Affiliation:
1. University of Chinese Academy of Sciences Beijing China
2. Aerospace Information Research Institute Chinese Academy of Sciences Beijing China
Abstract
AbstractAutonomous long‐duration aerostats (LDA) are one of the most popular research directions of high‐altitude platforms (HAPS) in recent years. Solar photovoltaic (PV) array is the energy source of autonomous long‐duration aerostat, whose power generation predicting accuracy and speed affect the subsequent flight control strategy. Limited by incompleteness cognition of near space, current predicting results cannot meet the requirements of autonomous LDA. In this paper, a novel rapid prediction model of the PV array is proposed. Based on spatial position relation of PV cells, this model can predict the power of single PV cell in any state. The four influence factors including time difference, angle, efficiency loss and temperature are analyzed and optimized comprehensively and innovatively. The new model can be applied in both static state aerostat and dynamic state aerostat. Compared with the traditional model, the efficiency can be improved by 50% and the prediction accuracy can be improved by 10%.
Publisher
Institution of Engineering and Technology (IET)
Subject
Renewable Energy, Sustainability and the Environment
Reference33 articles.
1. A method of 3-D region controlling for scientific balloon long-endurance flight in the real wind
2. Development status and application prospect of near space science and technology;Huang W.;J. Sci. Technol. Rev.,2019
3. Aerospace vehicles——a new weapon to change the rules of future battlefield;Liu C.;J. Military Digest,2020
4. Station-keeping performance analysis for high altitude balloon with altitude control system
5. Power analysis of stratospheric airship's solar array system;Zhu B.;J. Natl. Univ. Def. Technol.,2019
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