EDP Sciences logo
Web of Conferences logo
Search
Menu
All issues Volume 138 (2017) MATEC Web Conf., 138 (2017) 02025 References
Open Access
Issue
MATEC Web Conf.
Volume 138, 2017
The 6th International Conference of Euro Asia Civil Engineering Forum (EACEF 2017)
Article Number 02025
Number of page(s) 10
Section 2-Structural and Construction Engineering
DOI https://doi.org/10.1051/matecconf/201713802025
Published online 30 December 2017
  1. Jomoah, I. M., & Arabia, S. Energy Management in the Buildings of a University Campus in Saudi Arabia – A Case Study. International Conference on Power Engineering, Energy and Electrical Devices. 13–17 (2013). [Google Scholar]
  2. Kolokotsa, D., Gobakis, K., Papantoniou, S., Georgatou, C., Kampelis, N., Kalaitzakis, K., Santamouris, M. Development of a web based energy management system for University Campuses: The CAMP-IT platform. Energy and Buildings, 123, 119–135 (2016). [CrossRef] [Google Scholar]
  3. Tan B., Yavuz Y., Otay E.N., Çamlıbel E. Optimal Selection of Energy Efficiency Measures for Energy Sustainability of Existing Buildings, Computers & Operations Research, 66, 258–271. (2016). [Google Scholar]
  4. Ruparathna, R., Hewage, K., and Sadiq, R. Improving The Energy Efficiency Of The Existing Building Stock: A Critical Review Of Commercial And Institutional Buildings. Renewable and Sustainable Energy Reviews, 53, 1032–1045. (2016). [CrossRef] [Google Scholar]
  5. Alshuwaikhat, H,M., & Abubakar, I. An Integrated Approach to Achieving Campus Sustainability: Assessment of the Current Campus Environmental Management Practices. Journal of Cleaner Production. 16, 1777–1785 (2008). [CrossRef] [Google Scholar]
  6. Eriksson, R., Nenonen, S., Junghans, A., Nielsen, S. B., & Lindahl, G. Nordic Campus Retrofitting Concepts Scalable Practices. Procedia Economics and Finance, 21(15), 329–336 (2015). [CrossRef] [Google Scholar]
  7. Appleby P. Sustainable Retrofit and Facilities Management. 1st edition. Oxford, United Kingdom. Routledge (2013). [Google Scholar]
  8. Mahlia T.M.I., Razak H.A., Nursahida M.A. Life cycle Cost Analysis and Payback Period of Lighting Retrofit at the University of Malaya, Renewable and Sustainable Energy Reviews, 15 (2), 1125–113 (2011). [CrossRef] [Google Scholar]
  9. National Grid. Managing Energy Costs in Colleges and Universities. Street Boulder Colorodo: E Source Companies LLC (2003). [Google Scholar]
  10. College of Desert. College of the Desert Campus-wide Lighting Retrofit. Southern California: Edison International (2011). [Google Scholar]
  11. Gevelber M., Choate R., Sheehan K., Vitolo T., Ercolino E., Ricci L., Mchale M. Opportunities for Achieving Significant Energy Reduction in Existing University Buildings: Developing efficient HVAC operations. Boston United States: Boston University (2007). [Google Scholar]
  12. Citterio M., Romeo C. Retrofit of a University Building in Rome Italy. Energy Conservation in Buildings and Community System Case Study Overview. Rome Italy: International Energy Agency. (2003). [Google Scholar]
  13. UC Berkeleys., 2012, UC Berkeley’s University Hall Wireless HVAC Retrofit Brings the Campus One Step Closer to Its Climate Neutrality, Energy Technology Assistance Program, California, USA. [Google Scholar]
  14. Escobedo A., Briceño S., Juárez H., Castillo D., Imaz M., Sheinbaum C. Energy Consumption and GHG Emission Scenarios of A University Campus in Mexico Energy for Sustainable Development, 18(1), 49–57 (2014). [Google Scholar]
  15. Di Stefano J. Energy Efficiency and The Environment: The Potential for Energy Efficient Lighting to Save Energy and Reduce Carbon Dioxide Emissions at Melbourne University, Energy, 25(9), 823–839 (2000). [Google Scholar]
  16. Chung M.H., Rhee E.K. Potential Opportunities for Energy Conservation in Existing Buildings on University Campus: A field survey in Korea. Energy and Buildings, 78, 176–182 (2014). [CrossRef] [Google Scholar]
  17. Tang F.E. An Energy Consumption Study for a Malaysian, International Journal of Environment, Earth Science and Engineering, 8, 99–105 (2012). [Google Scholar]
  18. Zhou, X., Yan, J., Zhu, J., & Cai, P. Survey Of Energy Consumption and Energy Conservation Measures for Colleges and Universities In Guangdong Province, Energy and Buildings, 66, 112–118 (2013). [Google Scholar]
