Abstract
Solar energy is among the renewable energy sources that received greater addition in installed capacity. However, it accounts for a small fraction of the energy matrix of most countries. Electric energy generation by solar systems can be improved through tracking. This work aimed to develop and compare a closed and an open loop solar tracking system. The closed loop system was developed using Light Dependent Resistors. An algorithm was developed for the open loop tracker as a function of the geometric relation between the sun and the photovoltaic module. A simulation was run to compare this algorithm with a system using tracking at fixed time intervals, for clear sky conditions, with different tracking parameters and for five different latitudes. No significant difference was observed between the proposed open loop tracking algorithm and the fixed time interval algorithm for the tracking parameters evaluated. The open and closed loop solar tracking systems were compared experimentally in Rio das Ostras, Brazil (22.49 °S 41.92° W). An average gain of 28.5% was observed for the open loop tracking system over a latitude tilted system and 33.0% for the closed loop tracking system.
Highlights
A growing demand for electrical power due to its transformation flexibility has been observed in modern society
The fixed time interval solar tracking algorithm and the proposed algorithm were simulated for different number of mean daily re-orientations
The proposed open loop solar tracking algorithm was compared to a fixed time interval open loop algorithm through two sets of simulations
Summary
A growing demand for electrical power due to its transformation flexibility has been observed in modern society. In this context, solar energy has obtained a prominent function in several countries such as Germany, China, Japan and others, mainly due to its clean matrix and possibility of distributed installation (Renewable Energy Policy Network for the 21st Century [Ren21], 2016). The benefits of a photovoltaic generator include (i) Sustainable technology, (ii) Availability of solar radiation, (iii) Low installation impact on the environment, (iv) Lifespan over 15 years, (v) Low. Acta Scientiarum. Several methods are proposed in literature to improve photovoltaic power generation performance, thereby enhancing the cost/benefit relationship
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