(CMA)
(CNAS)
(ISO)
(高新技术企业)
怎么聚光相关标准参考信息
GB/T 20236-2015 非金属材料的聚光加速户外暴露试验方法
简介:本标准规定了利用由菲涅耳(Fresnel)反射系统构成的加速户外暴露试验设备进行非金属材料加速户外暴露试验的方法,同时给出了所使用的设备(见图1和图2)以及设备的使用导则。本标准还规定了设备和方法可用于确定暴露于日光、热和潮湿下的材料的相对耐久性,前提是假设试验期间发生的对材料加速老化速率起决定性作用的物理和(或)化学变化机理没有太大的不同。同时规定了统一的试样安装方法和试验过程中的维护程序,也给出了设备和反射系统的维护程序。本标准适用于满足8.2及8.3尺寸要求的试样。本标准没有给出针对具体材料的最适宜的试验条件,而仅限于测量方法和过程控制。针对具体材料的试样的准备、试验条件和结果评价可参照已有的标准和规范。
信息:ICS:19.040 CCS:K04 发布:2015-10-09 实施:2016-05-01
IEC 62925-2016 聚光光伏(CPV)模组. 区分热疲劳耐久性增加的热循环试验
简介:This document defines a test sequence that will quickly uncover CPV module failures that have been associated with field exposure to thermal cycling for many years. This document was specifically developed to relate to thermal fatigue failure of the HCPV die-attach, however, it also applies, to some extent, to all thermal fatigue related failure mechanisms for the assemblies submitted to test. IEC 62108, the CPV module qualification test already includes an accelerated thermal cycle sequence in one leg of the testing, however, the parameters of that test only represent a qualification level of exposure. This test procedure applies more stress and will provide a route for comparative testing to differentiate CPV modules with improved durability to thermal cycling and the associated mechanical stresses.
信息:ICS:27.160 CCS:F12 发布:2016-12 实施:
ASTM E2939-2013 测定光伏非聚光器系统用报告条件和预测能力的标准实施规程
简介:5.1x00a0;This practice can be used to determine an expected capacity for an existing or a proposed photovoltaic system in a particular location during a specified period of time (see data collection period in Test Method E2848). 5.2x00a0;The expected capacity calculated in accordance with this practice can be compared with the capacity measured according to Test Method E2848 when the RC are the same. 5.3x00a0;The comparison of expected capacity and measured capacity can be used as a criterion for plant acceptance. 5.4x00a0;The user of this practice must select the performance simulation period over which the reporting conditions and expected capacity will be derived. Seasonal variations will likely cause both of these to change with differing performance simulation periods. 5.5x00a0;When this practice is used in conjunction with Test Method E2848, the performance simulation period and the data collection period must agree. If they do not agree, the comparison between expected and measured capacity will not be meaningful. 5.6x00a0;Historical or measured5 plane-of-array irradiance, ambient air temperature and wind speed data can be used to select reporting conditions and calculate expected capacity. If historical data are used, the data collection period should match the time period of the measured data in terms of season and length. 5.7x00a0;The simulated power output that is used to calculate the expected capacity should be derived from a performance model designed to represent the photovoltaic system which will be reported per Test Method E2848. 1.1x00a0;This practice provides procedures for determining the expected capacity of a specific photovoltaic system in a specific geographical location that is in operation under natural sunlight during a specified period of time. The expected capacity is intended for comparison with the measured capacity determined by Test Method E2848. 1.2x00a0;This practice is intended for use with Test Method E2848 as a procedure to select appropriate reporting conditions (RC), including solar irradiance in the plane of the modules, ambient temperature, and wind speed, needed for the photovoltaic system capacity measurement. 1.3x00a0;The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard. 1.4x00a0;This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.
