Search results for "Building material"

showing 10 items of 42 documents

Vernacular and bioclimatic architecture and indoor thermal comfort implications in hot-humid climates: An overview

2018

Abstract Sustainable urban development, especially in disadvantaged regions, has increasingly gained a major strategic priority. New settlements and urban regeneration programs have to achieve an improvement of social life quality, promote economic growth and increase environmental protection practices and proper use of local resources. In this framework, building environment development must exploit natural resources with responsible approach by using local materials and traditional techniques. In this end, indoor comfort and energy consumption have to match the territories needs. Low energy and passive heating/cooling techniques should be considered as a valid option in many building proj…

Architectural engineeringEngineeringSettore ING-IND/11 - Fisica Tecnica AmbientaleExploitRenewable Energy Sustainability and the Environmentbusiness.industry020209 energymedia_common.quotation_subjectSettore ICAR/14 - Composizione Architettonica E UrbanaThermal comfortNatural ventilation02 engineering and technologyEnergy consumptionNatural resourceSettore ICAR/12 - Tecnologia Dell'ArchitetturaUrban planningSustainable development Vernacular architecture Natural building materials Adaptive comfort model PMVe / aPMV / POR method0202 electrical engineering electronic engineering information engineeringQuality (business)Architecturebusinessmedia_common
researchProduct

Impact of Different Building Materials on Summer Comfort in Low-Energy Buildings

2015

Abstract The aim of the current paper is to analyse thermal comfort and overheating risks in the low-energy buildings in a summer season under Latvian climate conditions both experimentally and numerically. An interior temperature and relative humidity are analysed under free-floating conditions. Two cases are analysed: in one case, the solar influence through the window is taken into account; in the other this influence is omitted. Three different building solutions are observed: two building structures which mainly consist of the mineral wool and wooden materials and one structure from aerated clay bricks and mineral wool. The experiments have been implemented in test stands in Riga, Latv…

Architectural engineeringbuilding materialsLow energylow-energy buildingthermal comfortsummer overheatingPhysicsQC1-999General EngineeringGeneral Physics and Astronomytest buildingsLatvian Journal of Physics and Technical Sciences
researchProduct

Architectural technologies for life environment: improving sustainability by reusing wastes in novel geopolymeric mortars

2021

Recently, implementing construction to a more sustainable industry has become a focal point in the international debate due to the huge volume of non-renewvable raw materials and energy consumed every year, along with the significant emissions of green-house gases and global warming, often associated to the supplementing industries. Besides, valorisation and reuse of industrial wastes and by-products is a viable alternative to the traditional industrial system, becoming a compelling topic to improve processes and materials sustainability. This paper fo- cuses on the development of a novel class of green geopolymers, worldwide considered a solid and sustainable alternative to Portland cement…

Architectural technologies Building materials Sustainability Architecture Industrial scale up Cost analysis WasteSettore ICAR/10 - Architettura Tecnica
researchProduct

Life cycle assessment of building materials: A comparison by electre methodology

1996

There is a growing awareness that in selection of building materials the designer must also consider environmnental impacts, either in global and local scale. Unfortunately, design community has an inadequate knowledge about the factors that affects environmental consequences of producing and operating buidings. To increase understanding on selection criteria and comparison of building alternatives in an “energy and environmental point of view”, is a significant goal for restraining gloabl enevironmental degradation. An interesting approach for assessing comparable products is the so called “multicriteria decision making”, but there is much debate about aggregation of criteria and weights a…

Arts and Humanities (all)Engineering (all)Settore ING-IND/11 - Fisica Tecnica AmbientaleBuilding materialEvaluation toolLife cycle analysi
researchProduct

A numerical solution that determines the temperature field inside phase change materials: application in buildings

2013

The use of novel building materials that contain active thermal components would be a major advancement in achieving significant heating and cooling energy savings. In the last 40 years, Phase Change Materials or PCMs have been tested as thermal mass components in buildings, and most studies have found that PCMs enhance the building energy performance. The use of PCMs as an energy storage device is due to their relatively high fusion latent heat; during the melting and/or solidification phase, a PCM is capable of storing or releasing a large amount of energy. PCMs in a wall layer store solar energy during the warmer hours of the day and release it during the night, thereby decreasing and sh…

Building constructionSettore ING-IND/11 - Fisica Tecnica AmbientaleMaterials scienceFDMbusiness.industryStrategy and Managementthermal storageMechanical engineeringthermal storage phase change materials building materials FDMSolar energyThermal energy storageEnergy storagebuilding materialsphase change materialsLatent heatPhase (matter)ThermalThermal massbusinessSandwich-structured compositeTH1-9745Civil and Structural EngineeringJournal of Civil Engineering and Management
researchProduct

Ultrasonic nondestructive testing of building materials for the diagnosis and characterization of the decay due to salts crystallization

2020

The possibility to use ultrasonic nondestructive testing for the diagnosis and characterization of decay in building materials due to salts crystallization is here investigated. Salts crystallization is one of the main sources of decay for stone materials, especially for cultural heritage items underwater or exposed to water, and its early detection as well as a continuous monitoring is highly desirable. Currently, this often requires the use of destructive methods and the sampling of the items under inspection. This work shows promises to the successful use for this purpose of ultrasonic nondestructive testing.

