设施农业多排布太阳能智能追踪系统设计

doi:10.14088/j.cnki.issn0439-8114.2019.18.032

湖北农业科学 ›› 2019, Vol. 58 ›› Issue (18): 133-136.doi: 10.14088/j.cnki.issn0439-8114.2019.18.032

设施农业多排布太阳能智能追踪系统设计

陈昕楠, 庞力豪, 程玉峰, 闫家铭, 邵蕾

中国农业大学烟台研究院,山东烟台 264670

收稿日期:2019-06-03 出版日期:2019-09-25 发布日期:2019-11-08
通讯作者: 邵蕾（1980-）,男,副教授,博士,主要从事农业废弃物资源化利用方面的研究,（电子信箱）shaolei6751@163.com。
作者简介:陈昕楠（1998-）,女,山东聊城人,在读本科生,研究方向为设施农业与工程,（电话）15552169312（电子信箱）755276017@qq.com
基金资助:
山东省重点研发计划项目（2018GNC110021）; 烟台市重点研发计划项目（2017ZH097）; 烟台开发区创新创业领军团队项目（TD2016003）

Design of multi-arrangement solar energy intelligent tracking system for facility agriculture

CHEN Xin-nan, PANG Li-hao, CHENG Yu-feng, YAN Jia-ming, SHAO Lei

Yantai Research Institute,China Agricultural University,Yantai 264670,Shandong,China

Received:2019-06-03 Online:2019-09-25 Published:2019-11-08

摘要/Abstract

摘要： 为进一步提高农业设施中太阳能电池板的能量转换效率,提升能量储存速率,设计了一种智能型多排布太阳能追踪系统。该系统主要由控制系统、太阳能电池板组件、太阳能电池板水平及仰角方向调节结构等部分组成,实现了对太阳光线的智能追踪,使太阳能电池板始终垂直于光线方向。该系统驱动方便,整体结构简单,立体调整相互独立,结构装配相互融合,能更大限度地提高能量转换效率,可广泛应用于设施农业领域。

关键词: 太阳能, 设施农业, 智能追踪, 能源装备

Abstract: In order to further improve the energy conversion efficiency and energy storage rate of solar panels in facility agriculture, an intelligent multi-arrangement solar tracking system is designed in this paper. The system is mainly composed of control systems, solar panel modules, horizontal and elevation direction adjustment structure and other components. The system realizes the intelligent tracking of sunlight, so that the solar panels are always perpendicular to the direction of light. The system is effective to run and the whole structure is simple. The two regulatory structures for different directions are independent of each other. The system greatly improves energy conversion efficiency and can be widely used in the field of facility agriculture.

Key words: solar energy, facility agriculture, intelligent tracking, energy equipment

中图分类号:

TK513.4
S24

陈昕楠, 庞力豪, 程玉峰, 闫家铭, 邵蕾. 设施农业多排布太阳能智能追踪系统设计[J]. 湖北农业科学, 2019, 58(18): 133-136.

CHEN Xin-nan, PANG Li-hao, CHENG Yu-feng, YAN Jia-ming, SHAO Lei. Design of multi-arrangement solar energy intelligent tracking system for facility agriculture[J]. HUBEI AGRICULTURAL SCIENCES, 2019, 58(18): 133-136.

参考文献 11

[1]	中华人民共和国农业农村部.农业部关于印发《“十三五”农业科技发展规划》的通知[EB/OL].http://www.moa.gov.cn/xw/bmdt/201703/t20170310_5514395.htm.2017-03-10.
[2]	梁文跃,钟锦耀,徐海涛,等.利用叠层一维光子晶体调控半透明有机太阳能电池的性能[J].光子学报,2018,47(8):139-146.
[3]	PUSHPENDRA K S R,DURG S C,RUDRA P S. Decentralized solar rooftop photovoltaic in India:On the path of sustainable energy security[J].Renewable energy,2019,131:297-307.
[4]	LI F L,CHANG Z,LI X C,et al.Energy and exergy analyses of a solar-driven ejector-cascade heat pump cycle[J].Energy,2018,165:419-431.
[5]	MOHAMMAD A,MOHAMMAD M.Thermodynamic,thermoeconomicand life cycle assessment of a novel integrated solar combined cycle(ISCC) power plant[J].Sustainable energy technologies and assessments,2018,27:192-205.
[6]	JOSEPH H M.Community-scale assessment of rooftop-mounted solar energy potential with meteorological,atlas,and GIS data:A case study of Guelph,Ontario(Canada)[J].Energy,sustainability and society,2012,2(1):1-19.
[7]	林源. 薄膜太阳能电池的研究与应用进展[J].化工新型材料,2018,46(6):57-60.
[8]	刘军,崔学伟.基于单片机的双模式太阳能充电器的设计[J].电子测量技术,2018,41(18):91-96.
[9]	闫孝姮,吴琨,王改华.双跟踪模式的智能太阳能追踪系统设计[J].电源技术,2015,39(10):2166-2168.
[10]	杨清学. 基于PIC18F4520的太阳能追踪系统设计与实现[J].电子设计工程,2016,24(20):137-139.
[11]	成大先. 机械设计手册[M].第五版.北京:化学工业出版社,2008.

设施农业多排布太阳能智能追踪系统设计

Design of multi-arrangement solar energy intelligent tracking system for facility agriculture

PDF

可视化

摘要/Abstract

引用本文

使用本文

参考文献 11

相关文章 3

编辑推荐

Metrics

本文评价

[1]	杨海滨, 王超杰, 高雅. 基于RS和GIS的莱西市设施农业用地现状分析[J]. 湖北农业科学, 2020, 59(19): 78-81.
[2]	刘红菊, 张正洪, 陈爱芳, 普智萍, 孙雷, 杨志远. 太阳能杀虫灯水稻田间试验使用效果评价[J]. 湖北农业科学, 2020, 59(14): 91-93.
[3]	赵惠, 杨征瑞, 陈志毅. 基于正交测光的双轴太阳能自动跟踪系统设计[J]. 湖北农业科学, 2020, 59(14): 170-172.