Authors
Abstract
سامانههای ارزیابی بیشماری امروزه پایداری و میزان همسازی ساختمانها با شرایط محیطی را مورد سنجش قرار میدهند. این سنجش تنها از طریق شناخت دقیق زمینه و خصوصیات منطقهای ممکن است. عدم شناخت و درک صحیح شرایط منطقهای، نهتنها فرآیند ارزیابی را با اختلال مواجه میکند، که حتی به دریافت پاسخهای غلط از آن نیز منجر خواهد گردید. هدف این پژوهش بررسی نقش شرایط منطقهای و میزان تأثیرگذاری آن، در فرآیند تدوین، اولویتگذاریو وزندهی معیارهای ارزیابی سامانههاست و میکوشد تا ضمن برشمردن معایب استفاده از سامانه ملی LEEDدر دیگر نقاط جهان، راهکارهای تعمیمبخشی آن را در مقایسه با سامانه BREEAMکه نسبت به لحاظنمودن اولویتهای منطقهای رویکرد منطقیتری پیشگرفته است و همچنین سامانه SBToolکه در واقع روش تدوین نسخههایی متفاوت و متعلق به مناطق متعدد را باز مینمایاند، مقایسه و تحلیل نماید. این بررسی در دو بخش صورت میگیرد؛ بخش اول متکی بر مباحث فوق، ضرورت بهرهگیری از سیستم وزندهی، جهت اولویتگذاری معیارها را مورد تأکید قرار میدهد. و در بخش دوم ضمن انتخاب 6 سامانه برگرفته از BREEAMو LEEDکه دارای ساختار مشابه با آن میباشند، میزان رابطه و پیوند معیارها با شاخصهای منطقهای با استفاده از تحلیل همبستگی آماری و رگرسیون خطی مورد بررسی قرار میگیرد. وجود رابطهای معنادار و پیوند مستحکم میان ضرایب تخصیصی سرفصلها با متغیرهای زمینه، نقش و تأثیر عوامل منطقهای را در فرآیند توزین معیارها نشان میدهد. در اکثر سامانهها ضرایب سرفصلهای مرتبط با منابع چون آب، انرژی و ساختگاه (سایت) برمبنای شاخصهای منطقهای تخصیص یافته است. حتی در خصوص شاخصهای دیگر اعم از سلامتی و رفاه، پسماند و نیز تأثیرات منطقهای مشهود است، امّا به سبب وجود چندین شاخص همارز، در اولویتهای بعدی وزندهی قرار گرفتهاند. متکی بر یافتههای پژوهش، در سامانههای بررسی شده، سرفصل آب بر مبنای شاخص میزان بارش و تنش آبی کشور دارنده سامانه، انرژی مبتنی بر شاخص میزان مصرف انرژی و ساختگاه متأثر از شاخص تراکم جمعیت منطقهای، وزندهی شده است.
Keywords
Asdrubali F., Baldinelli G., Bianchi F. & Sambuco S. (2015). A Comparison between Environmental Sustainability Rating Systems LEED and ITACA for Residential Buildings, Retrieved Dec 2015, from www.sciencedirect.com, Vol. 86, pp. 98-108.
Roderick Y., McEwan D., Wheatley C. & Alonso C. (2009). Comparison of Energy Performance Assessment between Leed, Breeam and Green Star, Eleventh International IBPSA Conference, Glasgow, Scotland.
Abu Dhabi Urban Planning Council (2010). The Pearl Rating System for Estidama, Building Rating System, Design & Construction, V1.0, PBRS. Retrieved Nov 10, 2014, from www.upc.gov.ae.
Ali HH. & Al Nsairat SF. (2009). Developing a Green Building Assessment Tool for Developing Countries – Case of Jordan, Vol. 44, pp. 1053-1064. Retrieved from www.sciencedirect.com.
Alyami SH. & Rezgui Y. (2012). Sustainable Building Assessment Tool Development Approach, Retrieved from www.sciencedirect.com, Vol. 5, pp. 52-62.
Alyami SH., Rezgui Y. & Kwan A. (2013). Developing Sustainable Building Assessment Scheme for Saudi Arabia: Delphi Consultation Approach, Vol. 27, pp. 43-54, Retrieved from www.sciencedirect.com.
BRE (n.d.). Retrieved Jan 22, 2016, from BREEAM: http://www.breeam.com/
BRE (2013). BREEAM-International-2013-Weightings-Form-V1.0-UAE.xls. Retrieved Sep 3, 2015, from [email protected].
BRE (2014, Apr 9). BREEAM International New Construction, Technical Manual, Retrieved Jun 25, 2015, from www.breeam.com.
