Literature Review of the Potential Energy Savings and Retention Water from Green Roofs in Comparison with Conventional Ones

1. Berndtsson, J., C. Green roof performance towards management ofrunoff water quantity & quality: a review. Sweden: Lund University. Department of water Resources Engineering, 2010Search in Google Scholar

2. Butler, C., Carter, T. Ecological impacts of replacing traditional roofswith green roofs in two urban areas. Boston College: Urban Ecology Institute, 2008. vol. 1, article 910.15365/cate.1292008Search in Google Scholar

3. Carter, T., Keeler, A. Life cycle cost benefit analysis of extensivevegetated roof systems, 2008. Journal of Environmental Management 8710.1016/j.jenvman.2007.01.024Search in Google Scholar

4. Castleton, H. F., Stovin, V., Beck, S. B. M., et al. Green roofs; Buildingenergy savings and the potential for retrofit. Sheffield: Department of civil and structural engineering. Energy and buildings, 2010. vol.42, p. 1582-1591.10.1016/j.enbuild.2010.05.004Search in Google Scholar

5. Compton, J. Rethinking the green roof. 2006.Search in Google Scholar

6. Eumorfopoulou, E., Aravantinos, D. The contribution of a planted roofthe thermal protection of buildings in Greece. Energy and buildings, 1998. vol.27, p. 29-36.10.1016/S0378-7788(97)00023-6Search in Google Scholar

7. FiBRE. Findings in Built and Rural Environments, Can Greenery MakeCommercial Buildings More Green? Cambridge University, 2007.Search in Google Scholar

8. Hilten, R., Lawrence, T., M., Tollner, E., W. Modeling storm waterrunoff from green roofs with HYDRUS-1D. United States: University of Georgia: Department of biological and Agricultural Engineering, 200810.1016/j.jhydrol.2008.06.010Search in Google Scholar

9. Kohler, M., Schmidt, M., Grimme, W., et al. Urban water retention bygreened roofs in temperate and tropical climate. Technical University of Berlin, 2001.Search in Google Scholar

10. Martens, R., Bass, B., Alcazar, S. Roof-envelope ratio impact on greenroof energy performance. Toronto: Adaption and impacts Research Division, 2008. vol. 11, p. 399-408.10.1007/s11252-008-0053-zSearch in Google Scholar

11. Miller, V., Fuchs, A., Rossi, G., et al. Green roofs: Alleviating urbanstress. University of Pittsburgh: Department of Mechanical Engineering,Search in Google Scholar

2007.Search in Google Scholar

12. Niachou, A., Papakonstantinou, K., Santamouris, M., et al. Analysis ofthe green roof thermal properties and investigation of its energyperformance. Energy and buildings, 2001. vol.33, p. 719-729.10.1016/S0378-7788(01)00062-7Search in Google Scholar

13. Onmura, S., Matsumoto, M., Hokoi, S. Study on evaporative coolingeffect of roof lawn gardens. Osaka: Technical Research Institute. Energy and buildings, 2000. vol.33, p. 653-666.10.1016/S0378-7788(00)00134-1Search in Google Scholar

14. Palomo Del Barrio,. E. Analysis of the green roofs cooling potential inbuildings. Energy and buildings, 1998. vol.27, p. 179-193.10.1016/S0378-7788(97)00029-7Search in Google Scholar

15. Rizwan, A., Dennis, Y., Liu, C. A review on the generation,determination, mitigation of Urban Heat Island. Journal of Environmental Science and Technology, 2008. vol.20, p. 120-128.10.1016/S1001-0742(08)60019-4Search in Google Scholar

16. Sainz, S., Kennedy, C., Bass, B., et al. Comparative Life Assessment ofStandard and Green Roofs. University of Toronto: Department of civil engineering. Environmental science and technology, 2006. vol.40, p. 4312-4316.10.1021/es051752216856752Search in Google Scholar

17. Scholz-Barth, K. Green roofs: Storm water management from the topdown. Environmental Design and Construction Magazine, 2003Search in Google Scholar

18. Spala, A., Bagiorgas, H., S., Assimakopoulos, M., et al. On the greenroof system selection, state of the art and energy potential investigation ofa system installed in an office building in Athens, Greece. Athens: University of Ioannina: Department of environmental and natural resources management, 200710.1016/j.renene.2007.03.022Search in Google Scholar

19. Stovin, V. The potential of green roof to manage urban storm water. UK: University of Sheffield. Department of civil and structural Engineering, 2010Search in Google Scholar

20. www.Climatedata.EuSearch in Google Scholar

21. http://www.jlgrealestate.comSearch in Google Scholar

22. http://livingroofs.org/Search in Google Scholar

23. Mentens, J. et al., Green roofs as a tool for solving the rainwaterrunoff problem in the urbanized 21th century. Department of Land Management, Laboratory for Forest, Nature & Landscape Research, KULeuven, BelgiumSearch in Google Scholar

24. Survey of research related to green roofs: Report on the EnvironmentalBenefits and costs of green roof technology for the city of TorontoSearch in Google Scholar

25. Beckman, B., Buishand, T. Statistical downscaling relationships forprecipitation in the Netherlands and North Germany. Royal Meteorological Institute, the Netherlands. 2001Search in Google Scholar

26. United States Environmental Protection Agency: Green Roofs forstormwater runoff control. 2009Search in Google Scholar

27. Zingo: Engineered Green Roof systems: Planning GuideSearch in Google Scholar