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Modeling and Visualization of a Sustainable Energy System in a University as a Smart City

机译：大学作为智慧城市的可持续能源系统的建模和可视化

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Cities worldwide are facing challenges from rapid urbanization and climate change, making them susceptible to increased likelihood of flooding, due to rising sea levels and extreme weather. To mitigate the risk and minimize the impacts of natural and human-made disruptions caused by climate change, smart cities are improving their energy resiliency through modernization efforts to transform the power grid into smart grids. Similarly, universities are also developing sustainable energy systems that will address the impacts of climate change by using renewable energy sources and improving the energy efficiency on campus to reduce the carbon footprint. The motivation for this research is to use a holistic systems thinking approach to evaluate the key phenomena associated with the sustainable energy system. This study developed a methodology with modeling and visualization techniques to address the underlying climate change phenomenon through sustainable energy awareness in a university modeled as a smart city. The research contributes to the body of knowledge through visualization of the problem to better understand the complexity of the energy system and to communicate the importance of sustainable energy systems in universities and smart cities.

机译：全球城市正面临着快速城市化和气候变化的挑战，由于海平面上升和极端天气，它们容易遭受洪水泛滥的可能性。为了降低风险并将气候变化造成的自然和人为破坏的影响降至最低，智慧城市通过现代化努力将电网转变为智能电网，从而提高了能源弹性。同样，大学也在开发可持续能源系统，该系统将通过使用可再生能源并提高校园能源效率以减少碳足迹来应对气候变化的影响。这项研究的动机是使用整体系统思考方法来评估与可持续能源系统相关的关键现象。这项研究开发了一种具有建模和可视化技术的方法，可以通过在以智慧城市为模型的大学中通过可持续的能源意识解决潜在的气候变化现象。通过对问题的可视化，该研究有助于知识体系，以更好地了解能源系统的复杂性，并传达可持续能源系统在大学和智慧城市中的重要性。

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作者
See Tao, Hoong Yan.;
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作者单位

Stevens Institute of Technology.;

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授予单位 Stevens Institute of Technology.;
学科 Systems science.;Energy.;Sustainability.;Higher education administration.
学位 Ph.D.
年度 2017
页码 154 p.
总页数 154
原文格式 PDF
正文语种 eng
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1. Integrated energy monitoring and visualization system for Smart Green City development: Designing a spatial information integrated energy monitoring model in the context of massive data management on a web based platform [J] . Sung Ah Kim, Dongyoun Shin, Yoon Choe, Automation in construction . 2012,第Mara期

机译：用于智慧绿色城市发展的集成能源监控和可视化系统：在基于Web平台的海量数据管理的背景下，设计空间信息集成能源监控模型
2. A systematic review of the smart energy conservation system: From smart homes to sustainable smart cities [J] . Kim H., Choi H., Kang H., Renewable & Sustainable Energy Reviews . 2021,第Apra期

机译：对智能节能系统的系统审查：从智能家庭到可持续智能城市
3. Smart energy systems for sustainable smart cities: Current developments, trends and future directions [J] . ODwyer Edward, Pan Indranil, Acha Salvador, Applied Energy . 2019,第MARa1期

机译：可持续智慧城市的智能能源系统：当前发展，趋势和未来方向
4. Developing a Smart and Sustainable Transportation Plan for a Large-Sized City: An Approach to Smart City Modeling [C] . Sushobhan Majumdar, Bikramjit Sarkar International Conference on Research in Intelligent and Computing in Engineering . 2020

机译：为大型城市制定智能和可持续的运输计划：一种智能城市建模的方法
5. The city as a community-based force for sustainability in energy systems. [D] . Hughes, Kristen. 2009

机译：该市是社区的能源系统可持续发展力量。
6. Component-Based Modelling for Scalable Smart City Systems Interoperability: A Case Study on Integrating Energy Demand Response Systems [O] . Esther Palomar, Xiaohong Chen, Zhiming Liu, 2014

机译：可扩展的智能城市系统互操作性的基于组件的建模：以能源需求响应系统集成为例
7. European Academic Smart Cities Network – Renewable Urban Energy Systems, Sustainable Mobility and ICT Technology Nexus for Smart Cities Studies. [O] . Bululukova Darya, Wahl Harald, Ballner Mathias 2014

机译：欧洲学术智能城市网络 - 可再生城市能源系统，可持续交通和ICT技术Nexus智慧城市研究。

Modeling and Visualization of a Sustainable Energy System in a University as a Smart City

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