BRE (2014). BREEAM International New Construction, Technical Manual, BRE Global.
BRE (n.d.). BREEAM in Numbers, Retrieved 2016, from BREEAM: http://www.breeam.com.
BRE Global (2014, Jun). BREEAM Bespoke Process,Guidance Note GN09, Retrieved Oct 20, 2015, from www.breeam.com.
BREEAM ES. (2014, Dec 9). BREEAM ES NUEVA CONSTRUCCIÓN 2015, Edificios no residenciales, Manual Técnico. Retrieved Sep 18, 2015, from www.breeam.es.
BREEAM UK (2014). BREEAM UK NEW CONSTRUCTION/ Non-domestic buildings. BRE, Retrieved Aug 8, 2015, from www.breeam.com.
CERWAY (n.d.). hqe in the World. Retrieved 2016, from beHQE: http://www.behqe.com/hqe-in-the-world/cartography-of-projects.
Chandratilake SR, Dias W (2013). Sustainability Rating Systems for Buildings: Comparisons and Correlations, Vol. 59, pp. 22-28. Retrieved 2015, from www.sciencedirect.com.
Demographia (2015). Demographia World Urban Areas, Built Up Urban Areas or World Agglomerations, (11). Retrieved Oct 12, 2015, from www.demographia.com/db-worldua.pdf.
DGNB (n.d.). DGNB International. Retrieved 2016, from DGNB System: http://www.dgnb-system.de/en/system/international/.
ECD Energy and Environment Canada (2014). Green Globes, Canada, Design for New Construction & Major Retrofits V2-2014, Rating System & Program Summary, Retrieved Aug 27, 2015, from www.greenglobes.com.
Gassert F., Reig P., Luo T. & Maddocks A. (2013, DEC). Aqueduct Country and River Basin Rankings, Retrieved MAY 7, 2015, from http://www.wri.org/publication/aqueduct-country-river-basin-rankings.
Gou Z., Lau SSY (2014). Contextualizing Green Building Rating Systems: Case Study of Hong Kong, pp. 282-289, Retrieved from www.sciencedirect.com
Gray C. (2015). Top 10 Countries for LEED in 2015, For LEED Outside the U.S. Retrieved 11 2015, from http://www.usgbc.org/2015top10countries.
Green Building Council Australia (GBCA). (2015, Apr 20). Green Star-Public Building V1 Scorecard. Retrieved Aug 12, 2015, from https://www.gbca.org.au/green-star/.
Horst S. (2014). Alternative Compliance Paths Continue to Localize LEED. Retrieved April 5, 2015, from http://www.usgbc.org/articles/alternative-compliance-paths-continue-localize-leed.
iiSBE (n.d.). Retrieved January 15, 2015, from International Initiative for a Sustainable Built Environment: http://www.iisbe.org/sbmethod.
- iiSBE (2014). SBTool_2014-A-Max-Dsn.xlsm. Retrieved Mar 25, 2015, from http://www.iisbe.org/node/140.
Komurlu R., Arditi D. & Gurgun AP. (2014). Applicability of LEED’s Energy and Atmosphere Category in Three Developing Countries, Energy and Buildings, Vol. 84, pp. 690-697. Retrieved 2014, from www.sciencedirect.com.
Larsson N. (2012). User Guide to the SBTool Assessment Framework, Retrieved Dec 20, 2014, from http://www.iisbe.org/node/140.
Larsson N. (2015). SBTool 2015 - overview. Retrieved 12 17, 2015, from http://www.iisbe.org/sbmethod.
Larsson N. Iisbe & Macias M. (2012). Overview of the SBTool Assessment Framework, Retrieved Dec 20, 2014, from http://www.iisbe.org/node/140.
Lee W. (2012). Benchmarking Energy Use of Building Environmental Assessment Schemes, 2014, Vol. 45, pp. 326-334, Retrieved Sep 22.
Lee W. (2013). A Comprehensive Review of Metrics of Building Environmental Assessment Schemes, Energy and Buildings, Vol. 62, pp. 403-413.
Ng ST., Chen Y. & Wong JM. (2013). Variability of Building Environmental Assessment Tools on Evaluating Carbon Emissions, Environmental Impact Assessment Review, Vol. 38, pp. 131-141, Retrieved Sep 28, 2015, from www.sciencedirect.com.
