United Nations, Report of the World Commission on Environment and Development, General Assembly resolution 42/187, 1987.
3.
WHO, IARC Monographs on the Evaluation of Carcinogenic Risks to Humans, Man-made Vitreous Fibres, Volume 81 (2002).
4.
WHO, IARC Monographs on the Evaluation of Carcinogenic Risks to Humans, Man-made Mineral Fibres and Radon, Volume 43 (1988).
5.
CreelyK.S., Assessing Isocyanate Exposures in Polyurethane Industry Sectors Using Biological and Air Monitoring Methods, The Annals of Occupation Hygiene, 2006, 50(6), 609–621.
6.
DesarnauldsV., Sustainability of acoustic materials and acoustic characterization of sustainable materials, Proceedings of ICSV12, Lisbon, Portugal, 2005.
7.
AsdrubaliF., Survey on the acoustical properties of new sustainable materials for noise control, Proceedings of Euronoise 2006, Tampere, Finland, 2006
8.
JoshiS.V., Are natural fiber composites environmentally superior to glass fiber reinforced composites?, Composites: Part A, 2004, 35, 371–376.
9.
PervaizM., and SainM.M., Carbon storage potential in natural fiber composites, Resources, Conservation and Recycling, 2003, 39, 325–340.
10.
BribianI. Zabalza, Life cycle assessment of building materials: Comparative analysis of energy and environmental impacts and evaluation of the eco-efficiency improvement potential, Building and Environment, 2011, 46, 1133–1140.
Promoting LEED Certification and Green Building Technologies, http://www.leed.net/.
17.
Communities and Local Government. Code for Sustainable Homes: Technical guide. 2010.
18.
ThormarkC., A low energy building in a life cycle—its embodied energy, energy need for operation and recycling potential, Building and Environment, 2002, 37, 429–435.
19.
ReddyB.V. Venkatarama, and JagadishK.S., Embodied energy of common and alternative building materials and technologies, Energy and Buildings, 2003, 35 (2), 129–137.
20.
AsdrubaliF., The role of Life Cycle Assessment (LCA) in the design of sustainable buildings: Thermal and sound insulating materials, Proceedings of Euronoise 2009, Edinburgh, Scotland, 26th-28th October 2009.
21.
D'AlessandroF., and PispolaG., Sound absorption properties of sustainable fibrous materials in an enhanced reverberation room, Proceedings of Internoise 2005.Rio de Janeiro, Brazil, 2005.
22.
FouladiM.NorM., and AyubM., Acoustic modeling of single layer coir fiber panel, Proceedings of the 17th International Congress on Sound and Vibration (ICSV). Cairo, 18–22 July 2010.
23.
FouladiM.AyubM., and NorM., Analysis of coir fiber acoustical characteristics, Applied Acoustics, 201172, 35–42.
24.
ChilekwaV.SieffertG.EganC. A., and OldhamD., The acoustical characteristics of reed configurations, Proceedings of Euronoise 2006, Tampere, Finland, 2006.
25.
OldhamD. J.EganC., and CooksonR., Sustainable acoustic absorbers from the biomass, Applied Acoustics, 201172, 350–363.
26.
Jiménez-EspadaM., and Diaz-SanchidrianC., The use of reed panels in suspended ceiling and room dividers, Proceedings of Internoise 2010.Lisbon, Portugal 13–16 June 2010.
27.
AzevedoL., Sound Absorption of Sisal Fiber Panels, Proceedings of Internoise 2005.Rio de Janeiro, Brazil, 2005.
28.
El HajjN., Mboumba-Mamboundou, B., Dheilly, R.-M., Aboura, Z., Benzeggagh, M. & Queneudec, M., Development of thermal insulating and sound absorbing agro-sourced materials from auto linked flax-tows, Industrial Crops and Products, 2011, 34, 921–928.
29.
