Acoustic evaluation of modular greenery noise barriers

Palacio, Ana María Lacasta; Peñaranda, Angelina; Cantalapiedra, Inma Rodríguez; Auguet, C.; Burés, Silvia; Urrestarazu, Miguel

doi:10.1016/j.ufug.2016.08.010

Cited by 44 publications

(26 citation statements)

References 27 publications

(31 reference statements)

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“…66]), and structural insulation (support structure) requires greater attention [63]. Performance is also dependent on plant growth stage and health [67]. As these observations are mostly based on laboratory-based studies, the findings presented could be argued to be relatable to both exterior and interior applications.…”

Section: Acousticsmentioning

confidence: 99%

Living walls in indoor environments

Gunawardena

Steemers

2019

Building and Environment

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The warming climate, projected increase in frequency and severity of extreme heat events, and the long-established heat island phenomenon are all expected to exacerbate urban environmental thermal loading. Active means used for addressing such risks are likely to increase energy consumption and emission trends to create a positive feedback loop that could threaten the health and wellbeing of urban citizens. In response, passive approaches such as green infrastructure enhancements are widely advocated, and to meet the challenges of implementing enhancements in dense cities, attention has been directed toward encouraging surface greening. This paper recognises this trend and considers vertical greening as a developing interest with application opportunity in both exterior and interior urban environments. A review of available studies and interviews with experts found most observations available to be derived from exterior applications. Interior applications consequently have yet to be investigated to determine relative value to indoor environments where most of human habitation is typically concentrated. The integration of plant science studies in this regard is highlighted as essential to develop a balanced evidence base for the enthusiasm observed for promoting indoor living wall installations.

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Section: Acousticsmentioning

confidence: 99%

Living walls in indoor environments

Gunawardena

Steemers

2019

Building and Environment

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“…This kind of technological solution is able to provide different beneficial effects: during the cooling season, thanks to the shading effect of the leaves and the evapotranspiration of the plants, the entering loads are lowered [10], while, during the heating season, it can contribute to reducing heat losses and improving surface thermal resistance, because of the wind reduction in the vicinity of the wall [11,12], to increasing the sound insulation of the wall [13,14] and reducing the environmental impact of the buildings [15][16][17]. At an urban level, VGSs are able to filter pollution [18], to sequester CO2 [19], to reduce urban sound propagation [20][21][22], to give a pleasant aesthetical aspect to a building, to improve the bio-diversity [23] and to mitigate the urban heat island effect (UHI) [24,25]. The species used in outdoor living walls vary to a great extent, depending on the location, on the exposure to the sun and wind and on the height of the building [26].…”

Section: -Introductionmentioning

confidence: 99%

A novel vertical greenery module system for building envelopes: The results and outcomes of a multidisciplinary research project

Serra

Bianco

Candelari

et al. 2017

Energy and Buildings

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“…The application of the proposed method for the selection of a motorway design variant does not imply an increase in the project implementation costs. A shift of overbridges to another location may not generate additional costs, and the introduction of protective vegetation belts in selected locations can also be combined with measures that limit other consequences of a motorway construction, e.g., noise [49].…”

Section: Discussionmentioning

confidence: 99%

Motorway Route Planning with Regarding the Adverse Effects on Agricultural Production Space

2019

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Designing and implementing investment projects are activities that have a direct impact on the natural environment and pose a threat to sustainable development of rural areas. The issue of agricultural production space protection during the implementation of linear projects in Poland is often only mentioned at the design stage as the final element. The aim of the study is to propose a tool to enable an assessment and modelling of a motorway design variant in order to minimise the impact on the agricultural production space. Four indicators introduced in the modelling procedure include the loss of agricultural land, a decrease of land productivity in the vicinity of an investment project, changes in the spatial structure of areas divided by the investment, and difficulties resulting from the accessibility of areas. The superiority of the proposed method over consolidations implemented in the vicinity of a motorway is due to the introduction into projects not only of elements organising the space but also attributes that prevent the reduction of the production capabilities of the land located in the vicinity of the motorway (Module I) and, secondly, the elements decreasing the re-organisation of the space (Module II).

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Acoustic evaluation of modular greenery noise barriers

Cited by 44 publications

References 27 publications

Living walls in indoor environments

Living walls in indoor environments

A novel vertical greenery module system for building envelopes: The results and outcomes of a multidisciplinary research project

Motorway Route Planning with Regarding the Adverse Effects on Agricultural Production Space

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