Volume 23, Issue 68 (3-2023)
jgs 2023, 23(68): 293-311 |
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Haji Amiri H, Seghfi Asl A, ashjaee M. (2023). Classification of LEED World Standard Indicators in Sustainable Architecture of Contemporary Iranian Cities Based on Regional Ecological Characteristics: A Case Study of Qom City. jgs. 23(68), : 17 doi:10.52547/jgs.23.68.293
URL: http://jgs.khu.ac.ir/article-1-3660-en.html
URL: http://jgs.khu.ac.ir/article-1-3660-en.html
1- , Department of Architecture, South Tehran Branch, Islamic Azad University, Tehran, Iran, , Department of Architecture, South Tehran Branch, Islamic Azad University, Tehran, Iran
2- Assistant Professor of Urban Planning, Tabriz Branch, Islamic Azad University, Tabriz, Iran, Assistant Professor of Urban Planning, Tabriz Branch, Islamic Azad University, Tabriz, Iran ,a.saghafi@iaut.ac.ir
3- Professor of Mechanical Engineering, University of Tehran, Tehran, Iran, University of Tehran, Tehran, Iran
2- Assistant Professor of Urban Planning, Tabriz Branch, Islamic Azad University, Tabriz, Iran, Assistant Professor of Urban Planning, Tabriz Branch, Islamic Azad University, Tabriz, Iran ,
3- Professor of Mechanical Engineering, University of Tehran, Tehran, Iran, University of Tehran, Tehran, Iran
Abstract: (8424 Views)
Following developments in urban contexts of contemporary Iran, the creation of new urban contexts and cities has a direct impact on the ecosystem of its surrounding area. Urban neighborhoods on the path to achieving the goal of sustainable urban development require the integration of architecture and the principles of environmental sustainability. Using the Sustainable Architecture approach based on the principles of world standard is one of the most effective steps in this field. Progressive research, combined with the LEED World Standard Code of Conduct as a basis for evaluation, has revised the classification of the indicators of this Code based on biological and indigenous characteristics in the Qom city. To this end, urban texture and neighborhood assessment metrics are explained in the LEED and then with the aim of determining the importance category, baseline indices at the scale of the study area - renovated settlements (Pardisan City) - in a manner Qualitative analysis has been investigated. Finally, quantification in each section of context indices is done based on existing statistical documentary data for accreditation sub-indicators and, according to the final findings, a new classification of baseline assessment indexes for contemporary urban context designs. Based on the degree of effectiveness provided.
Article number: 17
Type of Study: Research |
Subject:
Geography and Urban Planning
References
1. احمدی، فرهاد (1382). معماری پایدار، فصلنامه آبادی، (40): 107-114.
2. حقیقی، ملاحت (1390). مفهوم توسعه پایدار شهری، بازیابی شده در تاریخ 12/07/1393، برگرفته از پایگاه اینترنتی مرکز اطلاعات علمی و تخصصی مدیریت شهری، www.umic.ir
3. رضازاده، راضیه و میراحمدی، مهرداد (1387). تحلیل و پیش¬بینی الگوهای فضایی زمانی رشد شهر مشهد، نشریه مشهدپژوهی، (1): 1-27.
4. رهنمایی، محمدتقی؛ پورموسوی، سید موسی (1385). بررسی ناپایداری¬های امنیتی کلانشهر تهران بر اساس شاخص¬های توسعه پایدار شهری، نشریه پژوهش¬های جغرافیایی، (57): 177-193.
5. زنده دل، حسن (۱۳۷۹). راهنمای گردشگری ایران، استان قم. نشر ایرانگردان.
6. سازمان مسکن و شهرسازی استان قم (1377). مطالعه شاخص¬های مسکن، جمعیت، مهاجرت و حاشیه نشینی در قم.
7. عزیزی، محمدمهدی (1384). محله مسکونی پایدار؛ مطالعه موردی: محله نارمک، نشریه هنرهای زیبا،(27): 35-46.
8. فرید، یداله (1368). جغرافیا و شهرشناسی، تبریز: دانشگاه تبریز.
9. کسمایی، مرتضی (1382). اقلیم و معماری، ویراستار محمد احمدی نژاد، نشر خاک، اصفهان.
10. لنگ، جان (1390). آفرینش نظریه معماری، ترجمه علیرضا عینی فر، انتشارات دانشگاه تهران، تهران.
11. معین آبادی، حسین (1388). مهاجرت و معضلات فرهنگی اجتماعی قم، فصلنامه جمعیت، (69 و 70): 29-55.
12. وهابزاده، عبدالحسین، (1381). بوم شناسی علم عصیانگر؛ مجموعه مقالات کلاسیک در بوم شناسی، نشر چشمه، تهران.
13. Burnett, John (2007). "City Buildings-Echo-labels and shades of green", Landscape and Urban Planning, Vol. 83, pp. 29 - 38. [DOI:10.1016/j.landurbplan.2007.09.003]
14. Coan,R, Lider,F (2006), Urban energy use and carbon emissions from cities in China and policy implications, Energy Policy 37 (2009) 4208-4219. [DOI:10.1016/j.enpol.2009.05.020]
15. Cowan , Robert (2005), The Dictionary of urbanism , London , Street wise press.
16. Fichera, W., Matsumoto, H., Lun, Y., & Kimura, R. (n.d.).(2016) System Dynamic Model for the prediction of Urban Energy Consumption Trends. 6th international confrence on indoor air quality, ventilation & energy conservation in buildings. Sendai, Japan.
17. Gunn, Clare A. and Turgut Var (2002). Tourism Planning, Basics, Concepts, Cases, Fourth Edition, Routledge, New York.
18. Kubba, S (2010). LEED Practices, Certification, and Accreditation Handbook. U.S. Green Building Council.
19. Roseland, M (2003). Sustainable Community Development: Integrating Environmental, Economic and Social Objectives. Community Economic Development Centre, Department of Geography, Simon Fraser University Press
20. Wilhelm, Mark. D. (2005). Green Building Specifics: Costs, Benefits and Case Studies, Pollution Prevention, Workshop for Healthcare, St. Joseph's Hospital and Medical Center.
21. King, R (2011). LEED for Neighborhood Development: Programming Urban Sustainability. B.A., Columbia University
22. U.S. Green Building Council (2009). LEED Reference Guide for Green Building Design and Construction. Created by the Congress for the New Urbanism, Natural Resources Defense Council, and the U.S. Green Building Council. Access from: www.usgbc.com. 2011/06/9.
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