Electronic Energy System and Energy Management Algorithm for FutureHAUS

2023 IEEE Conference on Power Electronics and Renewable Energy (CPERE) Pub Date : 2023-02-19 DOI:10.1109/CPERE56564.2023.10119540

V. Mitrović, I. Cvetkovic, D. Boroyevich, Joseph Wheeler, R. Vance

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Abstract

Technology advancements that happened in the last two decades have changed the way how people live, interact, and work more than any technology did in the past 100 years or so. Not only little “gadgets” enabled this enormous paradigm shift, the new innovative concepts have been well integrated into the design and manufacturing of computers, appliances, automobiles, airplanes, and ships, and it was about time to start seeing these concepts applied to the homes where building practices, by contrast, experienced a very slow, if not resistant effort to advance. At least they did before Virginia Tech demonstrated the use of advanced manufacturing concepts, prefabricated structures, and a great number of power electronics to redefine the conventional practice of modern home design. Its FutureHAUS won first place at the international competition in Dubai, UAE, validating an enormous societal desire to see this change finally happening. This paper will describe details of the electronic energy system implementation as well as an energy management algorithm developed to successfully achieve a net-positive energy balance in the FutureHAUS.

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FutureHAUS的电子能源系统和能源管理算法

过去二十年里发生的技术进步改变了人们生活、互动和工作的方式，比过去100年左右的任何技术都要多。不仅仅是小小的“小工具”实现了这种巨大的范式转变，新的创新概念已经很好地集成到计算机、电器、汽车、飞机和船舶的设计和制造中，现在是时候开始看到这些概念应用到住宅中了，相比之下，建筑实践经历了非常缓慢的，如果不是抵抗性的努力。至少在弗吉尼亚理工大学展示使用先进的制造概念、预制结构和大量电力电子设备来重新定义现代家居设计的传统实践之前，他们是这样做的。它的FutureHAUS在阿联酋迪拜举行的国际竞赛中获得了第一名，证实了社会对看到这种变化最终发生的巨大愿望。本文将描述电子能源系统实施的细节，以及为成功实现FutureHAUS的净正能量平衡而开发的能源管理算法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2023 IEEE Conference on Power Electronics and Renewable Energy (CPERE)

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