Building materials Nondestructive evaluation Salt crystallization UltrasonicUltrasonicSalt crystallizationBuilding materialsNondestructive evaluationSettore GEO/09 -Georis. Miner.e Appl.Mineral.-Petrogr. per l'Ambi.ed i B.Cult.
researchProduct

Būvmateriali: mūrnieka amata kursa (pēc Latvijas amatniecības kameras meistaru pārbaudes programas) lekciju konspekts

1939

BūvmateriāliBūvniecība:TECHNOLOGY::Civil engineering and architecture::Building engineering [Research Subject Categories]Building materialsBaumaterial
researchProduct

Valorisation of industrial iron oxide waste to produce magnetic barium hexaferrite

2016

Barium M-type hexagonal ferrite (BaM, BaFe12O19) is an immensely important magnetic material, which we have successfully made from the simple valorisation of Fe-rich industrial waste from steel wire drawing, with addition of BaCO3 and heating in air to 1000 degrees C. The optimum ratio of Fe. Ba (producing 86 wt% BaM) was found to be 11: 1 (non-stoichiometric), and secondary phases of alpha-Fe2O3 (non-magnetic) and ZnFe2O4 (poorly antiferromagnetic) were always present. This material consisted of small submicron platelets. A hard magnetic ferrite was produced with Ms=48.6 A m(2) kg(-1) and H-c=211.5 kA m(-1). The highest density was achieved by sintering samples with Fe: Ba ratios of 11: 1 …

CeramicsMaterials scienceMagnetic PropertiesFERRITESSettore ING-IND/22 - Scienza e Tecnologia dei MaterialiIron oxideSettore ICAR/10 - Architettura Tecnica02 engineering and technology010402 general chemistrySustainable Chemistry01 natural sciences7. Clean energychemistry.chemical_compoundCeramics; Ferrites; Magnetic Properties; Sustainable Chemistry; Waste preventionFerritesSettore CHIM/03 - Chimica Generale e InorganicaWaste managementMetallurgySettore CHIM/07 - Fondamenti Chimici delle TecnologieGeneral ChemistryBarium hexaferrite021001 nanoscience & nanotechnology0104 chemical sciencesferrite manufacturing building material filler sustainabilitychemistryCERAMICSWaste preventionValorisation0210 nano-technologyWaste prevention
researchProduct

Masonry Compressive Strength Prediction Using Artificial Neural Networks

2019

The masonry is not only included among the oldest building materials, but it is also the most widely used material due to its simple construction and low cost compared to the other modern building materials. Nevertheless, there is not yet a robust quantitative method, available in the literature, which can reliably predict its strength, based on the geometrical and mechanical characteristics of its components. This limitation is due to the highly nonlinear relation between the compressive strength of masonry and the geometrical and mechanical properties of the components of the masonry. In this paper, the application of artificial neural networks for predicting the compressive strength of m…

Computer science0211 other engineering and technologiesSocial SciencesCompressive strength020101 civil engineering02 engineering and technology0201 civil engineeringEngenharia e Tecnologia::Engenharia CivilBack-Propagation Neural Networks (BPNNs)11. Sustainability021105 building & constructionMasonryArtificial Neural Networks (ANNs)Science & TechnologyArtificial neural networkbusiness.industryMasonry unitArts & HumanitiesStructural engineeringMasonryMortarSettore ICAR/09 - Tecnica Delle CostruzioniNonlinear systemSoft-computing techniquesCompressive strengthBuilding materialsBuilding materialMortarbusiness
researchProduct

Strategies for waste recycling : the mechanical performance of concrete based on limestone and plastic waste

2022

Recycling is among the best management strategies to avoid dispersion of several types of wastes in the environment. Research in recycling strategies is gaining increased importance in view of Circular Economy principles. The exploitation of waste, or byproducts, as alternative aggregate in concrete, results in a reduction in the exploitation of scarce natural resources. On the other hand, a productive use of waste leads to a reduction in the landfilling of waste material through the transformation of waste into a resource. In this frame of reference, the paper discusses how to use concrete as a container of waste focusing on the waste produced in limestone quarries and taking the challenge…

Concrete -- RecyclingEnvironmental effects of industries and plantsConcrete -- AdditivesAggregates (Building materials) -- RecyclingRenewable Energy Sustainability and the EnvironmentGeography Planning and DevelopmentTJ807-830Building and ConstructionManagement Monitoring Policy and Lawconcrete; waste recycling; plastic; limestone; sustainability; mechanical performancesustainabilityTD194-195Construction industry -- Waste disposalConcrete Limestone Mechanical performance Plastic Sustainability Waste recyclingmechanical performanceRenewable energy sourcesEnvironmental sciencesSettore ICAR/09 - Tecnica Delle Costruzioniplasticwaste recyclingconcreteGE1-350Sustainable constructionlimestone
researchProduct