참고문헌 (16)

1. Seok, H., Kwak, H. & Song, S. (2004), Present state investigation and analysis of cladding system in high rise residential buildings, Journal of the Korean Housing Association, 15(5), 43-50 

2. Yoon, J. (2006). Application of building integrated photovoltaic (BIPV) system for super tall building. The 6th international symposium of KSTBF on the super tall buildings. 

3. Han, M., Seo, Y., Oh, M. & Kim, H. (2011), The design method and environmental performance evaluation for unit type BIPV in high rise buildings. Journal of Korean Institute of Architectural Sustainable Environment and Building Systems. 5(4), 236-243. 

4. Yoo, S. (2007). A parameter simulation for effective use of building integrated photovoltaic as a shading device. Journal of Architectural Institute of Korea, Planning and Design Section, 23(10), 187-194 

5. Chin, K. & Yoon, J. (2010). Movable BIPV shading device design for apartment building balcony. Journal of the Korean Solar Energy Society, 30(5), 85-92 

6. Park, K., Kim, J., kang, K., Yu, K., Kim, H., Jang, D. & Lee, M. (2007). Generation characteristics of BIPV module as spandrel glass according to temperature variation. Journal of Korean Institute of Architectural Sustainable Environment and Building Systems. 169-172. 

7. Yoon, J., Oh, M. & Shin, W. (2012). A study on the glazing surface temperature and thermal shock of BIPV window applied to the spandrel area of curtain wall systems in office building. Journal of Architectural Institute of Korea, Planning and Design Section, 28(2), 241-250 

8. Yoon, J. & Kim, J. (2006). Experimental study on the thermal effect of BIPV modules depending on the ventilation type of PV module backside. Journal of the Korean Solar Energy Society. 26(1). 81-89 

9. Kim, H., Kang, G., Park, K., Yu, G. & Seo, S. (2009). Characteristic analysis of BIPV module according to rear materials. Journal of the Korean Solar Energy Society, 29(4), 28-33 

10. Song, J., Jin, H., Lim, J., Song, S. & Seong, Y. (2016). Analysis of electric power generation performance of the louver-type BIPV system in urban building. Journal of Korean Institute of Architectural Sustainable Environment and Building Systems. 10(1), 21-29 

11. Kim, S. & Nam, Y. (2015). Study on the analysis performance of PVT system using the dynamic simulation, Journal of Korea Institute of Ecological Architecture and Environment, 15(2), 95-101. 

12. Sugawara, M., Hoyano, A., Sato, E., & Sakura, H., (1997), Proposal of an architectural member with multi-air layered body constructed of aluminum sheets having fine holes and study on a calculation method of air, heat, and moisture transfers : development of a breathing wall part 2, Journal of Architecture, Planning and Environmental Engineering Transactions of AIJ, v.499, 43-48 

13. Yoon, S. & Hoyano, A. (2002), Effectiveness verification of passive ventilation functions of a breathing wall by a field experiment using a mock-up house model, Study on properties of natural ventilation, thermal insulation and vapor transmission in a breathing wall Part 2, Journal of Architecture, Planning and Environmental Engineering(Transaction of AIJ), 556, 115-122. 

14. Yoon, S., Lee, T. & Kang, J. (2011), An experimental study on ventilation and thermal performance of passive ventilation building envelopes, Korean Journal of Air-Conditioning and Ref. Eng, 23(11), 711-717. 

    원문보기 상세보기

15. Lee, T.. Son, Y. & Yoon, S. (2012), A numerical study on sectional temperature distribution and heat recovery amount of passive ventilation skin, Korean Journal of Air-Conditioning and Ref. Eng, 24(10), 705-710. 

    원문보기 상세보기

16. Cha, W., Park, J., Cho, U. & Kim, J. (2015), A study in solar power generation efficiency empirical analysis according to temperature and wind speed, Journal of the Transaction of the Korean Institute of Electrical Engineers, 64(1), 1-6 

저자의 다른 논문 :

윤성환 (18)