Green Walls for Urban Climate Mitigation

Bagh-e Nazar, 2018

tatement of the problem: The speed with which cities develop cause disruptions to the environment and create problems such as air pollution. Air pollution management programs are often focused on controlling the sources that are producing the pollutants. This method can effectively reduce the level of new air pollutants but it is does not have any effect on existing pollutants that are already in the air. This paper, by accepting the current state is looking to control air pollution in order to reduce the level of harm to humans through architecture, municipal engineering, and the effect of facade structures. The capabilities that nature itself has in controlling air pollution have entered the field of architecture. Three of these capabilities will be studied: water facades, algae facades and green live facades. Purpose: One of the most important approaches in architecture and municipal engineering is paying attention to nature as a model and solution to environmental problems. The main purpose of this research is to have a better understanding of how bio-based walls promote air quality and reduce pollutants and how to create a more productive bio-facade. Research method: Because this research is interdisciplinary, combinative methods need to be used in order in undertake this research. The majority of the resources for this paper have been through libraries and available references; however, in order to further expand there is a need for combining the research from interdisciplinary fields. Because there is a lack of quantitative data about each system’s performance, the systems will be introduced through tables and their strengths and weaknesses will be identified. The research will then be applied to practical methods, which will allow for the qualitative comparison of these systems. The most productive method will be chosen. Conclusion: Based on all stages of this paper, and by considering the qualitative comparison of 3 bio-based facades and studying each system’s strengths and weaknesses, it should be acknowledged that green facades, can present a suitable structure for controlling Tehran’s air pollution. In regards to plans and predictions of Tehran’s municipality about beautification, it should be acknowledged that green facades have a higher chance for short-term productivity in solving this problem in the capital.

Journal of Cleaner Production, 2021

A major concern in urban areas is the low quality of air, with high levels of particulate matter (PM), consisting of black carbons, volatile organic compounds and various pollutants that are hazardous for the human health and the global environment. Thus, there is an urgent need to decrease air pollution by implementing various short and long-term measures. One of the methods for decreasing air pollution in urban areas is increasing the green infrastructure as plants absorb the particulate matter through their leaves and stems. The initial step in dealing with this problem is raising the public awareness, which is generally low in Skopje and the Balkan region. The aim of the research is to quantify the positive effects on green infrastructure on air pollution and provide research-based inputs that can be used by local governments and decision makers. This paper presents data from continuous measurements on a location in Skopje, provides an assessment of the influence of green zones on air quality in urban areas and correlates it with meteorological factors. This is achieved by using an innovative, low-cost, easy replicable and energy-efficient system, consisted of green wall and stations for monitoring the air quality which are based on wireless sensor network technology. By using statistical tools as Freidman and Mann-Whitney tests, the impact of the relative position of the measurement sensors and the green areas and other objects to the PM concentrations is quantified. The performed analyses confirm that green areas, including green walls, have a high impact in the reduction of PM concentrations in their proximity. The differences in measured values obtained by measurement nodes positioned in relatively small distances are not negligible, thus implying that the relative position of the measurement nodes to the green infrastructure influences the measured PM concentrations. Therefore, the measurement location should be carefully considered for any air quality monitoring system. Measurements with higher spatial granularity should be used for modelling and air quality forecasting purposes. The results in this paper show that the green area mitigates the PM of 2.5 or less micrometers (PM2.5) on average by 25% and PM of 10 or less micrometers (PM10) on average by 37% compared to the neighboring non-green areas. The results show a strong correlation between PM2.5 and PM10. In Skopje, the combination of low temperatures, high humidity and no, or low wind speed lead to high PM concentrations. The presented algorithm compares the statistically obtained data to the reference categories from WHO (from very low to very high, with reference to PM2.5). The described methodology is used to develop a simple decision-making support algorithm for local governments to support their decisions on applying PM mitigation measures.

2020

The use of green walls (also commonly referred to as living walls or vertical gardens) is not a new concept in building envelopes. Integrating vegetation in architectural structures may be a sustainable approach to the construction of façades of the new and existing structures. Green walls belong to the highly innovative and the fastest developing concepts of green building technology. This fact is supported by the examples of structures originally built with green walls which greatly add to the total visual appeal of buildings and are an important factor in the improvement of their thermal characteristics. Green walls have their own aesthetic values which are in direct correlation with human interaction aimed at creating visual diversity within urban spaces. Artistic perception of green walls of the recent era has radically changed, along with the new technological possibilities, their further development and application in the designing effort to formulate shape and materialization as a spatial structure with the already known aspects of traditional modelling. Green walls appear in space as elements carrying artistic application and sculptural creation in spatial architectural form of structures. Greening and preserving urban spaces have become important issues in considering conditions for designing architectural structures and redefining the relation between technology, energy and shaping, with the possibility of applying green walls in the architectural transformation process of the urban space. Green walls have raised new aesthetic issues, which are in direct correlation with technical solutions.

