Using Satellite Data to Analyse Raw Material Consumption in Hanoi, Vietnam

In this work, we provide an innovative route for analysing urban expansion and population growth and their link to the consumption of construction materials by combining satellite data with material consumption analysis within the Hanoi Province (Vietnam). Urban expansion is investigated with the use of landcover maps for the period 1975–2020 derived from satellite. During this period, artificial surfaces and agricultural areas have increased by 11.6% and 15.5%, respectively, while forests have decreased by 26.7%. We have used publicly available datasets to calculate and forecast the construction materials consumption and measure its statistical correlation with urban expansion between 2007 and 2018. Our results show that official figures for sand consumption are currently underestimated, and that by 2030, steel and sand and gravel consumption will increase even further by three and two times, respectively. Our analysis uses a new method to assess urban development and associated impacts by combining socio-economic and Earth Observation datasets. The analysis can provide evidence, underpin decision-making by authorities, policymakers, urban planners and sustainability experts, as well as support the development of informed strategies for resource consumption. It can also provide important information for identifying areas of land conservation and ecological greenways during urban planning.

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Research of Properties of Modern Construction Materials Based on Industrial Waste, Waste Wood and Metallurgical Industries

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.802.113 ◽

2019 ◽

Vol 802 ◽

pp. 113-124

Author(s):

Ruslan Aharonovich Abramov ◽

Maksim Sergeevich Sokolov ◽

Svetlana Vyacheslavovna Derevianko

Keyword(s):

Industrial Waste ◽

Building Materials ◽

Raw Materials ◽

Construction Materials ◽

Raw Material ◽

Total Output ◽

Material Consumption ◽

Waste Wood ◽

New Construction ◽

Materials Used

Material consumption of production of building materials is determined by the amount of raw materials used for their production, to the total output. One of the ways to reduce material consumption is the use of industrial waste as the main raw material for the production of new construction products. Most of the waste generated as a result of the activities of enterprises are man-made raw materials for the production of products such as brick, lime, cement, etc.Given that man-made raw materials are similar to the natural composition and physical properties and even has a number of advantages (heat treatment, increased dispersion, etc.), the manufacture of building materials from it is usually profitable and justified [4, 5].

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Space Make the Virtual a Reality: A Web-Based Platform for Visualization and Analysis with Earth Observation Satellite Data

2021 IEEE 7th International Conference on Virtual Reality (ICVR) ◽

10.1109/icvr51878.2021.9483848 ◽

2021 ◽

Author(s):

Wei Wan ◽

Zhenkun Yang ◽

Xingqiang Du ◽

Xinwei Zhao

Keyword(s):

Satellite Data ◽

Earth Observation ◽

Web Based ◽

Earth Observation Satellite

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Continuous-Flow Processes for the Production of Floxacin Intermediates: Efficient C–C Bond Formation through a Rapid and Strong Activation of Carboxylic Acids

Pharmaceutical Fronts ◽

10.1055/s-0040-1722215 ◽

2020 ◽

Vol 02 (03) ◽

pp. e128-e132

Author(s):

Shao-Zheng Guo ◽

Zhi-Qun Yu ◽

Wei-Ke Su

Keyword(s):

Reaction Time ◽

Continuous Flow ◽

Flow System ◽

Bond Formation ◽

Product Yield ◽

Raw Material ◽

Material Consumption ◽

Tank Reactor ◽

Mild Conditions ◽

Flow Processes

AbstractThe development of highly efficient C–C bond formation methods for the synthesis of ethyl 2-(2,4-dichloro-5-fluorobenzoyl)-3-(dimethylamino)acrylate 1 in continuous flow processes has been described, which is based on the concept of rapid and efficient activation of carboxylic acid. 2,4-Dichloro-5-fluorobenzoic acid is rapidly converted into highly reactive 2,4-dichloro-5-fluorobenzoyl chloride by treating with inexpensive and less-toxic solid bis(trichloromethyl)carbonate. And then it rapidly reacts with ethyl 3-(dimethylamino)acrylate to afford the desired 1. This process can be performed under mild conditions. Compared with the traditional tank reactor process, less raw material consumption, higher product yield, less reaction time, higher operation safety ensured by more the environmentally friendly procedure, and process continuity are achieved in the continuous-flow system.

