公开(公告)号：KR1020120023115A

公开(公告)日：2012-03-12

申请号：KR1020117030446

申请日：2010-05-28

Applicant: 주식회사 쿠라레

Inventor： 도요하라마코토 ,  오노요우지 ,  마쓰자키이치로

IPC: G02B3/08 ,  H01L31/054

CPC classification number: G02B3/08 ,  F24S23/31 ,  F24S2201/00 ,  G02B19/0042 ,  H01L31/0543 ,  Y02E10/43 ,  Y02E10/52 ,  Y02P80/24

Abstract: 기재 중에 자외선 흡수제를 함유하는 수지제 태양광 집광용 광학 시트에 관해서, 메탈할라이드 램프식 내후성 시험(장치 규격: JTM G 01: 2000, 일본시험기공업회)에 의한 가속 열화 시험에 있어서, T
1 시간의 조사 시간으로 시험한 후의, 400nm 내지 1850nm의 파장 영역의 평균 투과율의 저하가 하기 수학식 1: τuv(0)+τuv(T
1 )>τ
0 (0)+τ
0 (T
1 )을 만족시키고, 또한, 상기 파장 영역에서 각 파장별로 초기값으로부터의 투과율 저하가 10% 이하이도록 기재에 함유되는 자외선 흡수제량을 결정하는 것을 특징으로 하는 태양광 집광용 광학 시트의 설계 방법 및 그것에 의해 얻어지는 태양광 집광용 광학 시트. T
1 은 실제 사용 장소에 대응하여 필요한 촉진 시험 시간이다. 본 발명의 광학 시트는 다량의 자외선 조사 환경, 장기간 사용하에 있어서, 투과율 저하가 없어 효율적으로 집광할 수 있는 성능을 가진다.

公开(公告)号：KR101022203B1

公开(公告)日：2011-03-16

申请号：KR1020090013653

申请日：2009-02-19

Applicant: 주식회사 새한티앤아이 ,  전남대학교산학협력단

Inventor： 박성준 ,  이민중 ,  진철묵 ,  진근영

IPC: H02S50/00

CPC classification number: F24S30/452 ,  F24S2201/00

Abstract: 본 발명은 태양광 추적 발전 모의 실험장치에 관한 것으로, 보다 구체적으로는 아치형 레일을 따라 움직이는 모의 태양과 상기 모의 태양에서 발광되는 빛을 추적하며 전력을 생산하는 태양전지판을 구비하여, 야간이나 실내에서도 태양광 추적 발전을 실험할 수 있는 태양광 추적 발전 모의 실험장치에 관한 것이다.
태양광 추적 발전, 모의 실험, 모의 태양, 태양전지판, 아치형 레일

公开(公告)号：EP3056836A2

公开(公告)日：2016-08-17

申请号：EP16157956.0

申请日：2008-10-06

Applicant: Sungevity

Inventor： Kennedy, Daniel Ian ,  Birch, Andrew ,  Pryor, Adam

IPC: F24J2/00

CPC classification number: F24S50/00 ,  F24S2201/00 ,  G06F17/5004 ,  G06F2217/78 ,  G06Q10/10 ,  G06Q50/06 ,  Y02B10/20 ,  Y02E10/40

Abstract: The invention provides systems and methods for provisioning a site with a solar energy system. A system (100) according to an embodiment of the invention comprises a data collection module coupled to a user interface module (200) to receive from a user system (106) location information associated with the geographical location of the roof wherein the data collection module communicates with a source (109) of aerial map images to retrieve at least one map image of the roof based on the location information,
and provides the retrieved image to the user interface module (200). The user interface module (200) enabes the user to interact with a displayed image of the roof to generate at least one roof dimension measurement for at least a portion of the roof and comprises an interactive, user-adjustable measuring tool (1107, 1117) the dimensions of which are calibrated based on a scale represented by metadata associated with the displayed image of the roof and which is configured to be used to determine the measurement of the roof in response to a user adjustment of the measuring tool (1107, 1117) corresponding to the displayed image. A sizing module (500) including an input for receiving the at least one roof dimension measurement is provided for determining solar system components suitable for installation on the roof based, at least in part, on the received roof dimension measurement.

