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Superconducting solar container model simulation platform design

This paper designs and develops a virtual simulation teaching platform of SMES system based on Matlab graphical user interface, which realizes the virtual platform of SMES device design, test and operation.
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Superconducting solar container model simulation platform design

About Superconducting solar container model simulation platform design

This paper designs and develops a virtual simulation teaching platform of SMES system based on Matlab graphical user interface, which realizes the virtual platform of SMES device design, test and operation.

This paper designs and develops a virtual simulation teaching platform of SMES system based on Matlab graphical user interface, which realizes the virtual platform of SMES device design, test and operation.

光伏器件仿真设计平台，是由中国长江三峡集团有限公司联合浙江大学、吉林大学共同研发，服务于光伏行业的在线计算平台。平台的功能包括：用户可更新的基础光伏材料、器件库，“光-电-热-量子”器件级多物理场仿真，基于细致平衡理论的电路级紧凑模型仿真。平台适用于晶硅电池，有机、钙钛矿、叠层等新型高效太阳电池的工程建模分析。平台采用国际领先的数值方法，精准、快速、高效求解麦克斯韦方程、漂移-扩散模型、电路模型，实现了“材料-器件-电路”多层级光伏器件模拟技术，具有完全自主可控的知识产权。网站设有计算平台的使用介绍、技术论坛、个人中心等板块，方便用户使用。.

超导磁储能系统（SMES）是“超导电力技术”课程中的一个重要内容，涉及超导材料、低温、电力电子和电网等多学科知识的综合应用，存在基础理论抽象不易理解、试验条件要求高不易实现、电磁热耦合运行过程复杂等问题。基于Matlab图形用户界面开发了一种超导磁储能系统虚拟仿真教学平台，可实现SMES的设计、试验及运行，引导学生以专业视角思考复杂工程问题，综合多学科知识进行设备分析和设计。 Superconducting magnetic energy storage (SMES) system is an important content in the course of ".

As the photovoltaic (PV) industry continues to evolve, advancements in Superconducting solar container model simulation platform design have become critical to optimizing the utilization of renewable energy sources. From innovative battery technologies to intelligent energy management systems, these solutions are transforming the way we store and distribute solar-generated electricity.

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