The New Rural Residential Building Materials of Low Carbon Mode of Thinking

The main international trends in the world market of construction materials and services have been analyzed. The dynamics of world GDP and exports of construction services for the period 2000-2019 has been studied and a conclusion is made on the impact of economic crises on their growth rates. It has been determined that the dynamics of world exports of construction services is characterized by high instability with peaks of growth and decline, and is more sensitive than GDP growth. It has been noted that overcoming the crisis in the export sector of construction services takes more time and occurs with an approximate two-year time lag compared to GDP dynamics. The share of the construction industry in the world GDP by the degree of development has been analyzed. The reasons for the decline in the share of the construction industry in countries with economies in transition have been substantiated. It has been noted that in the developed countries the share of the construction sector is accounted for by real estate management activities related to maintenance, rent, purchase and sale and other transactions with land and real estate. The forecast values of growth of the market of building materials and services till 2030 have been given. The essence of the term «wide construction» has been revealed and the structure of this sector in different countries of the world is shown. The main exporters in the world construction market have been given and the structural distribution of the largest construction companies in the world ranking by country of origin has been analyzed. The dynamics of income level in the construction industry market for the period 2011-2018 has been studied. It has been noted that an important area of the construction sector is the market of roofing and facade materials and the world's largest companies for the production of this type of construction materials have been revealed. Conclusions on the essence of global transformations of the market of building materials and services have been made, and also it has been defined that they are caused by transnationalization of corporate structure of the market, influence of scientific and technical progress and information and communication technologies on world centers as well as the emergence of the concept of «sustainable construction» in the course of humanity for sustainable development.

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Primary and Secondary Emissions of VOCs and PAHs in Indoor Air from a Waterproof Coal-Tar Membrane: Diagnosis and Remediation

International Journal of Environmental Research and Public Health ◽

10.3390/ijerph182312855 ◽

2021 ◽

Vol 18 (23) ◽

pp. 12855

Author(s):

Rafael Piñeiro ◽

Eva Jimenez-Relinque ◽

Roman Nevshupa ◽

Marta Castellote

Keyword(s):

Organic Compounds ◽

Indoor Air ◽

Building Materials ◽

Coal Tar ◽

Ventilation System ◽

Construction Materials ◽

Residential Building ◽

Secondary Emission ◽

Volatile Organic ◽

Organic Halogens

Primary and secondary emissions of volatile organic compounds (VOCs) and polycyclic aromatic hydrocarbons (PAHs) from a waterproof coal tar membrane and their effect on the indoor air quality were investigated through a case study in a residential building situated in Madrid, Spain. The air contaminants were analyzed in situ using photoionization method and several samples of contaminants were taken using three sorbents: activated carbon, XAD2 and Tenax GR. It was found that various VOCs such as toluene, p- and m-Xylene, PAHs such as naphthalene, methyl-naphthalenes, acenaphthene, acenaphthylene, phenanthrene and fluorine, volatile organic halogens including chloroform and trichlorofluoromethane, and alkylbenzene (1,2,4-trimethylbenzene) were found at concentrations, which exceeded the limits established by international and national agencies (WHO, EPA, OSHA). Some of the above organic compounds were found also in the samples of construction and building materials, which were obtained at different heights and places. The analysis of possible sources of the contaminants pointed at the original coal-tar membrane, which was applied on the terrace to be waterproof. During a posterior reparation the membrane was coated with a new one that hindered dissipation of emitted contaminants. The contaminants leached out and were absorbed by construction materials down in the dwelling. These materials then acted as secondary emission sources. To remediate the emission problem as the contaminated materials were removed and then a ventilation system was installed to force the gasses being emitted from the rest of contaminated slab outside. Follow-up has validated the success of the remediation procedure.