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NATURE-BASED SOLUTIONS FOR CLIMATE RESILIENT BUILDINGS AND CITIES

GEOLINKS Conference proceedings, Book 2 Volume 2 ◽

10.32008/geolinks2020/b2/v2/33 ◽

2020 ◽

Author(s):

Barbara Widera

Keyword(s):

Urban Design ◽

Well Being ◽

Sustainable Growth ◽

Environmental Benefits ◽

Raw Material ◽

End User ◽

Material Consumption ◽

Local Conditions ◽

Sustainable Urbanization ◽

And Performance

The paper addresses the topic of nature-based solutions applied in the architectural and urban design. These ideas are analyzed in the context of the opportunities they create for the humanity in terms of the sustainable growth and environmental protection. Nature-based solutions are inherently taken from nature. The first part of the paper presents their tremendous potential to be energy and resource-efficient, and resilient to change. In the second part of the research particular concepts driven from nature (copied form nature or inspired by nature) proposed for the buildings and cities are described and evaluated. The author discusses their functional usefulness, spatial appropriateness, adaptation to local conditions, end-user comfort, environmental benefits and the possibility of duplication. Nature-based solutions applied in urban planning can make cities more climate resilient and contribute to ecosystems restoration. The paper describes how sustainable urbanization can stimulate economic growth, make cities more attractive and enhance well-being of the inhabitants. It is also explained how particular buildings can benefit from the concepts driven from nature e.g. by increasing their energy efficiency and performance in terms of raw material consumption. In purpose to properly response to the climate challenge, humanity has to establish a new kind of partnership with nature. Using nature-based solutions should be considered as an important part of this approach. The concepts presented in this paper show some of the most promising options, such as integration of living systems with built systems and innovative combinations of soft and hard engineering. In conclusion some of the most promising nature-based solutions for climate resilient buildings and cities are indicated

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Alternative Concrete – Geopolymer Concrete

10.21741/9781644901533 ◽

2021 ◽

Keyword(s):

Mechanical Properties ◽

Fly Ash ◽

Construction Industry ◽

Building Material ◽

Construction Materials ◽

Raw Material ◽

Geopolymer Concrete ◽

Sustainable Solutions ◽

New Construction ◽

Alkali Activated

Concrete is the most versatile, durable and reliable material and is the most used building material. It requires large amounts of Portland cement which has environmental problems associated with its production. Hence, an alternative concrete – geopolymer concrete is needed. The general aim of this book is to make significant contributions in understanding and deciphering the mechanisms of the realization of the alkali-activated fly ash-based geopolymer concrete and, at the same time, to present the main characteristics of the materials, components, as well as the influence that they have on the performance of the mechanical properties of the concrete. The book deals with in-depth research of the potential recovery of fly ash and using it as a raw material for the development of new construction materials, offering sustainable solutions to the construction industry.

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Treatment of Soil Contaminated by Mining Activities to Prevent Contamination by Encapsulation in Ceramic Construction Materials

Materials ◽

10.3390/ma14226740 ◽

2021 ◽

Vol 14 (22) ◽

pp. 6740

Author(s):

Juan María Terrones-Saeta ◽

Jorge Suárez-Macías ◽

Antonio Bernardo-Sánchez ◽

Laura Álvarez de Prado ◽

Marta Menéndez Fernández ◽

...

Keyword(s):