2012

This work is formulating some of the factors leading towards the reduction of carbon emission into the environmental connecting with architectur and urbanistics. Within the architectural context, the emphasis will be put on the utilisation of the solar energy and its possible benefits. Further to that we will talk about a second pollution reducing factor, namely the use of low embodied energy materials in buildings. Here the role of adobes will be considered. While in connection to the urbanistics the optimal road network and the importance of the cycle tracks will be considered. The presented results are illustrated by case studies, carried out in Hungary.

Sustainability

In the 21st century, sustainable development is high on the international agenda, with the implementation of green walls contributing significantly to achieving environmental and social benefits, mainly in the frame of sustainable improvement of the building sector. The installation of a greening system can provide engineered solutions for stormwater management and climate change mitigation at both the urban and building level. This facilitates improving indoor comfort conditions and reducing energy needs. In order to improve the features of products and to facilitate the implementation of a proper technical standard, this paper proposes a critical bibliographic analysis of more recent scientific works. Moreover, by means of a numerical model of an existing single-family apartment, placed in the Mediterranean climate zone, a building envelope refurbishment with a living wall is carried out. A parametric analysis provides evidence for the application of different plants’ types and in...

3rd.International Conference on Architecture, Civil Engineering, Urban Development and Environment, 2024

This article explores the benefits of green facades in improving indoor air quality (IAQ) and their potential impact on energy efficiency. Green facades, also known as living walls or vertical gardens, are vertical structures covered with plants that can be installed both indoors and outdoors. They have gained attention in the field of sustainable architecture due to their ability to provide multiple advantages, including enhanced IAQ and energy efficiency. The research presented in this article is based on a comprehensive review of existing literature, real-world data, and simulation tools. The findings highlight the significant role of green facades in air purification, the reduction of harmful pollutants, and the overall well-being of building occupants. Green facades act as natural insulators, minimizing heat absorption in the summer and heat loss in the winter, thus reducing the energy needed for cooling and heating a building. The article also discusses the various types of green facades, such as direct greening, indirect greening, and living wall systems, and their potential applications in different climate conditions and building types. Additionally, it provides a visual representation of the process by which green facades contribute to improving IAQ, including the absorption of carbon dioxide and harmful air pollutants. The effectiveness of green facades in improving IAQ and energy efficiency remains significant. Incorporating green facades into smart building design can contribute to creating healthier and more sustainable indoor environments, reduce air pollution, and enhance the well-being of building occupants.

-Air pollution caused by machines and motor vehicles are a major source of today's pollution.

2014

The integration of vegetation in urban areas is a constantly evolving research fi eld. However, green envelopes (especially the most innovative vertical greening systems) are not yet fully accepted as an environmental quality restoration and energy-saving method for the built environment, due to the lack of data needed to quantify their effects and to evaluate the real sustainability (environmental and economic) of these. The many systems available on the market allow combining nature and built space to improve the environmental quality in urban areas; green façades, living wall systems offer more surfaces with vegetation and, at the same time, contribute to the improvement of the thermal performance of buildings. From a functional point of view, vertical greening systems often demand a complex design, which must consider a major number of variables. In the case of vertical greened surfaces, there are numbers of systems to green façades with or without windows, starting from a simple disposition of climbing plants at the base of the façade. Vertical greening systems' characteristics and materials involved can either positively or negatively infl uence theirs performances, with respect to the improvement of the building envelope effi ciency and microclimate conditions (cooling potential and the insulation properties), and the environmental burden produced during their life span (installation, maintenance, disposal, etc.). This paper analyses characteristics, advantages and critical aspects of four common vertical greening systems, with special attention to micro-scale benefi ts (the benefi ts most related to the systems peculiarities) and to environmental sustainability.

By: Faranak faraji

Abstract Reclaiming modern architecture results from its less green space evadible for occupants. Lack of green spaces increases heat, smog and pollution in urban areas so applying green wall and roof system moderates the contaminations and leaving the cities as more pleasant places to live. Biodiversity, pockets of epiphytes and saxicolesare are economic useful techniques to enhance impoverished environments, seasonal drought, aesthetics, etc. architectures usually use granite, marble, sculptures, water features, glass balcony balustrades, privacy screens between apartments but all can be replaced by green walls. We hope that green walls an green roofs become a chance to survive endangered plants as a new ecosystem. A green wall can make a brick wall into an attractive, with intimate living and decorated wall. Keywords: Green wall, how to implement and the benefits of green wall, urban environment.

2018