Control strategy research for PV DC microgrid with hybrid storage system

以光伏、风电等可再生能源为主的分布式发电技术因为其随机性、不稳定性，对配电网潮流改变带来的安全性等问题，其发展得到一定的制约。微电网被广泛认为是解决分布式发电技术应用瓶颈的有效解决方案，而直流微电网以直流形式传输电能，控制结构简单，不需考虑频率和相位，系统损耗小，效率高，也更加适合越来越多的直流电器的接入，因此具有很强的推广实用价值。本文在研究了直流微电网的国内外研究发展现状、架构，以及包括控制技术、储能技术、保护技术等关键技术基础上，对包含有蓄电池和超级电容器在内的光伏直流微电网系统进行了研究。 首先对系统中的微电源，包括光伏电池、蓄电池和超级电容器的工作原理和数学模型做了研究。同时，对光...As the installed capacity increasing, the corresponding drawbacks of renewable energy such as photovoltaic and wind power began to emerge, like the instability and randomness of renewable energy. At the same time, the power flow direction changed and affect the safety of the system. They limit the application of the distributed generation technology. On this basis, the concept of microgrid is wide...学位：工学硕士院系专业：能源学院_光伏工程学号：3242013115228

Ethical Reflection on Standardized Management of Intestinal Microbiota Transplantation

肠道微生态系统是人体健康所必需的重要且复杂的生物系统。肠道微生态系统的紊乱参与人体多种疾病的发生发展过程。而肠菌移植技术可有效调节肠道菌群，修复失衡的肠道微生态，为当今多种胃肠道及胃肠以外疾病的治疗带来新的突破。然而，目前尚缺乏完整的、系统性的肠菌移植技术管理规范。就肠菌移植技术规范化管理所涉及的内容进行探讨，并从医学伦理学角度思考规范化管理中所涉及的伦理问题，以期推动肠菌移植技术的临床应用。Intestinal microecology is an important and complex biological system necessary for human health. Its disorder is involved in the development of various diseases of human body. The technology of intestinal microbio- ta transplantation can effectively regulate the intestinal flora, repair the imbalance of the intestinal microecology, and bring a new breakthrough for the treatment of many diseases of gastrointestinal tract and outside gastrointestinal tract. However, there is still no systematic and complete management standard for intestinal microbiota transplanta- tion technology. This paper discussed related content involved in standardized management of intestinal microbiota transplantation technology and reflected the ethical problems involved in standardized management from the perspec- tive of medical ethics, in order to promote the clinical application of intestinal microbiota transplantation technology

基于混合储能的直流微电网控制策略研究

针对直流微电网中新能源不稳定输出导致的微网功率不平衡和直流母线电压波动大等问题,研究了一种由光伏发电系统、混合储能系统和交流市电构成的直流微电网结构,提出了一种新型的直流微电网能量控制策略,根据母线电压值将系统分为4种工作模式、7个运行区间,系统的运行方式可以自动判断和自由切换。该微电网中的混合能源管理系统含有2个互补型储能元件——蓄电池和超级电容器,其以特殊的供应逻辑提高了系统的可靠性和灵活性。通过Matlab/Simulink仿真平台验证了这种策略的可行性