Ceramic Material ◽

Contaminated Soil ◽

Toxic Elements ◽

Construction Materials ◽

Well Being ◽

Ceramic Materials ◽

Potentially Toxic Elements ◽

Raw Material ◽

Mining District ◽

Different Soils

Mining is an essential activity for obtaining materials necessary for the well-being and development of society. However, this activity produces important environmental impacts that must be controlled. More specifically, there are different soils near new or abandoned mining productions that have been contaminated with potentially toxic elements, and currently represent an important environmental problem. In this research, a contaminated soil from the mining district of Linares was studied for its use as a raw material for the conforming of ceramic materials, bricks, dedicated to construction. Firstly, the contaminated soil was chemically and physically characterized in order to evaluate its suitability. Subsequently, different families of samples were conformed with different percentages of clay and contaminated soil. Finally, the conformed ceramics were physically and mechanically characterized to examine the variation produced in the ceramic material by the incorporation of the contaminated soil. In addition, in this research, leachate tests were performed according to the TCLP method determining whether encapsulation of potentially toxic elements in the soil occurs. The results showed that all families of ceramic materials have acceptable physical properties, with a soil percentage of less than 80% being acceptable to obtain adequate mechanical properties and a maximum of 70% of contaminated soil to obtain acceptable leachate according to EPA regulations. Therefore, the maximum percentage of contaminated soil that can be incorporated into the ceramic material is 70% in order to comply with all standards. Consequently, this research not only avoids the contamination that contaminated soil can produce, but also valorizes this element as a raw material for new materials, avoiding the extraction of clay and reducing the environmental impact.

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PULL-OUT RESISTANCE OF SELF-TAPPING SCREWS IN CROSS-LAMINATED TIMBER MADE FROM RADIATA PINE

Proceedings of International Structural Engineering and Construction ◽

10.14455/isec.2020.7(2).mat-11 ◽

2020 ◽

Vol 7 (2) ◽

Author(s):

Xin Li ◽

Mahmud Ashraf ◽

Mahbube Subhani ◽

Paul Kremer

Keyword(s):

Failure Modes ◽

Construction Materials ◽

Structural Response ◽

Radiata Pine ◽

Raw Material ◽

Fibrous Materials ◽

Cross Laminated Timber ◽

Pull Out ◽

Traditional Construction ◽

Penetration Depths

Cross-laminated timber (CLT) is now considered a viable alternative to traditional construction materials both in mid-rise and high-rise structures. The structural response of CLT heavily relies on the type of timber used in manufacturing, and this can vary significantly based on the original source for this naturally grown raw material. Spruce has been widely used in Europe for CLT production, but in Australia, locally available radiata pine is used by XLam for the manufacturing of their CLT panels. Self-tapping screws (STS) are typically recommended by CLT manufacturers and are most commonly used in relevant construction due to their high load carrying capacities and easy installation process. VGS STSs produced by Rothoblaas were used to investigate their composite actions when pulled-out from three-layer XLam CLT panels with thicknesses of 105 mm and 135 mm. VGS screws with 11 mm in diameter were inserted both parallel-to-grain and perpendicular-to-grain on the narrow face of the CLT panels as part of the current study. Typical failure modes as well as critical penetration depths were carefully recorded. Obtained results showed significant increase of pull-out capacity as penetration depths were increased for considered cases. However, experimental results also showed some obvious inconsistencies. These observations clearly demonstrate the challenges associated with working naturally grown fibrous materials and highlights the importance of major research on this field.

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Comprehensive Assessment for Construction Materials’ Environmental Safety

Safety in Technosphere ◽

10.12737/24724 ◽

2016 ◽

Vol 5 (6) ◽

pp. 38-47

Author(s):

Мануйлова ◽

Natalia Manuylova ◽

Булычев ◽

Sergey Bulychev ◽

Горбачев ◽

...

Keyword(s):

Life Cycle ◽

Construction Materials ◽

Environmental Safety ◽

Comprehensive Assessment ◽

Raw Material ◽

Specific Product ◽

Life Cycle Stages ◽

Complete Life Cycle ◽

Environmental Properties ◽

Proper Material

Problems related to a comprehensive assessment of construction materials’ environmental safety, taking into account stages of products’ complete life cycle have been considered. Approaches to determination of material’s safety and environmental record as environmental characteristics of the material, regardless of its use in a specific product, and without regard to processing technology have been described. It has been proposed to consider material’s safety and environmental record as the sum of three environmental safety factors for material’s life cycle stages: production of raw material and its potential environmental hazard; processing of raw material in the material; proper material from the standpoint of its environmental safety and effects on the human body. This criterion application allows compare the environmental properties both of cognate materials and dissimilar ones.

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