Abstract translation: 本发明提供了用于为太阳能系统供应地点的系统和方法。 根据本发明实施例的系统（100）包括耦合到用户接口模块（200）以从用户系统（106）接收与屋顶的地理位置相关联的位置信息的数据收集模块，其中数据收集模块 与航空地图图像的源（109）通信以基于位置信息检索屋顶的至少一个地图图像，并且将检索到的图像提供给用户界面模块（200）。 用户界面模块（200）使用户能够与屋顶的显示图像交互以产生用于屋顶的至少一部分的至少一个屋顶尺寸测量结果，并且包括用户可调节的交互式测量工具（1107,1117） 其尺寸基于由与所显示的屋顶的图像相关联的元数据表示的尺度进行校准，并且该尺寸被配置为用于响应于测量工具（1107,1117）的用户调整而确定屋顶的测量值， 对应于显示的图像。 提供包括用于接收至少一个屋顶尺寸测量值的输入的尺寸调整模块（500），用于至少部分地基于接收到的屋顶尺寸测量值确定适于安装在屋顶上的太阳能系统部件。

公开(公告)号：EP2856339A2

公开(公告)日：2015-04-08

申请号：EP13797164.4

申请日：2013-05-30

Applicant: Neo Virtus Engineering, Inc.

Inventor： BING, James, M.

IPC: G06F17/18

CPC classification number: G01W1/12 ,  F24S2201/00 ,  G01W1/10 ,  H02S50/00

Abstract: In an embodiment, measurements are simulated of direct normal irradiance, diffuse horizontal and global horizontal irradiance from groups of two or more photovoltaic arrays and/or irradiance sensors which are located in close proximity to each other and which have different tilt and azimuth angles. 5 Irradiance measurements derived from solar power system power measurements are combined with measurements made by irradiance sensors to synthesize an image of ground level global horizontal irradiance which can be used to create a vector describing motion of that image of irradiance in an area of interest. A sequence of these irradiance images can be transformed into a time series from 10 which a motion vector can be derived.

公开(公告)号：EP2180273A3

公开(公告)日：2013-12-18

申请号：EP09013430.5

申请日：2009-10-23

Applicant: Suncore Photovoltaics Incorporated

Inventor： Sherman, James

IPC: F24J2/38 ,  F24J2/46 ,  F24J2/54 ,  H01L31/042 ,  H01L31/052

CPC classification number: H01L31/0543 ,  F24S30/452 ,  F24S40/00 ,  F24S50/20 ,  F24S2201/00 ,  H02S20/10 ,  H02S20/32 ,  Y02E10/47 ,  Y02E10/52

Abstract: An automated method causes a terrestrial solar cell array (105) to track the sun. The solar cell system includes drive motors (210,211) that adjust a position of the array relative to respective different axes. The position of the sun is predicted at a future time, and a kinematic model for the solar cell array is used to determine respective positions for the motors corresponding to aligning the solar cell array with the sun at that future time. The future time may correspond to any time during solar tracking operation, which may begin at sunrise or after sunrise. Additionally, an alignment analysis may be performed during solar tracking to properly align the solar cell array with the sun. The technique may sweep one or more solar cells along determined paths (e.g., azimuth and elevation paths) while measuring an output parameter indicative of system performance. The measured data is analyzed to determine if the solar cell system is in misalignment in which case the solar cell system is moved into proper alignment. The alignment procedure may be implemented on a periodic basis or using triggers, and maybe automatically executed or manually executed.

Abstract translation: 一种自动化方法使地面太阳能电池阵列（105）跟踪太阳。 太阳能电池系统包括驱动电机（210,211），其调整阵列相对于不同轴线的位置。 太阳的位置在将来的时间是预测的，并且使用太阳能电池阵列的运动学模型来确定在未来时间将太阳能电池阵列与太阳对准的电动机的相应位置。 未来时间可能对应于太阳跟踪操作期间的任何时间，这可能在日出时或日出之后开始。 此外，可以在太阳跟踪期间执行对准分析，以将太阳能电池阵列与太阳适当对准。 该技术可以在测量指示系统性能的输出参数的同时沿确定的路径（例如，方位角和仰角路径）扫描一个或多个太阳能电池。 分析测量数据以确定太阳能电池系统是否处于未对准，在这种情况下，太阳能电池系统被移动到正确的对准状态。 对齐过程可以周期性地使用或使用触发器实现，并且可以自动执行或手动执行。

