Research on the Flywheel Energy Storage System Applied in Green Architecture

Gui Xing Wang; Zhe Heng Zhou; Shuai Zheng; Qing Xie; Chao Ping Rao; Bing Sen Xu

doi:10.4028/www.scientific.net/AMR.1008-1009.1466

Paper Titles

Study on the Informatization of Renewable Resources Industry
p.1448

The Application Mode of Energy Big Data and its Enlightenment for Power Grid Enterprises
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Study on Layout Planning System of Renewable Energy Utilization on Heating Based on GIS
p.1456

Application and Analysis of Multi-Source Hybrid Distributed Energy System
p.1462

Research on the Flywheel Energy Storage System Applied in Green Architecture
p.1466

Analysis of Polycrystalline Silicon-Photovoltaic Industry’s Key Technologies Development and Influences on its Cost and Energy-Consumption
p.1470

Design of Intelligent Agricultural Management System Based on Internet of Things Technology
p.1479

Research on Bus Stop Based on Cellular Automaton Model
p.1484

The Design of the Central Kitchen Logistics Distribution System
p.1489

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 1008-1009Research on the Flywheel Energy Storage System...

Research on the Flywheel Energy Storage System Applied in Green Architecture

Abstract:

In this research, a storage system, suitable for the power system of construction, is proposed and optimized. The storage system mainly consists of control system, converter, flywheel and motor. This system can release the pressure of the power grid during the on-peak period and supply the consumers with cheap energy. This research is going to analyze the characters of the system and then adjust its structure to the architecture.

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Periodical:

Advanced Materials Research (Volumes 1008-1009)

Pages:

1466-1469

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1008-1009.1466

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Online since:

August 2014

Authors:

Gui Xing Wang, Zhe Heng Zhou*, Shuai Zheng, Qing Xie, Chao Ping Rao, Bing Sen Xu

Keywords:

Green Architecture, Power System, Storage System

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* - Corresponding Author

References

[1] Supatcharawadee Pornkrisadanuphan; Pipat Chaiwiwatworakul. Proceedings of International Conference on Environment Science and Engineering. [J]A Genetic Algorithm-Based Approach Design for Energy-Efficient Building in Thailand. (2011).

Google Scholar

[2] Ryuichi Shimada. Novel application of Electric Energy Storage Using Flywheel/SMES. [J] Geological Society of Province China Electrotechnical Society. (2004).

Google Scholar

[3] Wen Shaobo, Jiang shuyun. Application study of flywheel energy storage system in automobile. [J] Machinery Design and Manufacture. (2010).

Google Scholar

[5] NERDI G B E. Technology Potential of Flywheel Storage and Application Impact on Electric Vehicles [Z]. 1994. 37-45.

Google Scholar

[6] Yang Jianpin. Analysis and study of Nanjing residential load profile (in Chinese) [J] Power Demand Side Management. (2002).

Google Scholar

[7] The Implementation of for electricity in Guangdong and the research of large industrial consumer response (in Chinese) [J] Hubei Electric Power. (2003).

Google Scholar

[8] Cheng Lianhong. The difference between the peak and valley time power price is becoming larger (in Chinese) [N] Shenzhen Economic Daily. (2003).

Google Scholar

[9] Tang Ji-qiang, Liu Gang, Fang Jian-cheng. Superconducting energy storage flywheel—an attractive technology for energy storage[J] Journal of Shanghai Jiaotong University (Science). (2010).

DOI: 10.1007/s12204-010-7151-9

Google Scholar