信息:ICS:27.160 (Solar energy engineering) CCS: 发布:2013 实施:
GB/T 26972-2011 聚光型太阳能热发电术语
简介:本标准规定了聚光型太阳能热发电的有关术语和定义。本标准适用于聚光型太阳能热发电中聚光、光热转换、储热、发电及并网等过程。
信息:ICS:27.160 CCS:F12 发布:2011-09-29 实施:2012-08-01
IEC 62108:2016 RLV 聚光光伏(CPV)组件和组件.设计鉴定和型式认证
简介:
信息:ICS:27.160 CCS: 发布:2016-09-26 实施:
KS M ISO 877-3-2012 塑料.暴露在太阳辐射条件下的方法.第3部分:应用聚光太阳辐射强化风干
简介:이 표준은 풍화 과정을 촉진시키기 위해 반사 집광기(reflecting concentrat
信息:ICS:83.080.01 CCS:G32 发布:2012-12-24 实施:2012-12-24
GB/T 20236-2006 非金属材料的聚光加速户外暴露试验方法
简介:1.1 本标准采用以太阳为光源的菲涅耳 (Fresnel)反射系统来进行非金属材料的加速户外暴露试验。 1.2 本标准规定了利用由菲涅耳反射系统构成的加速户外暴露试验设备进行非金属材料加速户外暴露试验的方法。本标准给出了所使用的设备(见图1和图2)以及设备的使用导则,以将加速户外暴露试验中的可变因素降至最少。 1.3 本标准没有给出针对具体材料的最适宜的试验条件,而仅限于测量方法和过程控制。针对具体材料的试样的准备、试验条件和结果评价可参照已有的标准和规范。 1.4 本标准规定的设备和方法可用于确定暴露于日光、热和潮湿下的材料的相对耐久性,前提是假设试验期间发生的对材料加速老化速率起决定性作用的物理和/或化学变化机理没有太大的不同。 1.5 本标准规定了统一的试样安装方法和试验过程中的维护程序,也给出了设备和反射系统的维护程序,以保证设备的洁净和具有耐久性。 1.6本标准适用于那些满足8.2中尺寸要求的试样。 1.7 对于目前使用的设备来讲,本标准不适用于厚度超过13mm的试样,因为试样散热会有问题。 1.8 本标准采用国际单位制。 1.9 本标准中没有给出采用本标准时应注意的安全事项。在使用本标准前采取适当的安全和保护健康的措施是使用者的责任。
信息:ICS:19.040 CCS:A21 发布:2006-04-30 实施:2006-12-01
IEC 62108-2016 RLV 聚光光伏(CPV)组件和组件.设计鉴定和型式认证
简介:
信息:ICS:27.160 CCS: 发布:2016-09-26 实施:
IEC 82/748/CD-2012 IEC/TS 62789:聚光电池描述规范
简介:
信息:ICS:27.160 CCS:K84 发布:2012-10 实施:
ASTM D3771-15(2022) 聚光太阳能收集器用橡胶密封件标准规范
简介:
信息:ICS:21.140 CCS: 发布:2022-10-01 实施:
KS C IEC 62670-1-2016(2021) 光电聚光器(CPV)性能试验第1部分:标准条件
简介:
信息:ICS:27.160 CCS: 发布:2016-03-21 实施:
DB13/T 1518-2012 聚光型光伏接收器
简介:本标准适用于以砷化镓聚光芯片为光电转换器件,结构为非空腔密封结构规格分别为5.5×5.5mm和10×10mm系列的聚光型光伏接收器。
信息:ICS:27.160 CCS:F 12 发布:2012-04-19 实施:2012-04-30
ASTM D4141/D4141M-22 涂料的黑匣子和太阳聚光曝光的标准实施规程
简介:
信息:ICS:87.040 CCS: 发布:2022-01-01 实施:
GOST R IEC 62670-1-2016 聚光光伏设备和系统. 性能试验. 第1部分. 标准条件
简介:
信息:ICS:27.160 CCS: 发布:2016 实施:2017-03-01
UL 62108-2012 聚光光伏(CPV)模块和组件.设计资格和型号批准
简介:
信息:ICS:27.160 CCS:F12 发布:2012-01-25 实施:
T/CSAE 134-2020 汽车耐老化 太阳跟踪聚光户外加速 老化试验方法
简介:本标准规定了以太阳为光源的菲涅耳反射系统来进行汽车外饰材料的加速老化试验的术语和定义、试验场地要求、设备、安全预防措施、试样、试验程序和结果。本标准适用于以太阳为光源的菲涅耳反射系统来进行汽车外饰材料的加速老化试验。本标准规定的设备和方法可用于确定曝露于日光、热和潮湿下的汽车材料的相对耐老化性,前提是假设试验期间发生的对材料加速老化速率起决定性作用的物理、化学变化机理没有改变。本标准的试验结果可用于比较经过特定周期试验的汽车外饰材料之间的相对耐老化性。任何加速曝露试验都不能视为对自然或现场曝露进行了完全的模拟,只有当针对被试材料的可用于比较的性能等级已经确定后,本标准的试验结果才可视为能够代表自然或现场曝露试验的结果。
信息:ICS:43.020 CCS:C3670 发布:2020-05-29 实施:2020-06-05
GOST R 56983-2016 聚光光伏设备. 试验方法
简介:
信息:ICS:27.160 CCS:F12 发布:2016 实施:2017-03-01
ANSI/UL 62108-2012 聚光光伏(CPV)模块和组件标准.设计资格和型号批准
简介:Provides the proposed first edition of the UL IEC-based Standard for Concentrator Photovoltaic (CPV) Modules and Assemblies - Design Qualification and Type Approval, UL 62108.