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Carbon footprint evaluation of local dwellings in Bangladesh towards low carbon society

Built Environment Project and Asset Management ◽

10.1108/bepam-01-2021-0018 ◽

2021 ◽

Vol ahead-of-print (ahead-of-print) ◽

Author(s):

Rezuana Islam ◽

Sajal Chowdhury ◽

Nusrat Jannat ◽

Pranjib Paul

Keyword(s):

Carbon Footprint ◽

Carbon Emission ◽

Building Materials ◽

Assessment Tool ◽

Hybrid Methods ◽

Construction Materials ◽

Field Studies ◽

Low Carbon ◽

Content Type ◽

Construction Techniques

PurposeLocal dwellings of Bangladesh have specific environmental characteristics. These dwellings extensively use locally available materials and construction techniques. Therefore, carbon footprint (CF), as a prominent environmental parameter, is greatly affected by construction materials and techniques. Nonetheless, scientific justification is limited to evaluate CF of these dwellings in Bangladesh according to different local construction materials. The main purpose of this study is to evaluate different rural dwellings’ CF for both construction and operational phases toward the development of low carbon society in Bangladesh.Design/methodology/approachFor evaluating CF, literature review and field studies were conducted to specify and categorize cases. An intensive field monitoring and occupant's survey were performed during summer. A widely recognized compliant database and assessment tool “Ecoinvent v3” was used based on International Organization for Standardization (ISO) 14040 and 14044. Quantitative and qualitative data were collected to evaluate constructional and operational stages of carbon emission using hybrid methods formed by process-based and economic input–output life cycle analysis (EIO-LCA) approaches.FindingsThe study indicates that different building materials significantly impact on dwelling's amount of carbon emission according to construction techniques. Brick dwelling's construction stage carbon emission was nearly 3.86 times higher than timber, whereas, 6.75 times higher than mud dwelling. In terms of operational stage, local brick dwelling emits higher carbon compared to others relating to occupants’ lifestyle and activities.Originality/valueThis study will contribute to helping professionals and policy-makers to interpret and evaluate architectural design and construction processes for improving low-carbon dwellings in Bangladesh.

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Building a more Resilient and Low-Carbon Caribbean - Report 1: Climate Resiliency and Building Materials in the Caribbean

10.18235/0003842 ◽

2021 ◽

Author(s):

Jed Bailey ◽

Paola Carvajal ◽

Javier García Fernández ◽

Christiaan Gischler ◽

Carlos Henriquez ◽

...

Keyword(s):

Building Materials ◽

Construction Materials ◽

Climate Impact ◽

Climate Impacts ◽

Economic Losses ◽

Caribbean Region ◽

Low Carbon ◽

Caribbean Islands ◽

Standards Of Living ◽

The Caribbean

The Caribbean islands are among the 25 most-vulnerable nations in terms of disasters per-capita or land area, and climate change is only expected to intensify these vulnerabilities. The loss caused by climate events drags the ability of the Caribbean countries to invest in infrastructure and social programs, contributing to slower productivity growth, poorer health outcomes, and lower standards of living. Within this context, building resiliency should become a priority for the Caribbean countries. The series “Building a more resilient and low-carbon Caribbean”, focuses on improving the resiliency, sustainability and decarbonization of the construction industry in the Caribbean. The results show that increasing building resiliency is economically viable for the high-risk islands of the Caribbean, generating long term savings and increasing the infrastructure preparedness to the impacts of CC. Report 1 - Climate Resiliency and Building Materials in the Caribbean, presents a quantification of the economic losses caused by climate impact events in the Caribbean Region and correlate these figures with the most common construction materials, typically used in each of the countries building typologies. The losses caused by hurricanes concentrate mostly in the residential infrastructure and are mainly caused by weaknesses in roofs and their connection to the walls. The analysis suggests that improving the resiliency of outer walls and roofs in the Caribbean could significantly reduce the regions vulnerability to hurricanes and other climate impacts.

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Building a More Resilient and Low-Carbon Caribbean - Report 2: Analysis of the Benefits from Resilient Building Materials and Construction Methods in the Caribbean

10.18235/0003855 ◽

2021 ◽

Author(s):

Jed Bailey ◽

Paola Carvajal ◽

Javier García Fernández ◽

Christiaan Gischler ◽

Carlos Henriquez ◽

...

