A Research on Appropriate Plant Species for Green Facades to Reduce the Sound Level
Subject Areas :
environmental management
Akram Hosseini
1
,
Hashem Amini Toosi
2
1 - - Assistant Professor, Faculty of Architecture, Urbanism and Islamic Art, Ferdowsi University of Mashhad, Mashhad, Iran
2 - MA student in Architecture and Energy, Faculty of Architecture, College of Fine Arts, University of Tehran, Tehran, Iran
Received: 2015-05-11
Accepted : 2015-10-13
Published : 2016-03-20
Keywords:
Noise pollution,
sound level,
Building,
appropriate plant,
green facade,
Abstract :
Introduction: Noise pollution is one of the most important kinds of environmental pollution in urban areas and a large number of people in developing countries are exposed to it. One of the most important concepts and fundamentals of sustainable development in Architecture and urban planning is to utilize plants and vegetation in Building architecture. In a different scale in urban architecture, in recent years, sustainable cities have found that greenery is a key element in reducing noise pollution. The use of vegetation has become an essential aspect in urban planning nowadays. In densely built-up city centers, building envelope greening is often the only possibility to meet this demand. Material and Methods: The ability and potential of plants in reducing noise level is noticeable, significant and effective. It is important that which kinds of plants to be used. Two questions are selected and picked to answer as the objectives of this research, one is measuring the ability in sound level reduction of 10 different shrubs that can be used in the balconies of buildings, and second is to compare these shrubs in this potential in different sound levels. The results are presented in relevant diagrams for each shrub and different sound levels. Results and Discussion: The results show the Pyracantha had the best performance in 80db, 85db and 100db by 42db, 44db and 37db sound level reduction, also in 90db sound level, Pyracantha, Elaeagnus angustifolia, LigustrumVulgare and Yucca elephantipes had the best performance by approximately 40db reduction in sound level. In 95 db, Elaeagnus angustifolia and Althaea officinalis had a sound level reduction near to 40db and in 105db Yucca elephantipes had the best performance by 40db sound level reduction in comparison with other plant species. گوش کردنخواندن با قواعد آوایی
References:
WHO Regional Office for Europe, (2011) noise equantification of healthy life years lost in Europe.
Van Renterghem a,*, Maarten Hornikx b, Jens Forssen c, Dick Botteldooren a, (2013) The potential of building envelope greening to achieve quietness, Building and Environment 61 (2013) 34e44
Mohamadhasan Ehrampush, (2012), Noise pollution in urban enviroments: a study in Yazd city, Iran. Pol.J.Environ. Stud. Vol.21, (2012), 1095-1100
کریمی. الهام، نصیری. پروین، عباسپور. مجید، منظم. محمدرضا و تقوی. لعبت،1391، بررسی وضعیت آلودگی صوتی در منطقه 14 تهران، فصلنامه انسان و محیط زیست، شماره 23، دانشگاه آزاد اسلامی، واحد علوم و تحقیقات.
محرم نژاد. ناصر و صفریپور. مهسا،1387، تأثیر توسعه شهری بر روند آلودگی صوتی در منطقه یک تهران و ارایه راهکارهای مدیریتی برای بهبود شرایط، علوم و تکنولوژی محیط زیست ، دوره دهم، شماره چهارم، دانشگاه آزاد اسلامی، واحد علوم و تحقیقات.
Mostafa Refat Ismail, (2013) Quiet environment: Acoustics of verticalgreen wall systems of the Islamic urban form, Frontiers of Architectural Research (2013)2, 162–177
NyukHien Won, Alex Yong Kwang Tan, PuayYok Tan, Kelly Chiang, Ngian Chung Wong, (2010) Acoustics evaluation of vertical greenery systems for building walls, Building and Environment 45 (2010)
Senate Public Works Committee,(1972) Noise Pollution and Abatement Act of 1972, S. Rep. No. 1160,
Stein, Benjamin; Reynolds, Johns. (2000) “Mechanical and Electrical Equipment for Buildings”, Wiley 8 Sons, USA, 2000.
Yang H, Kang J, Choi M.(2012) Acoustic effects of green roof systems on a low profiled structure at street level. Build Environ 2012;50:44e55
Cook-Patton S, Bauerle T (2012). Potential benefits of plant diversity on vegetatedroofs: a literature review. J Environ Manage 2012; 106:85e92.
Connelly M, Hodgson M.(2008) Sound transmission loss of green roofs, Vancouver,British Columbia, Canada. In: Proceedings of the sixth annual greening rooftops for sustainable communities conference; 2008.
Bullen R, Fricke F. (1982) Sound propagation through vegetation. Journal of Soundand Vibration; 80(1):11–23.
Lagstrom J.(2004) Do extensive green roofs reduce noise? International Green RoofInstitute; 2004
Badrulzaman Jaafar,Ismail Said, Mohd Nadzri Md Reba,Mohd Hisyam Rasidi (2013) , Impact of Vertical Greenery System on Internal Building Corridors in the Tropic, Procedia - Social and Behavioral Sciences, Volume 105, 3 December 2013, Pages 558–568
Pérez G, Rincón L, Vila A, González J, Cabeza L. (2011) Green vertical systems forbuildings as passive systems for energy savings. Appl Energy 2011; 88:4854e9.
Jaffal I, Ouldboukhitine S, Belarbi R. (2012) A comprehensive study of the impact of green roofs on building energy performance. Renewable Energy 2012; 43:157e64.
Berndtsson J. (2010) Green roof performance towards management of runoff water quantity and quality: a review. EcolEng; 36:351e60.
Metselaar K. (2012) Water retention and evapotranspiration of green roofs and possible natural vegetation. ResourConservRecycl 2012; 64:49e55.
Getter K, Rowe D, Robertson G, Cregg B, Andresen J. (2009) Carbon sequestration potential of extensive green roofs. Environ SciTechnol 2009; 43:7564e70.
Lia J, Waib O, Lib Y, Zhana J, Hoc Y, Lid J, et al.(2010) Effect of green roof on ambientCO2concentration. Build Environ 2010; 45:2644e51.
MacIvor J, Lundholm J. (2011) Insect species composition and diversity on intensivegreen roofs and adjacent level-ground habitats. Urban Ecosystem 2011; 14:225e41.
Perini K, Ottelé M, Fraaij A, Haas E, Raiteri R.(2011) Vertical greening systems and theeffect on airflow and temperature on the building envelope. Build Environ 2011; 46:2287e94.
وزارت مسکن و شهرسازی، 1388، مبحث هجدهم، عایقبندی و تنظیم صدا، دفتر امور مقررات ملی ساختمان.
