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Applying vertical greening systems to reduce traffic noise in outdoor environments: Overview of key design parameters and research methods

BUILDING ACOUSTICS (2023)

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Article Construction & Building Technology

Knowledge mapping of research progress in vertical greenery systems (VGS) from 2000 to 2021 using CiteSpace based scientometric analysis

Muhammad Mubashir Ahsan et al.

Summary: This study utilizes scientometric analysis to visually analyze the intellectual background, main research frontiers, and knowledge structure of the vertical greenery systems (VGS) domain. By using visualization networks such as co-authorship, co-citation, co-occurrence, and cluster analysis, the major contributing bodies, research hotspots, and emerging sub-fields of VGS-related research are categorized and explored. This study provides significant guidance for scientists and engineers to identify critical sub-domains in VGS literature and focus on the most significant aspects for future studies.

ENERGY AND BUILDINGS (2022)

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Article Construction & Building Technology

Study of Living Wall Systems' (LWSs) Support system for improving LWSs Life cycle performance and noise reduction potential

Lan-Ting Chang et al.

Summary: As urban crowding increases, there is a need for the construction industry to focus on environmental sustainability and the quality of urban life. This study investigates the use of ecofriendly living wall systems (LWSs) and their interactions with acoustic support systems (SSs) to develop a cost-effective urban greening strategy that emphasizes noise attenuation for environmental sustainability and human health. The results highlight the importance of weight in the LWSs for sound absorption.

BUILDING AND ENVIRONMENT (2022)

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Review Acoustics

A review of the application of green walls in the acoustic field

Feng Yan et al.

Summary: Green wall technology is a promising solution to address the negative impacts of noise pollution, but there is a lack of research in the field of acoustic studies. This paper provides a systematic review of the application of green walls in the acoustic field and identifies key factors and obstacles that influence their acoustic performance.

BUILDING ACOUSTICS (2022)

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Review Green & Sustainable Science & Technology

A systematic review of the impact of green walls on urban comfort: temperature reduction and noise attenuation

V Oquendo-Di Cosola et al.

Summary: This review provides a systematic analysis of the impact of green walls on urban comfort, highlighting the factors influencing this impact and identifying research gaps that need to be further explored.

RENEWABLE & SUSTAINABLE ENERGY REVIEWS (2022)

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Article Green & Sustainable Science & Technology

Is the sustainability potential of vertical greening systems deeply rooted? Establishing uniform outlines for environmental impact assessment of VGS

T. Rowe et al.

Summary: This article reviews the current status of using life cycle assessment (LCA) to study the environmental sustainability of vertical greening systems. A framework outline is proposed as a first step towards a more standardized assessment methodology, and gaps and opportunities for improvement of current practices are identified.

RENEWABLE & SUSTAINABLE ENERGY REVIEWS (2022)

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Review Green & Sustainable Science & Technology

Effects of Facades on Urban Acoustic Environment and Soundscape: A Systematic Review

Alvaro Balderrama et al.

Summary: This study presents a systematic literature review examining the effects of facades on the urban acoustic environment and soundscape. Facades were found to affect sound pressure levels and reverberation time in urban spaces, as well as people's perception of the acoustic environment.

SUSTAINABILITY (2022)

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Article Construction & Building Technology

An optimal dimensioning method of a green wall structure for noise pollution reduction

Emmanuel Attal et al.

Summary: This paper focuses on optimizing a multilayered green wall structure to reduce noise reflection and transmission. Experimental characterization of each component and simulation show that foliage layer contributes significantly to return losses. Optimization methods discussed include material selection, thicknesses, and layer arrangement to achieve best performance in terms of losses and frequency bandwidth.

BUILDING AND ENVIRONMENT (2021)

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Article Acoustics

Enhancing the acoustic absorption of vegetation with embedded periodic metamaterials

Siu-Kit Lau et al.

Summary: This study investigated the sound absorption properties of vegetation embedded with periodic metamaterials both numerically and experimentally. It was found that embedding periodic metamaterials into vegetation can significantly enhance sound absorption performance. The metamaterial, composed of two-layer oppositely oriented split tubes, can achieve two resonant absorption peaks which can be easily controlled by adjusting the width while keeping the thickness unchanged. Additionally, when considering more than one metamaterial per spatial period, additional absorption peaks are observed, broadening the effective absorption bandwidth.

APPLIED ACOUSTICS (2021)

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Review Green & Sustainable Science & Technology

Green roof and green wall benefits and costs: A review of the quantitative evidence

Maria Manso et al.

Summary: Greening the urban environment through green infrastructures like green roofs and walls can have multiple benefits, but the implementation is limited due to higher costs compared to conventional solutions. Studies show a wide variability in data, making it difficult to compare outcomes.