Keyword(s):

Construction Industry ◽

Building Materials ◽

Social Programs ◽

Low Carbon ◽

Land Area ◽

Caribbean Islands ◽

Construction Methods ◽

Standards Of Living ◽

The Caribbean ◽

Climate Events

The Caribbean islands are among the 25 most-vulnerable nations in terms of disasters per-capita or land area, and climate change is only expected to intensify these vulnerabilities. The loss caused by climate events drags the ability of the Caribbean countries to invest in infrastructure and social programs, contributing to slower productivity growth, poorer health outcomes, and lower standards of living. Within this context, building resiliency should become a priority for the Caribbean countries. The series “Building a more resilient and low-carbon Caribbean”, focuses on improving the resiliency, sustainability and decarbonization of the construction industry in the Caribbean.

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ECOLOGY IN MULTI-STORY RESIDENTIAL BUILDINGS-INTERDEPENDENCY BETWEEN ECOLOGY AND COSTS OF BUILDING MATERIALS

Proceedings of International Structural Engineering and Construction ◽

10.14455/isec.res.2019.62 ◽

2019 ◽

Vol 6 (1) ◽

Author(s):

Daniela Koppelhuber ◽

Johannes Wall

Keyword(s):

Building Materials ◽

Material Selection ◽

Residential Buildings ◽

Ecological Impact ◽

Construction Materials ◽

Residential Building ◽

Ecological Impacts ◽

Assessment Tools ◽

Construction Costs

More than 95% of multi-story residential buildings in Austria are currently predominantly constructed with conventional mineral construction materials. This fact combined with the increasing demands for a healthy residential living atmosphere demonstrates the great potential for using ecological materials. Life cycle assessments provide information on the ecological performance of buildings, but the corresponding economical aspects are not considered. Nevertheless, the economic aspects of a certain draft are important to clients and designers. Therefore, simplified assessment-tools are needed that take into account the ecological impact as well as the building costs. This paper presents the results of an investigation supplemented by a case study of a multistory residential building, which was finished 2016 in Austria, illustrating the differences between the state-of-the-art material selection and ecologically optimized alternatives. The ecological impacts and the costs for the selected building-system were determined based on the case study. Subsequently, ecological optimization potentials were identified according to the environmental indicator OI3. Finally, the effects on component and construction costs were evaluated. The steps of this simplified process reveal the interdependency between ecological aspects and the costs of materials. This procedure represents a decision-making tool that can be used by clients as well as designers. The results of this research emphasize the large environmental impact improvements with little expenses when implementing sustainability in multi-story residential buildings as a crucial part of a green design.

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Fundamentals of Geopolymers and Related Alkali Activated Materials

Materials Science Forum ◽

10.4028/www.scientific.net/msf.803.144 ◽

2014 ◽

Vol 803 ◽

pp. 144-147 ◽

Cited By ~ 2

Author(s):

J. Temuujin ◽

A. Minjigmaa ◽

U. Bayarzul ◽

Ts. Zolzaya ◽

B. Davaabal ◽

...

Keyword(s):

