects of impact may be either physical or electrical degradation of the module.
4.2 This test method describes a standard procedure for mounting the test specimen, conducting the impact test, and reporting the effects.
4.2.1 The procedures for mounting the test specimen are provided to assure that modules are tested in a configuration that relates to their use in a photovoltaic array.
4.2.2 Six or more impact locations are chosen to represent vulnerable sites on modules and general locations are listed in Table 1. Only a single impact is specified at each of the impact locations.
4.2.3 Resultant speed is used to simulate the speed that may be reached by hail accompanied by wind. The resultant speed used in this test method is determined by vector addition of horizontal wind velocity plus vertical ice ball terminal velocity.
4.2.4 Ice balls are used in this test method to simulate hailstones. Hailstones are variable in properties such as shape, density, and frangibility (for fracture characteristics, see Ref (10) in Practice E822). These properties affect factors such as the duration and magnitude of the impulsive force acting on the module and the area over which the impulse is distributed. Ice balls (with a density, frangibility, and terminal velocity near the range of hailstones) are the nearest hailstone approximation known at this time. Ice balls generally are harder and denser than hailstones; therefore, an ice ball simulates the worst case hailstone. Perhaps the major difference between ice balls and hailstones is that hailstones are more variable than ice balls. Ice balls can be uniformly and repeatedly manufactured to assure a projectile with known properties.
4.2.5 Ice balls are directed normal to the surface of a test specimen, which transfers the greatest kinetic energy to the test specimen, unlike a non-normal impact at a glancing angle.
4.3 Data generated using this test method may be used for the following: (1) to evaluate impact resistance of a module, (2) to compare the impact resistance of several modules, (3) to provide a common basis for selection of modules for use in various geographic areas, or (4) to evaluate changes in impact resistance of modules due to other environmental factors, such as weathering.
- 标准号
- ASTM E1038-10(2015)
- 发布
- 2010年
- 发布单位
- 美国材料与试验协会
- 替代标准
- ASTM E1038-10(2019)
- 当前最新
- ASTM E1038-10(2019)
- 引用标准
- ASTM E1036 ASTM E1462 ASTM E772 ASTM E822