Research and Optimization of CSP System Efficiency Based on Effects of Wind

IF 1.204 Q3 Energy Applied Solar Energy Pub Date : 2024-01-16 DOI:10.3103/s0003701x23600844

Kashif Ali, Song Jifeng

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Abstract

Solar thermal power generation has broad development prospects in China’s energy market due to its excellent power quality, continuous power generation, low manufacturing costs, and no pollution to the environment. Based on the theoretical support of computational fluid dynamics, structural strength theory, and Monte Carlo ray tracing method, ray tracing analysis on parabolic trough collector were carried out, to ensure that the concentrating efficiency of collector under the specified wind speed stays within the standard range. Based on the existing parameters, the collector is three-dimensional modeled. The size of the fluid domain was calculated. The calculation model was meshed, and the boundary conditions were set, according to the change of the wind force on the collector under different working angles. The best danger avoidance attitude and the most appropriate maintenance attitude of the collector are obtained, use the data transmission interface between ANSYS and Fluent software to perform a unidirectional fluid-structure coupling analysis on the collector, and pressure-transmit the surface wind pressure of the collector analyzed by Fluent software. Calculate the displacement deformation and equivalent stress distribution of the collector under the effect of wind pressure, Analyze and evaluate its structural strength. The ray tracing software Trace Pro is used to calculate the concentration efficiency under different wind speeds and working angles. Obtain the changing law of the collector efficiency under different wind speeds and different working angles, analyze whether the working efficiency meets the requirements under the two conditions of the design work.

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基于风力效应的 CSP 系统效率研究与优化

摘要太阳能热发电以其电能质量好、发电连续性强、制造成本低、对环境无污染等优点在我国能源市场具有广阔的发展前景。基于计算流体力学、结构强度理论和蒙特卡洛射线追踪方法的理论支持，对抛物面槽式集热器进行了射线追踪分析，以确保集热器在规定风速下的聚光效率保持在标准范围内。根据现有参数，对集热器进行了三维建模。计算了流体域的大小。根据不同工作角度下集热器所受风力的变化，对计算模型进行网格划分，并设置边界条件。得到集热器的最佳避险姿态和最合适的维护姿态，利用 ANSYS 和 Fluent 软件之间的数据传输接口对集热器进行单向流固耦合分析，并通过 Fluent 软件分析集热器的表面风压进行压力传递。计算集热器在风压作用下的位移变形和等效应力分布，分析并评估其结构强度。使用光线跟踪软件 Trace Pro 计算不同风速和工作角度下的集光效率。获取不同风速和不同工作角度下集热器效率的变化规律，分析两种条件下的工作效率是否满足设计工作的要求。

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来源期刊

Applied Solar Energy Energy-Renewable Energy, Sustainability and the Environment

CiteScore

2.50

自引率

0.00%

发文量

期刊介绍： Applied Solar Energy is an international peer reviewed journal covers various topics of research and development studies on solar energy conversion and use: photovoltaics, thermophotovoltaics, water heaters, passive solar heating systems, drying of agricultural production, water desalination, solar radiation condensers, operation of Big Solar Oven, combined use of solar energy and traditional energy sources, new semiconductors for solar cells and thermophotovoltaic system photocells, engines for autonomous solar stations.