Fly Ash ◽

Building Materials ◽

Raw Materials ◽

Construction Materials ◽

Materials Chemistry ◽

Low Carbon ◽

Pond Ash ◽

Sustainable Usage ◽

By Products ◽

Alkali Activated

With the increasing rate of depletion of natural raw materials for production of building materials, their sustainable usage is clearly an important topic for consideration. For instance, 1 tonne ordinary Portland cement (OPC) requires 1.7 tonnes of raw materials, 1.0 tonne of coal and 100 kWh of electricity. One tonne of cement emits 0.8 - 1 tonne of CO2 into atmosphere globally contributing ~5% of total manmade carbon dioxide. Therefore, the development of new, sustainable, low carbon footprint construction materials is an important task for materials scientists and civil engineers. One type of binder that is attracting particular attention around the world is alkali-aluminosilicate chemistry based material the so-called geopolymers. In this presentation we will discuss the fundamentals of geopolymer chemistry and the similarities to and differences from conventional alkali activated materials chemistry. Particular attention will be given to our latest results on the preparation of geopolymer type paste and concrete from fly ash. Mechanical activation of fly ash caused a decrease in porosity with a partial amorphisation of the crystalline constituents. Geopolymer type paste prepared from 30 minute milled Darkhan pond ash showed increase in 7 day compressive strengths by 7 times reaching of 15.4 (4.6) MPa. Keywords: Geopolymer binder, alkali-activated materials, coal combustion by products

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Research on the Sustainable Development of Traditional Dwellings

Sustainability ◽

10.3390/su11195333 ◽

2019 ◽

Vol 11 (19) ◽

pp. 5333 ◽

Cited By ~ 2

Author(s):

Hai-fan Wang ◽

Shang-chia Chiou

Keyword(s):

Sustainable Development ◽

Building Materials ◽

Global Climate ◽

Space Structure ◽

Low Carbon ◽

The Sustainable Development ◽

Space Planning ◽

Wooden Frame ◽

Construction Methods

Balustrade architecture is mainly distributed in south and southwest China and southeast Asia. Dai dwellings in Yunnan, China, are a typical balustrade dwelling. Traditional dwellings of Dai contain the concepts of architecture, physics, ecology, and sustainability in space planning, building materials, and construction methods. At a time when the global climate environment is deteriorating and energy saving, emission reduction, and low-carbon life are advocated, Dai dwellings should be studied from the perspective of sustainable development, from which we can draw lessons and inspiration. This paper investigated plane layout, space structure, and materials of Dai dwellings, and found that traditional Dai dwellings are wooden frame structures with wood and bamboo; the roof has two layers and long overhang eaves, which is good for diverting rain water, shading and shelter, and integrating the building with the natural landscape as well. Analyzing the spatial characteristics and problems of Dai dwellings at present, discussing the sustainable development ideas of Dai dwellings, constructing Dai dwellings with low energy consumption and high quality of life, combining traditional culture with ecological technology, and designing a sustainable new green living model are beneficial to the inheritance of Dai residence culture.

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Promoting building materials that have lower embodied carbon and energy in public procurements

Management of Environmental Quality An International Journal ◽

10.1108/meq-07-2015-0154 ◽

2016 ◽

Vol 27 (6) ◽

pp. 722-739

Author(s):

Kristel Rebane ◽

Alvina Reihan

Keyword(s):

Building Materials ◽

Construction Materials ◽

Residential Building ◽

Embodied Energy ◽

Sound Insulation ◽

Content Type ◽

Embodied Carbon ◽

Efficient Alternative ◽

Concrete Elements ◽

Clear Information

Purpose The purpose of this paper is to propose a more carbon efficient alternative design using engineered timber components over reinforced concrete elements to a recently completed non-residential building located in Tallinn, Estonia. Also to promote building materials that have proved to have lower embodied carbon and energy. Design/methodology/approach The paper is based on data collected from the original project drawings, embodied carbon and embodied energy values of construction materials under comparison which are based on Inventory of Carbon & Energy database and on the research conducted in Finland that focussed on wooden building products. The engineered timber solution is designed in accordance with relevant regulations and laws including requirements for fire safety and sound insulation. Findings Buildings embodied carbon and embodied energy can be reduced by using proposed engineered timber materials. Research limitations/implications The outcome of current research is limited and applies only to the reference building and its proposed alternative, therefore it should be taken into consideration before any use. Still it provides clear information that using more carbon efficient materials can significantly reduce the carbon footprint of a building. Practical implications The outcome can be used as a tool promoting materials with a lower embodied carbon and energy in public procurements. Originality/value This study comparing buildings enclosure system alternatives as a whole by allowing to choose more environmentally friendly solution is the first in Estonia.

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