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What's New

From Jan-1-2010 to Jan-31-2010

Updates and changes:

(Back to What's New List)
  • Added references: 67
  • Added concepts: 1
  • Added essays: 2

References

  1. Wullschleger, L., Manz, H. and Wakili, K. G., (2009), Finite element analysis of temperature-induced deflection of vacuum glazing. (26-1-10)
  2. Ting, R., (1997), Evolution of curtain wall design against water infiltration. (26-1-10)
  3. Behr, R., (1997), Performance of architectural glass in a mid-rise curtain wall system under simulated earthquake conditions.. (26-1-10)
  4. Colomban, M., (1997), The wall of the future, Key not speech. (26-1-10)
  5. Swan, L. G. and Ugursal, V. I., (2009), Modeling of end-use energy consumption in the residential sector: A review of modeling techniques. (26-1-10)
  6. Weggel, D. C., Zapata, B. J. and Kiefer, M. J., (2007), Properties and dynamic behavior of glass curtain walls with split screw spline mullions. (25-1-10)
  7. Balaras, C. A., Gaglia, A. G. and Georgopoulou, E., Mirasgedis, S., Sarafidis, Y. and Lalas, D. P., (2007), European residential buildings and empirical assessment of the Hellenic building stock, energy consumption, emissions and potential energy savings. (25-1-10)
  8. ASTM, (2006), E1503-06 Standard Test Method for Conducting Outdoor Sound Measurements Using a Digital Statistical Sound Analysis System. (22-1-10)
  9. Lollini, R., Danza, L. and Meroni, I., (2010), Energy efficiency of a dynamic glazing system. (19-1-10)
  10. Gustavsen, A., Jelle, B. P., Arasteh, D. and Kohler, C., (2007), State-of-the-art highly insulating window frames -- research and market review. (19-1-10)
  11. Lenzen, M. and Collins, R. E., (1997), Long-term field tests of vacuum glazing. (19-1-10)
  12. Manz, H., (2008), On minimizing heat transport in architectural glazing. (19-1-10)
  13. Solomon, S., D. Qin, M. Manning, Z. Chen, M. Marquis, K.B. Averyt, M. Tignor and H.L. Miller (eds.), (2007), Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. (19-1-10)
  14. Fang, Y., Hyde, T., Eames, P. C. and Hewitt, N., (2009), Theoretical and experimental analysis of the vacuum pressure in a vacuum glazing after extreme thermal cycling. (18-1-10)
  15. Sozer, H., (2002), Identification of barriers to the building integrated photovoltaic design process as applied to curtain-wall. (18-1-10)
  16. Patterson, M. R., (2008), Structural glass facades: A unique building technology. (18-1-10)
  17. Yoshino, M., Mori, T., Mori, M., Takahashi, M., Yoshida, S. and Shirasawa, K., (1997), Development of photovoltaic modules integrated with a metal curtain wall. (18-1-10)
  18. Roonan, W. W. and Howell, J. F., (1990), SIROWET -- A comprehensive dynamic full scale curtain wall testing procedure. (18-1-10)
  19. Hammarberg, E., (2005), A case study of early steel curtain wall: the chrysler building,. (18-1-10)
  20. Cinnamon, A. D., (2008), Innovative products for curtain walls: investigation of anti-reflective glass coating. (18-1-10)
  21. Ting, R., (2006), Functional Isolation Concept in Curtain Wall Design. (18-1-10)
  22. Cliff, C. D., (2006), Curtain wall designs for wind and blast: three case studies. (18-1-10)
  23. Wong, P. W., Shimoda, Y., Nonaka, M., Inoue, M. and Mizuno, M., (2008), Semi-transparent PV: Thermal performance, power generation, daylight modelling and energy saving potential in a residential appl. (15-1-10)
  24. Lampert, C. M., (1981), Heat mirror coatings for energy conserving windows. (15-1-10)
  25. Eames, P. C., (2008), Vacuum glazing: Current performance and future prospects. (15-1-10)
  26. Papaefthimiou, S., Leftheriotis, G., Yianoulis, P., Hyde, T. J., Eames, P. C., Fang, Y., Pennarun, P. and Jannasch, P., (2006), Development of electrochromic evacuated advanced glazing. (15-1-10)
  27. Papaefthimiou, S., Syrrakou, E. and Yianoulis, P., (2006), Energy performance assessment of an electrochromic window. (15-1-10)
  28. Mbise, D. L. B., Niklasson, G.A. and Granqvist, C.G., (1997), Angular selective window coatings: theory and experiments. (15-1-10)
  29. Hernandez, P. and Kenny, P., (2010), From net energy to zero energy buildings: Defining life cycle zero energy buildings (LC-ZEB). (15-1-10)
  30. Woloszyn, M. and Rode, C., (2008), eds. Annex 41 Final Report, Volume 1: Modelling Principles and Common Exercises. (14-1-10)
  31. Erriguible, A., Bernada, P., Couture, F. and Roques, M., (2006), Simulation of convective drying of a porous medium with boundary conditions provided by CFD.. (13-1-10)
  32. Nstc, , (2008), Federal Research and Development Agenda for Net-Zero Energy, High-Performance Green Buildings. (13-1-10)
  33. Committee on Advancing the Competitiveness and Productivity of the U.S. Construction Industry, National Research Council, (2009), Advancing the Competitiveness and Efficiency of the U.S. Construction Industry. (13-1-10)
  34. Chow, T. T., (2010), A review on photovoltaic/thermal hybrid solar technology. (12-1-10)
  35. ASTM, (2001), E773-01, Standard test method for accelerated weathering of sealed insulating glass units. (12-1-10)
  36. Quirouette, R. L., (1982), Building envelope design using metal and glass curtain wall systems. (12-1-10)
  37. Quirouette, R. L., (2001), Glass and Aluminum Curtain Wall Systems. (12-1-10)