公开(公告)号：EP2660739A1

公开(公告)日：2013-11-06

申请号：EP12166383.5

申请日：2012-05-02

Applicant: Siemens Aktiengesellschaft

Inventor： Fink, Rafael

IPC: G06F17/50

CPC classification number: G06F17/5004 ,  F24S2201/00 ,  G06F17/5009

Abstract: Die Erfindung betrifft ein Verfahren und eine Vorrichtung zum Erstellen eines Anlagenlayouts eines Photovoltaik-Freiflächenkraftwerks, welches Kraftwerkskomponenten, insbesondere Solartracker aufweist, mit folgenden Verfahrensschritten: Bereitstellen von Konfigurationsdaten, welche das Photovoltaik-Freiflächenkraftwerk und dessen Kraftwerkskomponenten spezifizieren, und von Konfigurationsregeln, welche für das Photovoltaik-Freiflächenkraftwerk vorgegeben werden, sowie von Konfigurationsparametern, welche die Konfigurationsregeln konkretisieren; und Initialisieren und anschließendes Optimieren einer Auswahl und einer Verortung von benötigten Kraftwerkskomponenten für die Anlagenlayouteigenschaften des Photovoltaik-Freiflächenkraftwerks anhand der bereitgestellten Konfigurationsdaten und der konkretisierten Konfigurationsregeln zur Erstellung des Anlagenlayouts des Photovoltaik-Freiflächenkraftwerks.

Abstract translation: 该方法包括提供自由场光伏电站和电厂组分（S1）的配置数据。 所述配置参数指定被设置用于自由场光伏电站哪个配置规则。 选择和用于自由场光伏电源布局所需的电力设备部件的定位被初始化，基于具体化所提供的配置数据和配置规则的优化植物（S2）。 独立权利要求中包括了以下内容：用于创建的自由场光伏电站系统布局（1）装置; 和（2），用于创建的自由场光伏电站系统布局的计算机程序。

公开(公告)号：EP0917210B1

公开(公告)日：2012-01-11

申请号：EP98121420.8

申请日：1998-11-11

Applicant: CANON KABUSHIKI KAISHA

Inventor： Makita, Hidehisa ,  Fukae, Kimitoshi ,  Takabayashi, Akiharu ,  Shiomi, Satoru ,  Itoyama, Shigenori

IPC: H01L31/042 ,  E04D13/18

CPC classification number: H02S20/23 ,  F24S20/67 ,  F24S25/20 ,  F24S2201/00 ,  H01L31/048 ,  Y02B10/12 ,  Y02B10/20 ,  Y02E10/47 ,  Y02E10/50 ,  Y10S126/906 ,  Y10S136/291

Abstract: To optimally arrange roofing material integrated solar battery modules having a rectangular form and same size on a roof setting surface, an arrangement range in which the solar battery modules can be arranged on the roof setting surface is determined. An arranging direction of the solar battery modules is determined. The number of solar battery modules which can be arranged almost horizontally in a line in the determined arranging direction and within the arrangement range is calculated. Solar battery modules of a line in a number not more than the calculated number are combined to form a solar battery module group. The solar battery module groups are arranged to set a center of the solar battery module group within the determined arrangement range and near a line almost vertically dividing the surface into two parts. The above operations are repeated a number of times corresponding to the number of lines of solar battery module groups which can be vertically arranged in the determined arranging direction and within the arrangement range.

Abstract translation: 为了在屋顶安装表面上最佳地布置具有矩形形状和相同尺寸的集成太阳能电池模块的屋顶材料，可以确定太阳能电池模块可布置在屋顶安装表面上的布置范围。 确定太阳能电池模块的布置方向。 计算出可以在所确定的布置方向和布置范围内几乎水平布置的太阳能电池模块的数量。 将不超过计算出的数量的线路的太阳能电池模块组合形成太阳能电池模块组。 太阳能电池模块组被布置成将太阳能电池模块组的中心设置在所确定的布置范围内并且靠近几乎垂直地将表面分成两部分的线。 上述操作重复多次，该次数对应于可以在所确定的布置方向上并在布置范围内垂直布置的太阳能电池模块组的线数。