RENEWABLE & SUSTAINABLE ENERGY REVIEWS (2021)

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Article Thermodynamics

Vertical green walls for noise and temperature reduction - An experimental investigation

Van Tai Tang et al.

Summary: The abundance of heat-trapping asphalt and concrete, smog, and heat emitted from buildings and vehicles is a major reason for high temperature, air and noise pollution in cities. Incorporating green walls in buildings is an effective method to reduce temperature and mitigate environmental pollution. The study compared the performance of climbing green walls and paving green walls for temperature and noise reduction, showing that both types of green walls have excellent effects in reducing temperature and noise pollution.

SCIENCE AND TECHNOLOGY FOR THE BUILT ENVIRONMENT (2021)

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Article Economics

Applying the Degree of Urbanisation to the globe: A new harmonised definition reveals a different picture of global urbanisation

Lewis Dijkstra et al.

Summary: The Degree of Urbanisation provides a new definition for cities and rural areas, showing varying levels of urbanisation globally. Cities have grown in both size and population over the past forty years, with population increasing at a faster rate than urban area expansion, leading to higher population densities. Urban areas as defined by the Degree of Urbanisation closely follow Zipf's law and are positively correlated with economic development levels.

JOURNAL OF URBAN ECONOMICS (2021)

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Article Acoustics

An application of a parametric transducer to measure acoustic absorption of a living green wall

Anna Romanova et al.

APPLIED ACOUSTICS (2019)

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Review Construction & Building Technology

Living walls in indoor environments

Kanchane Gunawardena et al.

BUILDING AND ENVIRONMENT (2019)

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Article Acoustics

Sound Absorption by Green Walls at Normal Incidence: Physical Analysis and Optimization

Emmanuel Attal et al.

ACTA ACUSTICA UNITED WITH ACUSTICA (2019)

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Article Construction & Building Technology

More than just a Green Facade: The sound absorption properties of a vertical garden with and without plants

M. J. M. Davis et al.

BUILDING AND ENVIRONMENT (2017)

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Article Acoustics

The effect of electric vehicles on urban noise maps

Hector Campello-Vicente et al.

APPLIED ACOUSTICS (2017)

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Article Plant Sciences

Acoustic evaluation of modular greenery noise barriers

A. M. Lacasta et al.

URBAN FORESTRY & URBAN GREENING (2016)

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Article Acoustics

Evaluation of green walls as a passive acoustic insulation system for buildings

Z. Azkorra et al.

APPLIED ACOUSTICS (2015)

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Review Acoustics

Using natural means to reduce surface transport noise during propagation outdoors

Timothy Van Renterghem et al.

APPLIED ACOUSTICS (2015)

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Article Construction & Building Technology

Experimental evaluation and modelling of the sound absorption properties of plants for indoor acoustic applications

Francesco D'Alessandro et al.

BUILDING AND ENVIRONMENT (2015)

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Article Environmental Sciences

Numerical study of the impact of vegetation coverings on sound levels and time decays in a canyon street model

G. Guillaume et al.

SCIENCE OF THE TOTAL ENVIRONMENT (2015)

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Article Construction & Building Technology

Influence of rainfall on the noise shielding by a green roof

T. Van Renterghem et al.

BUILDING AND ENVIRONMENT (2014)

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Article Construction & Building Technology

The potential of building envelope greening to achieve quietness

Timothy Van Renterghem et al.

BUILDING AND ENVIRONMENT (2013)

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Article Acoustics

Sound absorption of porous substrates covered by foliage: Experimental results and numerical predictions

Lei Ding et al.

JOURNAL OF THE ACOUSTICAL SOCIETY OF AMERICA (2013)

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Article Acoustics

Acoustic properties of low growing plants

Kirill V. Horoshenkov et al.

JOURNAL OF THE ACOUSTICAL SOCIETY OF AMERICA (2013)

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Article Construction & Building Technology

Vertical greening systems and the effect on air flow and temperature on the building envelope

Katia Perini et al.

BUILDING AND ENVIRONMENT (2011)

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Article Acoustics

Traffic noise spectrum analysis: Dynamic modeling vs. experimental observations

A. Can et al.

APPLIED ACOUSTICS (2010)

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Article Construction & Building Technology

Acoustics evaluation of vertical greenery systems for building walls

Nyuk Hien Wong et al.

BUILDING AND ENVIRONMENT (2010)

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Article Biochemical Research Methods

What a Plant Sounds Like: The Statistics of Vegetation Echoes as Received by Echolocating Bats

Yossi Yovel et al.

PLOS COMPUTATIONAL BIOLOGY (2009)

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Article Psychology, Experimental

Classroom experiments on the effects of different noise sources and sound levels on long-term recall and recognition in children

S Hygge

APPLIED COGNITIVE PSYCHOLOGY (2003)

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