  38. Wong_Wang_Sie, W., (2007), Analysis and design of curtain wall systems for high rise buildings. (11-1-10)
  39. Wang, Y., (2006), Structural behavior and design of two custom aluminum extruded shapes in custom unitized curtain wall systems. (11-1-10)
  40. Apte, J. and Arasteh, D., (2008), Window-related energy consumption in the US residential and commercial building stock. (11-1-10)
  41. Arasteh, D., Selkowitz, S., Apte, J. and Lafrance., M., (2006), Zero energy windows. (11-1-10)
  42. Apte, J., Arasteh, D. and Huang, Y.J., (2003), Future advanced windows for zero-energy homes. (8-1-10)
  43. Granqvist, C. G., Azens, A., Hjelm, A., Kullman, L., Niklasson, G. A., Ronnow, D., Mattsson, M. S., Veszelei, M. and Vaivars, G., (1998), Recent advances in electrochromics for smart windows applications. (7-1-10)
  44. Griffith, B., Long, N., Torcellini, P., Judkoff, R., Crawley, D. and Ryan, J., (2007), Assessment of the technical potential for achieving net zero-energy buildings in the commercial sector. (7-1-10)
  45. Pacala, S. and Socolow., R., (2004), Stabilization wedges: solving the climate problem for the next 50 years with current technologies. (7-1-10)
  46. Yeomans, D., (2001), The origins of the modern curtain wall. (7-1-10)
  47. Arasteh, D., Goudey, H. and Kohler, C., (2008), Highly insulating glazing systems using non-structural center glazing layers. (7-1-10)
  48. Papaefthimiou, S., Syrrakou, E. and Yianoulis, P., (2009), An alternative approach for the energy and environmental rating of advanced glazing: An electrochromic window case study. (6-1-10)
  49. Baetens, R., Jelle, B. P. and Gustavsen, A., (2010), Properties, requirements and possibilities of smart windows for dynamic daylight and solar energy control in buildings: A state-of-the-art review. (6-1-10)
  50. Sottile, G. M., (2005), 2004 Survey of United States architects on the subject of switchable glazings. (6-1-10)
  51. Behr, R. A., (1995), On-site investigations of spandrel glass microenvironments. (6-1-10)
  52. Kimura, K., (1999), Solar architecture for the happiness of mankind. (6-1-10)
  53. Richman, R. C. and Pressnail, K. D., (2009), A more sustainable curtain wall system: Analytical modeling of the solar dynamic buffer zone (SDBZ) curtain wall. (6-1-10)
  54. Chantawong, P., Hirunlabh, J., Zeghmati, B., Khedari, J., Teekasap, S. and Win, M.M., (2006), Investigation on thermal performance of glazed solar chimney walls. (6-1-10)
  55. Chow, T. T., Fong, K. F., He, W., Lin, Z. and Chan, A. L. S., (2007), Performance evaluation of a PV ventilated window applying to office building of Hong Kong. (6-1-10)
  56. Chehab, O., (1994), The intelligent facade photovoltaic and architecture. (6-1-10)
  57. Bodart, M. and De_Herde, A., (2002), Global energy savings in offices buildings by the use of daylighting. (6-1-10)
  58. Sun, L. L. and Yang, H. X., (2010), Impacts of the shading-type building-integrated photovoltaic claddings on electricity generation and cooling load component through shaded windows. (6-1-10)
  59. Han, J., Lu, L. and Yang, H., (2009), Thermal behavior of a novel type see-through glazing system with integrated PV cells. (6-1-10)
  60. Miyazaki, T., Akisawa, A. and Kashiwagi, T., (2005), Energy savings of office buildings by the use of semi-transparent solar cells for windows. (6-1-10)
  61. Taleb, H. M. and Pitts, A. C., (2009), The potential to exploit use of building-integrated photovoltaics in countries of the Gulf Cooperation Council. (6-1-10)
  62. Bouden, C., (2007), Influence of glass curtain walls on the building thermal energy consumption under Tunisian climatic conditions: The case of administrative buildings. (6-1-10)
  63. Efstathiades, , Baniotopoulos, C. C., Nazarko, P., Ziemianski, L. and Stavroulakis, G. E., (2007), Application of neural networks for the structural health monitoring in curtain-wall systems. (6-1-10)
  64. Bayer, J. A. and Clift, C. D., (1993), Use of physical property data and testing in the design of curtain wall. (6-1-10)
  65. No, S., Kim, K. and Jung, J., Bayer, J. A. and Clift, C. D., (2008), Simulation and mock-up tests of the thermal performance of curtain walls. (6-1-10)
  66. Song, S., Yi, J. and Koo, B., (2008), Insulation plan of aluminum curtain wall-fastening unit for high-rise residential complex. (6-1-10)
  67. Richman, R. and Pressnail, K. D., (2009), Quantifying and predicting performance of the solar dynamic buffer zone (SDBZ) curtain wall through experimentation and numerical modeling. (5-1-10)

Essay

  1. No Entered.

Web Links

DAC International,
"Canadian exporter of high-performance pre-engineered homes. . . . design, pre-fabricate, ship and erect wood-frame homes for builders around the world. . . . one-of-a-kind dream home or a large-scale residential development, "
Mesothelioma Web
A non-profit organization with a "comprehensive site on asbestos and mesothelioma for over ten years, providing information and support to those who have been exposed to asbestos. . . . HON (Health On the Net) code approval; . . . to guide people to accurate medical information and expertise online . . ."

Concept

  1. Zero Energy Building: ZEB: 15-1-10


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