信息:ICS:27.160 CCS:F12 发布:2012-01-01 实施:
JB/T 13804-2020 线状聚光菲涅尔透镜
简介:
信息:ICS:37.040.10 CCS:N43 发布:2020-04-16 实施:2021-01-01
GOST R IEC 62670-1-2016 聚光光伏设备和系统. 性能试验. 第1部分. 标准条件
简介:
信息:ICS:27.160 CCS:F12 发布:2016 实施:2017-03-01
ASME STP-PT-054-2012 聚光式太阳能发电(CSP)规范和标准差异分析
简介:Numerous concentrated solar power (CSP) facilities have been in successful commercial operation for the past 25 years. Recently, government incentives and advances in cost reduction have brought many new players into the field. An accelerated deployment of CSP is currently being seen worldwide. Many of the developing technologies in CSP have failure modes and effects different from those treated by existing boiler and pressure vessel codes. This study is a gap analysis to identify differences between the safety regulation needs of emerging CSP technologies and existing ASME Boiler and Pressure Vessel codes (BPV). Six leading CSP technologies are examined. The safety related failure modes of these systems are identified and compared with existing Code rules to identify gaps in code coverage. Recommendations for actions to close these gaps are proposed.
信息:ICS:27.160 CCS:F12 发布:2012 实施:
ASTM E2527-15(2019) 地面聚光光伏组件和系统在自然阳光下电性能的标准试验方法
简介:
信息:ICS:27.160 CCS: 发布:2019-04-01 实施:
GOST R 56983-2016 聚光光伏设备. 试验方法
简介:
信息:ICS:27.160 CCS: 发布:2016 实施:2017-03-01
ASME STP-PT-054-2012 聚光式太阳能发电(CSP)规范和标准差异分析
简介:
信息:ICS:27.160 CCS:F12 发布:2012 实施:
T/CRES 0003-2018 太阳能聚光器面形性能测量方法
简介:3术语和定义GB/T12936、GB/T26972确立的以及下列术语和定义适用于本标准。3.1倾斜误差slopedeviation聚光器表面法线方向的测量值与理论值的偏差。3.2截断因子interceptfactor在聚光集热系统中,吸热器接收的能量与聚光器会聚的总能量之比。4技术要求技术要求1:聚光器表面采样点法线方向分别沿聚光器坐标系x方向和y方向的倾斜误差,绘制倾斜误差分布图,计算倾斜误差均方根值,该值应≤3mrad;技术要求2:不考虑太阳发散角的影响,对聚光器进行光线追迹,光线数等于聚光器表面采样点数,追迹光线为一束平行光,且平行于聚光器的光轴入射,经聚光器反射后交于接收面上,接收面位于聚光器的理论焦点或焦线位置,接收面的形状和尺寸与理论值相等,计算追迹光线与接收面的交点数占追迹光线总数的百分比,该百分比应≥99.6%;技术要求3:考虑太阳发散角的影响,对聚光器进行光线追迹,光线数等于被测镜表面采样点数乘以太阳发散角内追迹光线数,追迹光束的主光线沿聚光器的光轴入射,经聚光器反射后交于接收面上,接收面位于聚光器的理论焦点或焦线位置,接收面的形状和尺寸与理论值相等,计算追迹光线与接收面的交点数占追迹光线总数的百分比,该百分比应≥98.6%。技术要求4:根据聚光器表面采样点法线方向测量值及采样点坐标测量值,对聚光器表面进行曲面拟合,绘制聚光器表面三维图。
信息:ICS:27.160 CCS:D441 发布:2018-10-08 实施:2018-10-10
DIN EN 62670-2-2015 聚光光伏 (CPV). 性能试验. 第2部分: 能源测量 (IEC 62670-2-2015); 德文版本EN 62670-2-2015
简介:
信息:ICS:27.160 CCS:F12 发布:2015-12 实施:
NB/T 34003-2011 聚光型太阳灶通用技术条件
简介:本标准规定了聚光型太阳灶的技术要求、检测方法和检验规则等。本标准适用于抛物面聚光型太阳灶,其他聚光型太阳灶可参照执行。
信息:ICS:27.160 CCS:F12 发布:2011-07-01 实施:2011-10-01
BS EN ISO 877-3-2018 塑料.暴露在太阳辐射条件下的方法.应用聚光太阳辐射强化风干
简介:
信息:ICS:83.080.01 CCS:G31 发布:2018-06-13 实施:2018-06-13
BS PD IEC/TS 62789-2014 聚光光伏电池的文件
简介:
信息:ICS:27.160 CCS: 发布:2015-10-31 实施:2015-10-31
DIN EN ISO 877-3-2011 塑料.暴露在太阳辐射条件下的方法.第3部分:应用聚光太阳辐射强化风干(ISO 877-3-2009);德文版本EN ISO 877-3-2010