El HajjN.DheillyR.GoullieuxA.AbouraZ.BenzeggaghM., and QuéneudecM., Innovant agromaterials formulated with flax shaves and proteinic binder: Process and characterization, Composites: Part B, 2012, 43, 381–390.
30.
AsdrubaliF., and HoroshenkovK., The acoustic properties of expanded clay granulates, Building Acoustics, 2002, 9 (2).
31.
KoizumiT., The development of sound absorbing materials using natural bamboo fibers and their acoustic properties, Proceedings. of Internoise 2002.Dearborn, MI, USA, 2002.
32.
GléP.GourdonE., and ArnaudL., Modelling of the acoustical properties of hemp particles, Construction and Building Materials, 2012, 37, 801–811.
33.
ETRMA (European Trade & Rubber Manufacturers' Association), End of life tyres: A valuable resource with growing potential, 2011.
SchiavoniS., Sviluppo ed ottimizzazione di materiali acustici innovativi, Ph.d. Thesis, University of Perugia2011.
36.
SchiaviA.BelliM. PavoniCoralloM., and RussoF., Acoustic performance characterization of sustainable materials used under floating floors in dwellings, Proceedings of Euronoise 2006, Tampere, Finland, 2006.
37.
AsdrubaliF., and D'AlessandroF., Impact sound insulation and viscoelastic properties of resilient materials made from recycled tyre granules, International Journal of Acoustics and Vibration, 2011, 16 (3), 119–125.
38.
SwiftM.BrisP., and HoroshenkovK., Acoustic absorption in re_cycled rubber, Applied Acoustic, 1999, 57, 203–212.
39.
HoroshenkovK., and SwiftM., The effect of consolidation on the acoustic properties of loose rubber granulates, Applied Acoustic, 2001, 62, 665–690.
40.
VoroninaV., and HoroshenkovK., Acoustic properties of unconsolidated granular mixes, Applied Acoustic, 2004, 65, 673–691.
41.
Maderuelo-SanzR.Nadal-GisbertA.Crespo-AmorosJ., and Parros-GarciaF.A novel sound absorber with recycled fibers coming from end of life tires (ELTs), Applied Acoustics, 2012, 73, 402–408.
42.
RushforthI.HoroshenkovK.MiraftabM., and SwiftM., Impact sound insulation and viscoelastic properties of underlay manufactured from recycled carpet waste, Applied Acoustic, 2005, 66, 731–749.
43.
BenkreiraH.KhanA., and HoroshenkovK., Sustainable acoustic and thermal insulation materials from elastomeric waste residues, Chemical Engineering Science, 2011, 66, 4157–4171.
44.
BrosioE., Protezione dai rumori di calpestio. Prestazione dei pavimenti e problemi di valutazione, Rivista Italiana di Acustica, 4, 1980.
45.
AsdrubaliF., On the experimental evaluation of the performances of noise barrier diffracting devices, Acta Acustica united with Acustica, 2007, 93, 659–669.
46.
del ReyR.AlbaJ.ArenasJ., and SanchisV., An empirical modelling of porous sound absorbing materials made of recycled foam, Applied Acoustics, 2012, 73, 604–609.
47.
Garcia-VallesM.AvilaG.MartinezS.TerradasR., and NoguésJ., Acoustic barriers obtained from industrial wastes, Chemosphere, 2008, 72, 1098–1102.
48.
AshoriA., Wood-plastic composites as promising green-compostites for automotive industries!, Bioresource Technology, 2008, 99, 4661–4667.
49.
YoungjooN., and GilsooC., Sound Absorption and Viscoelastic Property of Acoustical Automotive Nonwovens and Their Plasma Treatment, Fibers and Polymers, 2010, .5(11), 782–789.
50.
HudaS., and YangY., Feather Fiber Reinforced Light-Weight Composites with Good Acoustic Properties, Journal of Polymers and the Environment, 2009, 17, 131–142.
da SilvaG. Moreirade Castro MagalhaesM., and GuerraA., Comparative study of sound absorption systems composed of multylayered panels, Proeedings. of the 17th International Congress on Sound & Vibration (ICSV), Cairo, Egypt, 18–22 July 2010.
