一种新型高效多平面气动双轴太阳跟踪器的设计与实现

IF 1.4 Q2 ENGINEERING, MULTIDISCIPLINARY

World Journal of Engineering Pub Date : 2022-12-19 DOI:10.1108/wje-04-2022-0173

M. Fathi, Roya Amjadifard, F. Eshghi, M. Kelarestaghi

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引用次数: 0

摘要

目的:由于环境问题、无限且无处不在的太阳能以及开始变得合理的面板成本，光伏(PV)系统正在经历指数级增长。除了设计更高效的太阳能电池板，安装太阳能跟踪器和根据最大功率点跟踪(MPPT)算法优化向负载的电力输送的特殊电路是提高效率的其他方法。然而，对于任何效率的提高来说，考虑到任何修正的功耗是至关重要的。因此，本文旨在提出一种新颖的跟踪器，同时使用MPPT来提高光伏系统的实际效率，并考虑所涉及的成本。设计/方法/方法该提案是一个实验性气动双轴太阳能跟踪器，使用光相关电阻(LDR)传感器。由于其嵌入式能量存储，气动跟踪器提供低占空比操作，从而实现跟踪节能，减少维护需求和可扩展性潜力。在MPPT保证最大负荷输出功率的同时，第一次计算太阳能光伏的实际输出功率，考虑太阳能跟踪和MPPT的电力成本。实验结果表明，与固定板系统相比，所提出的太阳能跟踪系统的总发电量增加了37.6%，实际发电量增加了35.3%，最大输出效率达到90%。因此，气动跟踪系统具有低的跟踪能耗和良好的实际功率效率。此外，新提出的气动兴奋剂可以显着简化跟踪机制，并受益于随之而来的几个优势。原创性/价值据作者所知，这项工作首次提出了一种实现成本更低、操作切换频率更低、具有可扩展性潜力的单马达气动双轴跟踪器，有待在未来的工作中开发。此外，气动方案首次提供了高实际功率效率。

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Design and implementation of a novel multi-faceted-efficient pneumatic dual-axis solar tracker

Purpose Photovoltaic (PV) systems are experiencing exponential growth due to environmental concerns, unlimited and ubiquitous solar energy, and starting-to-make-sense panel costs. Alongside designing more efficient solar panels, installing solar trackers and special circuitry for optimizing power delivery to the load according to a maximum power point tracking (MPPT) algorithm are other ways of increasing efficiency. However, it is critical for any efficiency increase to account for the power consumption of any amendments. Therefore, this paper aims to propose a novel tracker while using MPPT to boost the PV system's actual efficiency accounting for the involved costs. Design/methodology/approach The proposition is an experimental pneumatic dual-axis solar tracker using light-dependent resistor (LDR) sensors. Due to its embedded energy storage, the pneumatic tracker offers a low duty-cycle operation leading to tracking energy conservation, fewer maintenance needs and scalability potential. While MPPT assures maximum load power delivery, the solar PV's actual delivered power is calculated for the first time, accounting for the solar tracking and MPPT power costs. Findings The experiments' results show an increase of 37.6% in total and 35.3% in actual power production for the proposed solar tracking system compared to the fixed panel system, with an MPPT efficiency of 90%. Thus, the pneumatic tracking system offers low tracking-energy consumption and good actual power efficiency. Also, the newly proposed pneumatic stimulant can significantly simplify the tracking mechanism and benefit from several advantages that come along with it. Originality/value To the best of the authors’ knowledge, this work proposes, for the first time, a single-motor pneumatic dual-axis tracker with less implementation cost, less frequent operation switching and scalability potential, to be developed in future works. Also, the pneumatic proposal delivers high actual power efficiency for the first time to be addressed.

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来源期刊

World Journal of Engineering ENGINEERING, MULTIDISCIPLINARY-

CiteScore

4.20

自引率

10.50%

发文量

期刊介绍： The main focus of the World Journal of Engineering (WJE) is on, but not limited to; Civil Engineering, Material and Mechanical Engineering, Electrical and Electronic Engineering, Geotechnical and Mining Engineering, Nanoengineering and Nanoscience The journal bridges the gap between materials science and materials engineering, and between nano-engineering and nano-science. A distinguished editorial board assists the Editor-in-Chief, Professor Sun. All papers undergo a double-blind peer review process. For a full list of the journal''s esteemed review board, please see below.