  19. Ayala E., Kocurek J., Wright J., Sijansky L., Chang J., Jr Contreras R. C. Energy Efficient Method Identification for an Education Building, Architectural EngineeringConference 2011, California United States. 235–243 (2011). [Google Scholar]
  20. Saidur R., Hasanuzzaman M., Mahlia T.M.I., Rahim N.A., Mohammed H.A. Chillers Energy Consumption, Energy Savings and Emission Analysis in an Institutional Buildings, Energy, 36(8), 5233–5238 (2011). [Google Scholar]
  21. Chee Yue, J. L OTTV Calculation and Energy Simulation Technique for GreenRE Rating System. Integrated Environmental Solutions (2014). [Google Scholar]
  22. Tymkow, P., Tassou, S., Kolokotroni, M., Jounara, H. Building Services Design for Energy Efficient Buildings. USA: Routledge (2008). [Google Scholar]
  23. Goudarzi, H., and Mostafaeipour, A. Energy Saving Evaluation of Passive Systems for Residential Buildings in Hot and Dry Regions. Renewable and Sustainable Energy Reviews, 68, 432–446 (2017). [CrossRef] [Google Scholar]
  24. Gong, X., Akashi, Y., and Sumiyoshi, D. Optimization of passive design measures for Residential Buildings in Different Chinese Areas. Building and Environment, 58, 46–57 (2012). [CrossRef] [Google Scholar]
  25. Ma, S. L., Ding, Y., Shen, R. J., and Zhu, N. A Case Study of an Optimization Retrofit of the Heat Supply System in a Campus of Tianjin. Applied Mechanics and Materials, 170-173, 2670–2674 (2012). [CrossRef] [Google Scholar]
  26. Puvanasvaran, A.P., Yop Zain, M.F., Al-Hayali, Z.A., Mukapit, M. Sustainability of Green Technology in Malaysia Industry. International Conference on Design and Concurrent Engineering. Universiti Teknikal Melaka (2012). [Google Scholar]
  27. Hassan, F. Application of Green Technology in Malaysia Construction: Have We Got It Right? International Construction Week & Ecobuild SEA 2014. Kuala Lumpur (2014). [Google Scholar]
  28. Danby, D., Menter, A., and Faludi, J. Passive Design Strategies. Retrieved From:http://sustainabilityworkshop.autodesk.com/buildings/passive-design-Strategies (2011). [Google Scholar]
  29. Wu, M. H., Ng, T. S., and Skitmore, M. R. Sustainable Building Envelope Design by Considering Energy Cost and Occupant Satisfaction. Energy for Sustainable Development. 31, 118–129 (2016). [CrossRef] [Google Scholar]
  30. Pallant, J. (2014). Spss Survival Manual. A step by Step Guide to Data Analysis Using SPSS for Windows (Version 12). (1st edi). New South Wales: Allen and Unwin. [Google Scholar]
  31. Williams B., Brown T. and Onsman. Exploratory Factor Analysis: A five-step guide for novices, Australasian Journal of Paramedicine, 8(3) (2012). [Google Scholar]
  32. Syed Fadzil S.F., Byrd H., Energy and Building Control Systems in the Tropics, 1st edition, Universiti Sains Malaysia Pulau Pinang, Malaysia (2012). [Google Scholar]
  33. Zain-Ahmed, A., Sopian, K., Othman, M. Y. H., Sayigh, A. A M., and Surendran, P. N. Daylighting as a Passive Solar Design Strategy in Tropical Buildings: A Case Study of Malaysia. Energy Conversion and Management, 43, 1725–1736 (2002). [CrossRef] [Google Scholar]
  34. Lu, J., Birru, D., and Whitehouse, K. Using Simple Light Sensors to Achieve Smart Daylight Harvesting. Proceedings of the 2nd ACM Workshop on Embedded Sensing Systems for Energy-Efficiency in Building – BuildSys ‘,10, 73 (2010). [CrossRef] [Google Scholar]
  35. Calcagni, B., and Paroncini, M. Daylight Factor Prediction in Atria Building Designs. Solar Energy, 76(6), 669–682 (2004). [CrossRef] [Google Scholar]
  36. Manglani, P., Mchugh, J., Heschong, L., Dee, R., and Group, H. M. Modular Skylight Systems : Best Practices for Designing Skylights with Suspended Ceilings Potential for Skylight Systems with Suspended Ceilings. 214–225 (2004). [Google Scholar]
  37. Selkowitz, S., & Lee, E. Integrating Automated Shading and Smart Glazings with Daylight Controls. International Symposium on Daylighting Buildings, 10 (2004). [Google Scholar]
  38. Lyons, P., Hockings, B., Reardon, C., Reidy, C., and GramlickHamber, R. Your Home: Australia’s Guide to Environmentally Sustainable Homes- Glazing. (5th ed). Australian Government Department of Industry-Glazing (2013). [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.