53.
DalmeijerR., Straw bale sound insulation and acoustics, The Last Straw, The International Journal of Straw Bale and Natural Building, 2006, 53.
54.
DeverellR.GoodhewS.GriffithsR., and de WildeP., The noise insulation properties of non-food-crop walling for schools and colleges: A case study, Journal of Building Appraisal, 2009, 5, 29–40.
55.
del Rey TormosR.FérnandezJ.CarboL. Berto, and RicoV. Sanchis, Absorbent acoustic materials based in natural fibers, Proceedings of Forum Acusticum2011. Aalborg, Denmark.
56.
MentesJ.RaesD., and HermyM., Green roofs as a tool for solving the rainwater runoff problem in the urbanized 21st century?, Landscape and Urban Planning, 2006, 77, 217–226.
57.
KangJ.HuangH., and SorrilJ., Experimental study of the sound insulation insulation of semi-extensive green roof, Proceedings of Internoise 2009.Ottawa, Canada.
58.
NarejoD., and MillerC., State of the green roof industry in the United States. Geo Frontiers, 2005.
59.
WilliamsN.RaynerJ., and RaynorK., Green roofs for a wide brown land: Opportunities and barriers for rooftop greening in Australia, Urban Forest Urban Green, 2010, 9, 245–51.
60.
GetterK.RoweD. Bradley, and CreggB., Solar radiation intensity influences extensive green roof plant communities, Urban Forest Urban Green, 2009, 8, 269–281.
61.
JaffalI.OuldboukhitineS., and BelarbiR., A comprehensive study of the impact of green roofs on building energy performance, Renewable Energy, 2012, 43, 157–164.
62.
BianchiniF., and HewageK., How “green” are the green roofs? Lifecycle analysis of green of materials, Building and Environment, 2012, 48, 57–65.
63.
YangJ.YuQ., and GongP., Quantifyng air pollution removal by green roofs in Chicago, Atmospheric Environment, 2008, 42(31), 7266–73.
64.
Van RenterghemT., and BotteldoorenD., Numerical Evaluation of sound propagation over green roof, Journal of Sound and Vibration, 2008, 317, 781–799.
65.
OuisD., and LagerströmJ., Noise Reduction Capacity of Green Roofs, European Association for Architectural Education and Architectural Research Centers Consortium, 2004, 281–288.
66.
ConnellyM., and HodgsonM., Sound trasmission loss of green roofs, Proceedings of Greening Rooftops for Sustainable Communitie, 2008, Baltimore, USA.
67.
JonassonH., Acoustical source modeling of vehicles, Acta Acoustic united with Acustica, 2007, 93, 173–184.
68.
Van RenterghemT., and BotteldoorenD., Reducing the acoustical façade load from road traffic with green roofs, Building and Environment, 2009, 44, 1081–1087.
69.
YangH.KangJ., and ChoiM., Acoustic effects of green roof systems on a low-profiled structure at street level, Building and Environment, 2012, 50, 44–55.
70.
Van RenterghemT., and BotteldoorenD., In-situ measurements of sound propagating over extensive green roofs, Building and Environment, 2011, 46, 729–738.
71.
HoroshenkovK., and MohamedM., Experimental investigation of the effects of water saturation on the acoustic admittance of sandy soils. Journal of the Acoustical Society of America, 2006, 120, 1910–21.
72.
HoroshenkovK.KhanA.BenkreiraH.MandonA., and RohrR., The effect of moisture and soil type on the acoustical properties of green noise control elements, Proceedings. of Forum Acusticum2011, Aalborg.
73.
WongN.H., Acoustical evaluation of vertical greenery systems for building walls, Building and Environment, 2010, 45, 411–420.