公开(公告)号：EP2399213A2

公开(公告)日：2011-12-28

申请号：EP10705686.3

申请日：2010-02-03

Applicant: SunPower Corporation

Inventor： WAYNE, Gary ,  FRUMKIN, Alexander ,  ZAYDMAN, Michael ,  LEHMAN, Scott ,  BRUNNER, Jules

IPC: G06F17/50 ,  F24J2/00

CPC classification number: G06F17/50 ,  F24S2201/00 ,  G06F17/5004

Abstract: Embodiments may include systems and methods to create and edit a representation of a worksite, to create various data objects, to classify such objects as various types of pre-defined features with attendant properties and layout constraints. As part of or in addition to classification, an embodiment may include systems and methods to create, associate, and edit intrinsic and extrinsic properties to these objects. A design engine may apply of design rules to the features described above to generate one or more solar collectors installation design alternatives, including generation of on-screen and/or paper representations of the physical layout or arrangement of the one or more design alternatives. Embodiments may also include definition of one or more design apertures, each of which may correspond to boundaries in which solar collector layouts should comply with distinct sets of user-defined design preferences. Distinct apertures may provide heterogeneous regions of collector layout according to the user-defined design preferences.

公开(公告)号：EP2399212A1

公开(公告)日：2011-12-28

申请号：EP10704636.9

申请日：2010-02-03

Applicant: SunPower Corporation

Inventor： WAYNE, Gary ,  FRUMKIN, Alexander ,  ZAYDMAN, Michael ,  LEHMAN, Scott ,  BRENNER, Jules

IPC: G06F17/50 ,  H01L31/00

CPC classification number: G06Q10/06313 ,  F24S2201/00 ,  G06F17/30309 ,  G06F17/5004 ,  G06Q10/067 ,  G06Q50/165

Abstract: Embodiments may include systems and methods to create and edit a representation of a worksite, to create various data objects, to classify such objects as various types of pre-defined “features” with attendant properties and layout constraints. As part of or in addition to classification, an embodiment may include systems and methods to create, associate, and edit intrinsic and extrinsic properties to these objects. A design engine may apply of design rules to the features described above to generate one or more solar collectors installation design alternatives, including generation of on-screen and/or paper representations of the physical layout or arrangement of the one or more design alternatives. Some embodiments may provide viewing, creating, and manipulating of multiple versions of a solar collector layout design for a particular installation worksite. The use of versions may allow analysis of alternative layouts, alternative feature classifications, and cost and performance data corresponding to alternative design choices. Version summary information providing a representative comparison between versions across a number of dimensions may be provided.

公开(公告)号：EP2311097A1

公开(公告)日：2011-04-20

申请号：EP09774564.0

申请日：2009-07-02

Applicant: Greenfield Solar Corp.

Inventor： ZALUSKY, James, Thomas ,  ZAHURANEC, Terry ,  SATER, Neil, D. ,  SATER, Bernard, L.

IPC: H01L31/042

CPC classification number: G01M11/005 ,  F24S23/70 ,  F24S23/74 ,  F24S25/00 ,  F24S30/458 ,  F24S40/00 ,  F24S40/85 ,  F24S50/20 ,  F24S2023/874 ,  F24S2201/00 ,  G02B7/183 ,  H01L31/0547 ,  H02S20/32 ,  Y02E10/45 ,  Y02E10/47 ,  Y02E10/52

Abstract: System(s) and method(s) for mounting, deploying, testing, operating, and managing a solar concentrator are provided. The innovation discloses mechanisms for evaluating the performance and quality of a solar collector via emission of modulated laser radiation upon (or near) a position of photovoltaic (PV) cells. The innovation discloses positioning two receivers at two distances from the source (e.g., solar collector or dish). These receivers are employed to collect light which can be compared to standards or other thresholds thereby diagnosing quality of the collectors. Receiver(s) includes photovoltaic (PV) module(s) for energy conversion, or module(s) for thermal energy harvesting. PV cell in PV modules can be laid out in various configurations to maximize electric current output. Moreover, a heat regulating assembly removes heat from the PV cells and other hot regions, to maintain the temperature gradient within predetermined levels.