1Bokel R.M.J. The effect of window position a window size on the energy demand for heating, coohng and electric lighting [J]. Proceedings: Building Simulation, 2007. 被引量:1
2Deng S, Dalibard A, Martin M, Dai YJ. Energy supply concepts for zero energy residential buildings in humid and dry climate [J]. Energy Conversion and Management, 2011,52(2): 2455-2460. 被引量:1
3Ubinas RE, Cronemberger 7, Gonzalez NJ, Thermal storage system in solar house: Review on the American Solar Decathlon 2002-2009 [A]. Technical Workshop on Technologies Development in the Field of the SDEurope Competition [C]. Lisben: 2010. 被引量:1
4Kolokotsa D. A roadmap towards intelligent net zero- and positive- energy buildings [J]. Solar Energy. 2010: doi: 10, 1016/j. solener. 2010. 09.001. 被引量:1
5Wanner CL, Wassmer MR. Solar Decathlon 2005: PV system strategies and results [A]. IEEE 4th World Conference on Photovoltaic Energy Conversion (WCPEC-4) [C]. Hawaii: 2006, Voh 5. 2272-2276. 被引量:1
6Walker A, Renee D, Bilo S. Advances in solar buildings [J]. Journal of Solar Energy Engineering. 2003(8): 125,242-243. 被引量:1
7Yang XQ, GAO H. Energy and environment strategies of a Chinese prototype of solar house [A]. IEEE Computer Society: Proceedings 2011 International Conference on Computer Distributed Control and Intelligent Environmental Monitoring (CDCIEM 2011) [C]. Changsha: 2051. 1482-1486. 被引量:1
8Team SCUT @ SD China [EB/OL].[2014-03-17]. http://www.sdchi- ha2013-scut.com/. 被引量:1
9Solatrium House [EB/OL]. [2014-03-17]. http://wp.wpi.edu/solatri-um/en/. 被引量:1
10Ding Ding, Chongjie Wang. Architectural Technology Strategies of Ze- ro Energy Solar House [A]. In: The 5th Asia-Pacific Power and Energy En- gineering Conference (APPEEC 2013) Conference Organizing Committee. Energy and Power Engineering PART 1 [C]. Wuhan: Scientific Research Publishing,2013:283-286. 被引量:1
