| 课程号 |
00333149 |
学分 |
3 |
| 英文名称 |
Model-based Design and Optimization of Solar Energy Technologies |
| 先修课程 |
无 |
| 中文简介 |
本课程的重点为促进对晶体和薄膜光伏电池的器件物理与制造加工的概念理解,以及培养量化太阳能电池效率的初级计算技能。课程详细介绍了系统层面的能量平衡,以便理解太阳能在能源生产、转化与储存过程中发挥的作用。课程还将光伏技术与光化学转化过程和生物燃料技术做了定量比较。 |
| 英文简介 |
The emphasis of this class is on developing a conceptual understanding of the device physics and manufacturing processes of crystalline and thin-film photovoltaic cells, and to develop elementary computational skills necessary to quantify solar cell efficiency. The class material includes detailed, system-level energy balances necessary to understand how solar energy fits into the complete energy generation, conversion, and storage picture. Quantitative comparisons of PV technology to solar chemical conversion processes and biofuels are made. |
| 开课院系 |
工学院 |
| 通选课领域 |
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| 是否属于艺术与美育 |
否 |
| 平台课性质 |
|
| 平台课类型 |
|
| 授课语言 |
英文 |
| 教材 |
无;
Modeling and analysis of photovoltaic and related solar energy systems,R. A. Adomaitis, |
| 参考书 |
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| 教学大纲 |
To develop the quantitative skills necessary to assess the relative efficiencies of different solar energy technologies, and to understand the physical and chemical processes that are used to manufacture solar cells.
1. A review of energy, thermodynamic, and electrical quantities and units.
2. The solar spectrum, blackbody radiation, direct and diffuse insolation, modeling cloud cover, the projection effect, and computing the optimal tilt angle of a solar device.
3. Transient energy balances, an introduction to solar thermal systems, compressed air, and pumped water grid-scale energy storage.
4. PV physics, band structure and Fermi level in semiconductors, pn-junctions, diode models, photon interactions with semiconductors.
5. PC cell architecture and fabrication steps, crystalline Si substrates, thin film deposition, amorphous Si, CIGS, and CdTe thin-film cells.
6. Computing PV cell power, equivalent circuit models, short- and open-circuit properties, fill factor, and parasitic resistances.
7. PV cell external and internal quantum efficiency, and computing the spectral response.
8. Theoretical cell efficiency, multijunction devices, the Shockley-Queisser limit.
9. Antireflection coatings, cell passivation, and cell optical properties.
10. PV cells wired in series and parallel, shaded and faulty cell effects, system integration and inverters.
11. Photoelectrochemical systems, electrochemistry review, p- and n-type cells, quantification of H2 production by PEC cells, and photosynthesis.
课堂讲授
Two Quizzes 30%
Homework 40%
Final Exam 30%
Total 100%
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| 教学评估 |
Raymond Adomaitis:
学年度学期:18-19-3,课程班:基于模型的太阳能技术设计与优化1,课程推荐得分:null,教师推荐得分:null,课程得分分数段:80及以下;
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