简介:This part of ISO 877 specifies a method for exposure plastics to xoncentrated solar radiation using reflecting concentrators to accelerate the weathering processes. The purpose is to asses property changes produced after specified stages of such exposures.
信息:ICS:83.080.01 CCS:G31 发布:2011-03 实施:
ISO 877-3-2018 塑料.暴露在太阳辐射条件下的方法.第3部分:应用聚光太阳辐射强化风干
简介:
信息:ICS:83.080.01 CCS:G31 发布:2018-04-01 实施:
JB/T 12238-2015 聚光光伏太阳能发电模组的测试方法
简介:
信息:ICS: CCS: 发布:2015-10-01 实施:2015-10-01
BS EN ISO 877-3-2010 塑料.暴露在太阳辐射条件下的方法.应用聚光太阳辐射强化风干
简介:
信息:ICS:83.080.01 CCS:G31 发布:2011-01-31 实施:2011-01-31
DIN EN 62670-3-2017 聚光光伏(CPV).性能试验.第3部分:性能测量和功率定额(IEC 62670-3-2017);德文版本EN 62670-3-2017
简介:This part of IEC 62670 defines measurement procedures and instrumentation for determining concentrator photovoltaic performance at CSOC and CSTC (defined in IEC 62670-1) conditions, including power ratings.
信息:ICS:27.160 CCS:F12 发布:2017-12-01 实施:2017-12-01
BS EN 62670-2-2015 光伏聚光器 (CPV). 性能试验能量测量
简介:
信息:ICS:27.160 CCS:F12 发布:2015-07-31 实施:2015-07-31
UL SUBJECT 8703-2011 聚光光伏模块和组件的调查大纲
简介:1.1 These requirements cover concentrator photovoltaic (CPV) modules and assemblies that concentratelight on a target PV cell(s) for use in general and restricted areas in accordance with the unit’s installationinstructions. A CPV modlue is defined as any photovoltaic module which uses artificially elevated levels(i.e. concentrated) of solar irradiance to produce electrical energy.1.2 These requirements address concentrator photovoltaic (CPV) modules and assemblies intended forinstallation in accordance with their installation instructions on or integral with buildings, or to befreestanding (i.e. ground mounted or otherwise not attached to buildings), in accordance with the NationalElectrical Code, NFPA 70, and model building codes.1.3 The installation class for CPV modules and assemblies identifies the intended installation location aseither general access areas designated “General,” or restricted access areas designated “Restricted.”General access units are able to be installed in open areas that may be contacted by the general public.Restricted access units are to be installed in areas that prevent general public access such as a lockedand fenced in area.1.4 These requirements cover CPV modules and assemblies intended for use in systems with amaximum system voltage of 1500 V.Exception: CPV modules that are constructed in the flate plate module format as defined by the Standardfor Flat-Plate Photovoltaic Modules and Panels, UL 1703, and with a concentration ratio of no more than2 times shall be evaluated in accordance with all of the requirements in UL 1703.