Nguyen BK. & Altan H. (2011). Comparative Review of Five Sustainable Rating Systems, Procedia Engineering, Vol. 21, pp. 376-386, Retrieved Sep 8, 2014, from www.sciencedirect.com
Owens B., Macken C., Rohloff A. & Rosenberg H. (2013). LEED v4 Impact Category and Point Allocation Process Overview, Retrieved Oct 5, 2015, from http://www.usgbc.org/resources/leed-v4-impact-category-and-point-allocation-process-overview.
SBA (n.d.). Breeam. Retrieved May 10, 2015, from Sustainable Building Alliance:
http://www.sballiance.org/our-work/libraries/building-research-establishment-environmental-assessmentmethod-breeam/.
SBA (n.d.). SBTool. Retrieved Apr 9, 2015, from Sustainable Building Alliance:
http://www.sballiance.org/our-work/libraries/sbtool/.
Suzer O. (2015). A Comparative Review of Environmental Concern Prioritization: LEED vs Other Major Certification Systems, Journal of Environmental Management, Vol. 154, pp. 266-283.
Suzer O. (2015). A Comparative Review of Environmental Concern Prioritization: LEED vs Other Major Certification Systems, Vol. 154, pp. 266-283, Retrieved from www.sciencedirect.com.
The World Bank (2011). CO2 Emissions (metric tons per capita). Retrieved Nov 1, 2014, from Data World Bank: http://data.worldbank.org/indicator/EN.ATM.CO2E.PC.
The World Bank (2012). CO2 Emissions from Residential Buildings and Commercial and Public Services, Retrieved Nov 1, 2014, from Data World Bank: http://data.worldbank.org/indicator/EN.CO2.BLDG.ZS
The World Bank (2012). CO2 Emissions from Transport. Retrieved Nov 1, 2014, from Data World Bank: http://data.worldbank.org/indicator/EN.CO2.TRAN.ZS.
The World Bank (2012). Combustible Renewables and Waste (% of total energy). Retrieved Nov 1, 2014, from Data World Bank: http://data.worldbank.org/indicator/EG.USE.CRNW.ZS
The World Bank (2012). Energy Use (kg of oil equivalent per capita). Retrieved Nov 1, 2014, from Data World Bank: http://data.worldbank.org/indicator/EG.USE.PCAP.KG.OE.
The World Bank (2012). Renewable Energy Consumption (% of total final energy consumption). Retrieved Nov 1, 2014, from Data World Bank: http://data.worldbank.org/indicator/EG.FEC.RNEW.ZS.
The World Bank (2012). Terrestrial and Marine Protected Areas. Retrieved Nov 1, 2014, from Data World Bank: http://data.worldbank.org/indicator/ER.PTD.TOTL.ZS.
The World Bank (2013). PM2.5 Air Pollution, Mean Annual Exposure (micrograms per cubic meter). Retrieved Nov 1, 2014, from Data World Bank: http://data.worldbank.org/indicator/EN.ATM.PM25.MC.M3.
The World Bank (2013). PM2.5 Air Pollution, Population Exposed to Levels Exceeding WHO Guideline Value. Retrieved Nov 1, 2014, from Data World Bank:
http://data.worldbank.org/indicator/EN.ATM.PM25.MC.ZS.
The World Bank (2014). Average Precipitation in Depth (mm per year). Retrieved Dec 15, 2015, from Data World Bank: http://data.worldbank.org/indicator/AG.LND.PRCP.MM.
Thilakaratne R. & Lew V. (2011). Is LEED Leading Asia?: An Analysis of Global Adaptation and Trends. 2011 International Conference on Green Buildings and Sustainable Cities, Vol. 21, pp. 1136-1144, Procedia Engineering, Retrieved from www.sciencedirect.com
USGBC (2014, Oct 1). LEED v4 for Building Design and Construction, Retrieved 25 Dec, 2014, from http://www.usgbc.org/leed.
USGBC (n.d.). LEED. Retrieved Sep 14, 2015, from http://www.usgbc.org/leed.
USGBC (n.d.). Regional Priority Credit Lookup. Retrieved Jan 25, 2016, from LEED: http://www.usgbc.org/rpc.
Waste Atlas TM (2013). Waste Atlas. Retrieved Dec 18, 2015, from http://www.atlas.d-waste.com/.
Wei W., Ramalho O. & Mandin C. (2015). Indoor Air Quality Requirements in Green Building Certifications, Vol. 92, pp. 10-19, Retrieved 2015, from www.sciencedirect.com.
Wu Z., Shen L., Yu AT. & Zhang X. (2015). A Comparative Analysis of Waste Management Requirements Between Five Green Building Rating Systems for New Residential Buildings, doi:10.1016/j.jclepro.2015.05.073.
', './data/isau/coversheet/cover_en.jpg'))