Methodology of Measurement and Calculation of Building Energy Management System in University Campus

Yuan Su; Jun Wei Yan

doi:10.4028/www.scientific.net/AMM.368-370.454

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 368-370Methodology of Measurement and Calculation of...

Methodology of Measurement and Calculation of Building Energy Management System in University Campus

Abstract:

Nowadays, the necessity of university as leader of reducing GHG emission has become an issue of global concern. In this research, we aim to analyze energy system of a model university campus in southern China and grasp the energy consumption of the whole campus from the viewpoint of reducing GHG emission. We investigated and analyzed the present situation of energy system by using measured data and inquiry survey. In order to grasp the data exactly, we introduced building energy management system (BEMS) to some typical buildings with electricity consumption controlling. Firstly, the outlining of the campus and abstract of the buildings were carried out. Secondly, measurement buildings of BEMS in the campus were described according to the results of investigation. Furthermore, methodology of measurement and calculation was researched. The campus's daily electricity consumption and cooling consumption, hourly energy consumption intensity of different typical building, and consumption intensity of different days (weekdays, weekends, and holidays) could be examined using this methodology.

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Periodical:

Applied Mechanics and Materials (Volumes 368-370)

Pages:

454-459

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.368-370.454

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Online since:

August 2013

Authors:

Yuan Su, Jun Wei Yan

Keywords:

Building Energy Management System (BEMS), Energy Consumption (EC), Energy Consumption Intensity

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References

[1] Youn-saeng LEE, Yasunori AKASHI, Toshiyuki WATANABE, Ken-ichi FUKUDA and Isao ESHIMA: Reduction effect of primary energy consumption for air conditioning and evaluation of PAL・CEC/AC by energy conservation techniques, J. Archit. Plann. Environ. Eng., AIJ, Vol. 564, pp.55-62.

DOI: 10.3130/aija.68.55_1

Google Scholar

[2] Jian ZHANG: Investigation on actual conditions of energy consumption of university campus in Tianjin, AIJ Kanto Chapter Architectural Research Meeting report, pp.557-560, Mar., (2007).

Google Scholar

[3] Xindong WEI: Investigation on actual conditions of energy consumption of Jinlin Architecture and Civil Engineering Institute, Summaries of Technical Papers of Annual Meeting Architectural Institute of Japan, pp.729-730, Sep., (2006).

Google Scholar

[4] Information on http: /www. energy-design-tools. aud. ucla. edu.

Google Scholar

[5] 2005 ASHREA Handbook F32 SI: Energy Estimating and Modeling Methods.

Google Scholar

[6] The unit of lighting, heat, water consumption in architecture (Tokyo version), OJIMA laboratory, Publication department of Waseda University, (1995).

Google Scholar

[7] Toshio OJIMA etal, Evaluation on the attribute of energy consumption unit, Jess project room Ltd. and Tokyo gas Ltd., 2005. 2.

Google Scholar

[8] Satoshi HAYAKAWA, Hiromi KOMINE: An analysis of energy consumption rate in buildings for business use, Part1In case of office buildings, J. Environ. Eng., AIJ, Vol. 578, pp.85-90, Apr., (2004).

Google Scholar

[9] Satoshi HAYAKAWA, Hiromi KOMINE: An analysis of energy consumption rate in buildings for business use, Part2In case of department stores, J. Environ. Eng., AIJ, Vol. 600, pp.67-73, Feb., (2006).

Google Scholar

[10] Junqiao HAN, Toshio OJIMA: Prediction of energy consumption based on the floor utilization of general merchandising store, Journal of Environment Engineering, AIJ, Vol. 580, pp.77-84, 2004. 6.

Google Scholar

[11] Yuan Su et al, Analysis of energy consumption structure of a science and engineering university campus in southern China, J. Environ. Eng., AIJ, Vol. 77, pp.399-407, May., (2012).

Google Scholar