信息:ICS: CCS:F12 发布:2011-01-27 实施:
DIN EN 62925-2017 聚光光伏(CPV)模组.区分热疲劳耐久性增加的热循环试验(IEC 62925-2016);德文版本EN 62925-2017
简介:The purpose of this International Standard is to define a test sequence that will quickly uncover CPV module failures that have been associated with field exposure to thermal cycling for many years. This standard was specifically developed to relate to thermal fatigue failure of the HCPV die attach, however will also apply, to some extent, to all thermal fatigue related failure mechanisms for the assemblies submitted to test.
信息:ICS:27.160 CCS:F12 发布:2017-11-01 实施:2017-11-01
ASTM E2527-15 地面聚光光伏组件和系统在自然阳光下电性能的标准试验方法
简介:
信息:ICS:27.160 CCS: 发布:2015-02-01 实施:
KS C IEC 62108-2009(2020) 聚光光伏(CPV)模块和组件设计鉴定和型式认证
简介:
信息:ICS:27.160 CCS: 发布:2009-12-22 实施:
IEC 62688:2017 聚光光伏(CPV)模块和组件 - 安全认证
简介:
信息:ICS:27.160 CCS: 发布:2017-09-15 实施:
IEC TS 62789-2014 聚光光伏电池的文件
简介:
信息:ICS:27.160 CCS: 发布:2014-12 实施:
ISO 877-3-2009 塑料.暴露在太阳辐射条件下的方法.第3部分:应用聚光太阳辐射强化风干
简介:
信息:ICS:83.080.01 CCS:G31 发布:2009-06-01 实施:
NF C57-370-3-2017 光伏聚光器(CPV). 性能试验. 第3部分:性能测量和额定功率
简介:
信息:ICS:27.160 CCS:F12 发布:2017-08-05 实施:2017-08-05
DIN EN 62670-1-2014 光伏聚光器 (CPV). 性能试验. 第1部分: 标准条件 (IEC 62670-1-2013); 德文版本EN 62670-1-2014
简介:
信息:ICS:27.160 CCS:F12 发布:2014-11 实施:
ASTM E2527-09 地面聚光光伏组件和系统在自然阳光下电性能的标准试验方法
简介:
信息:ICS:27.160 CCS: 发布:2009-01-15 实施:
BS EN 62670-3-2017 聚光光伏(CPV). 性能试验. 性能测量和功率定额
简介:
信息:ICS:27.160 CCS:F12 发布:2017-06-28 实施:2017-06-28
NF C57-370-1-2014 光伏聚光器 (CPV). 性能试验. 第1部分: 标准条件
简介:La présente partie de la CEI 62670 définit les conditions normales pour déterminer la puissance produite par les systèmes photovoltaïques à concentration et leurs sous-composants photovoltaïques. L'objet de la présente partie de la CEI 62670 est de définir un ensemble cohérent de conditions, de sorte que les rapports de puissance notés sur les fiches techniques et les plaques signalétiques aient une base de référence. Deux ensembles de conditions sont inclus pour caractériser:a) les conditions de fonctionnement qui représentent la performance sous exposition au soleil dans des conditions météorologiques couramment mesurées, etb) les conditions d'essais qui
信息:ICS:27.160 CCS: 发布:2014-08-09 实施:2014-08-09
QB/T 2061-2008 聚光灯泡及反射型聚光摄影灯泡
简介:本标准规定了聚光灯泡及反射型聚光摄影灯泡(以下简称“灯泡”)的术语和定义、型号、主要尺寸和基本参数、技术要求、试验方法、检验规则及标志、包装、运输、贮存。本标准适用于供电电压为220V、功率不大于3000W,应用于电影摄影、舞台配光和强光照明的聚光灯泡及反射型聚光摄影灯泡。本标准应与GB 14196.1一起使用。
信息:ICS:29.140.30 CCS:K74 发布:2008-02-01 实施:2008-07-01
