黄河兰州段湿地景观清洁电能自循环系统设计  

Design of wetland landscape clean electric energy self circulation system in Lanzhou section of the Yellow River

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作  者:曹峻博 Cao Junbo(School of Art and Design Lanzhou University of Arts and Science,Lanzhou 730010,China)

机构地区:[1]兰州文理学院美术与设计学院,甘肃兰州730010

出  处:《能源与环保》2022年第10期205-210,共6页CHINA ENERGY AND ENVIRONMENTAL PROTECTION

基  金:2020年甘肃省科技计划软科学专项资助项目(20CX9ZA077)。

摘  要:为满足各类湿地景观所需的基础电能,减少社会公共资源的浪费,设计黄河兰州段湿地景观清洁电能自循环系统。以湿地空间内存在的能源为基础,从清洁角度出发,采用风能、光能、水能以及人体踩踏能等方式作为清洁电能的原材料,结合同步风力发电子系统、折叠式太阳能自动追踪光伏发电子系统等不同类型的发电子系统,构建清洁电能产生—存储—使用的应用模式,由此实现清洁电能的自循环,为黄河兰州段湿地景观提供电能。实验结果显示,黄河兰州段区域内该系统日发电量均值约为105608 kWh,而湿地景观日用电量均值约为1055918 kWh,说明该系统能够有效满足黄河兰州段湿地景观用电量需求。In order to meet the basic electric energy required by various wetland landscapes and reduce the waste of social public resources,the wetland landscape clean electric energy self circulation system in Lanzhou section of the Yellow River was designed.Based on the energy existing in the wetland space and from the perspective of cleaning,wind energy,light energy,water energy and human trampling energy are used as the raw materials of clean electric energy,combined with different types of electric power generation systems such as synchronous wind power generation system and folding solar automatic tracking photovoltaic generation system to build an application mode of clean electric energy generation,storage and use,thus,the self circulation of clean electric energy is realized to provide electric energy for the wetland landscape in Lanzhou section of the Yellow River.The experimental results showed that the average daily power generation of the system in Lanzhou section of the Yellow River is about 105608 kWh,while the average daily power consumption of wetland landscape is about 1055918 kWh,indicating that the system can effectively meet the power consumption demand of wetland landscape in Lanzhou section of the Yellow River.

关 键 词:黄河兰州段 湿地景观 清洁电能 自循环系统 风力发电 光伏发电 

分 类 号:F59[经济管理—旅游管理]

 

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