公开(公告)号：KR1020120108780A

公开(公告)日：2012-10-05

申请号：KR1020110027092

申请日：2011-03-25

Applicant: 목포대학교산학협력단

Inventor： 윤한용 ,  최영도 ,  최경호 ,  최낙준 ,  손성우 ,  이준용

IPC: F03D11/00 ,  G01M9/00

CPC classification number: Y02P70/523 ,  F03D80/00 ,  F03D13/10 ,  F05B2230/50 ,  F05B2260/84 ,  G01M9/00

Abstract: PURPOSE: A method for manufacturing a wind power turbine with a small horizontal shaft by developing a standard process is provided to independently produce a wind power turbine system so that the related design technology is obtained. CONSTITUTION: A method for manufacturing a wind power turbine with a small horizontal shaft by developing a standard process comprises following steps. The aerodynamic design of a blade is processed by applying a XD-blade. The review and evaluation of a system design is processed using FOCUS software(S120). The performance of the wind power turbine is estimated by aerodynamic and structural analysis with applying ANSYS software(S130). A miniature wind turbine model applied with a design strategy is manufactured(S140). The performance of the miniature wind turbine model is verified by a wind tunnel test(S150). A standard process of manufacturing the miniature wind turbine model is made. A real wind turbine model is manufactured based on the standard process. [Reference numerals] (S110) Blade aerodynamic design is processed using XD-Blade; (S120) The review and evaluation of a system design are processed using FOCUS software; (S130) The performance of the wind power turbine is estimated by aerodynamic and structural analysis by applying ANSYS software; (S140) A miniature wind turbine model applied with a design strategy is manufactured; (S150) The performance of the miniature wind turbine model is verified by a wind tunnel test; (S160) A standard process of manufacturing the miniature wind turbine model is made; (S170) Manufacturing a 1 kw horizontal shaft wind turbine

Abstract translation: 目的：提供一种通过开发标准工艺制造具有小水平轴的风力发电机的方法，以独立地生产风力涡轮机系统，从而获得相关的设计技术。 构成：通过开发标准工艺制造具有小水平轴的风力发电机的方法包括以下步骤。 通过施加XD叶片来处理叶片的空气动力学设计。 使用FOCUS软件处理系统设计的审查和评估（S120）。 风力发电机组的性能通过应用ANSYS软件的空气动力学和结构分析来估计（S130）。 制造应用了设计策略的微型风力涡轮机模型（S140）。 通过风洞试验验证了微型风力发电机型号的性能（S150）。 制造微型风力发电机模型的标准流程。 基于标准流程制造真正的风力涡轮机模型。 （参考号）（S110）叶片空气动力学设计使用XD-Blade进行处理; （S120）使用FOCUS软件处理系统设计的审查和评估; （S130）风力发电机组的性能通过应用ANSYS软件的空气动力学和结构分析进行估算; （S140）制造应用了设计策略的微型风力涡轮机模型; （S150）通过风洞试验验证了微型风力发电机型号的性能; （S160）制作微型风力发电机模型的标准制造方法; （S170）制造1kw水平轴风力发电机

公开(公告)号：KR1020130095590A

公开(公告)日：2013-08-28

申请号：KR1020120017166

申请日：2012-02-20

Applicant: 목포대학교산학협력단

Inventor： 한창민 ,  최영도 ,  손성우 ,  이준용 ,  김재훈

IPC: F25D3/02 ,  F24J2/42 ,  F25B21/02

CPC classification number: F25D3/06 ,  F25D2300/00

Abstract: PURPOSE: An icebox using a solar battery and a thermoelectric element is provided to increase the retention time of coldness inside the icebox. CONSTITUTION: The icebox includes a thermoelectric element (1), a solar battery panel (2), a solar battery module controller (3), an operating switch (4), and a battery (5). The thermoelectric element keeps the coldness inside the body of the icebox depending on the control of the solar battery module controller. The solar battery panel generates electricity by using solar energy. When the operating switch is operated, the solar battery module controller controls the generation and storage of the electricity using the solar battery panel. The operating switch is a switch to turn the icebox on and off. The battery stores the electricity generated in the solar battery panel.

Abstract translation: 目的：提供一个使用太阳能电池和热电元件的冰箱，以增加冰箱内冷气的停留时间。 构成：冰箱包括热电元件（1），太阳能电池板（2），太阳能电池模块控制器（3），操作开关（4）和电池（5）。 热电元件根据太阳能电池模块控制器的控制将冷藏体保持在冰箱体内。 太阳能电池板通过使用太阳能发电。 当操作开关操作时，太阳能电池模块控制器使用太阳能电池板来控制电力的产生和存储。 操作开关是打开和关闭冰箱的开关。 电池存储太阳能电池板中产生的电量。