IEC 62670-3:2017 光伏聚光器(CPV) - 性能测试 - 第3部分:性能测量和额定功率
简介:
信息:ICS:27.160 CCS: 发布:2017-02-07 实施:
IEC 82/809/DTS-2013 IEC/TS 62108-9: 聚光光伏(CPV)模块和总成. 设计质量和型式批准. 第9部分: 重测指南
简介:
信息:ICS:27.160 CCS:F12 发布:2013-11 实施:
NEMA C78.1407-2004 电灯.四脚预聚焦底座聚光反射器的放映灯的尺寸[代替:ANSI C78.1407, ANSI C78.1407]
简介:
信息:ICS: CCS: 发布:2004-01-01 实施:
IEC 62670-3-2017 聚光光伏(CPV). 性能试验. 第3部分: 性能测量和功率定额
简介:This part of IEC 62670 defines measurement procedures and instrumentation for determining concentrator photovoltaic performance at concentrator standard operating conditions (CSOC) and concentrator standard test conditions (CSTC), defined in IEC 62670-1, including power ratings.
信息:ICS:27.160 CCS:F12 发布:2017-02 实施:
IEC 62670-1-2013 聚光光伏 (CPV)性能测试. 第1部分: 标准条件
简介:
信息:ICS:27.160 CCS:F12 发布:2013-09 实施:
ANSI C78.1407-2004 电灯.聚光器反光镜、四脚、预聚焦底座投影灯.尺寸
简介:This project is a revision of ANSI C78.1407-1985
信息:ICS:29.140.20 CCS:K71 发布:2004 实施:
DB51/T 2249-2016 太阳能线性聚光菲涅尔透镜
简介:本标准规定了太阳能线性聚光菲涅尔透镜的术语和定义、透镜形状、构造及尺寸、技术要求、试验方法、检验规则、抽样及批的判定规则、标志、包装、运输和贮存。 本标准适用于太阳能线性聚光菲涅尔透镜。
信息:ICS:27.010 CCS:F01 发布:2016-12-20 实施:2017-01-01
IEC 82/776/DTS-2013 IEC/TS 62789, Ed.1: 聚光电池描述规范
简介:
信息:ICS:27.160 CCS:K82 发布:2013-05 实施:
NY/T 219-2003 聚光型太阳灶
简介:
信息:ICS:27.160 CCS:F12 发布:2003-12-01 实施:2004-03-01
IEC 62925:2016 聚光光伏(CPV)模块 - 热循环测试以区分增加的热疲劳耐久性
简介:
信息:ICS:27.160 CCS: 发布:2016-12-14 实施:
DIN IEC/TS 62789-2013 聚光电池描述规范 (IEC 82/748/CD-2012)
简介:
信息:ICS:27.160 CCS:K82 发布:2013-03 实施:
ASTM D3771-2003(2007) 聚光型太阳能集热器用橡胶密封元件标准规范
简介:1.1 This specification covers the general requirements for materials used in rubber seals of concentrating solar collectors. Particular applications may necessitate other requirements that would take precedence over these requirements when specified. 1.2 Design requirement pertains only to permissible deflections of the rubber during thermal expansion or contraction of the seal in use and the tolerances in dimensions of molded and extruded seals. 1.3 This specification does not include requirements pertaining to the fabrication or installation of the seals. 1.4 The values stated in SI units are to be regarded as the standard. 1.5 The following safety hazards caveat pertains only to the test methods portion, Section 9, of this specification: This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.
信息:ICS:21.140 (Seals, glands) CCS:G43 发布:2003 实施:
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