International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
REPAIR, REHABILITATION &RETROFITTING OF RCC FOR SUSTAINABLE DEVELOPMENT WITH ...civej
The construction material mainly reinforced concrete is being used extensively for various types of
construction projects. However, the deterioration of Reinforced Concrete structures is recognized as a
major problem worldwide. Apart from requiring regular maintenance, many structures require extensive
Repair, Rehabilitation &Retrofitting. Over a period of time, as these structures become older, we find in
them certain degradation or deterioration with resultant distress manifested in the form of cracking,
splitting, delaminating, corrosion etc. Such deteriorated structures can be rehabilitated and retrofitted by
using various types of admixtures & modern repair materials. The paper brings out the present state of
concrete structures & the major areas where improvement is needed during its service life stage for
sustainable development & also the method of carrying out Repair, Rehabilitation &Retrofitting.This has
been brought in details in the paper along with Case studies, where the Author of the paper was directly
involved in planning and execution of the jobs.
REHABILITATION/RETROFITING OF CONCRETE STRUCTURES ALONG WITH CASE STUDYcivej
The construction material mainly concrete is being used extensively for various types of construction
projects. However, the deterioration of Reinforced Concrete structures is recognized as a major problem
worldwide. Apart from requiring regular maintenance, many structures require extensive
Repair/Rehabilitation/Retrofitting. Over a period of time, as these structures become older, we find in them
certain degradation or deterioration with resultant distress manifested in the form of cracking, splitting,
delaminating, corrosion etc. Such deteriorated structures can be rehabilitated and retrofitted by using
various types of admixtures & modern repair materials. The paper brings out the present state of concrete
structures & the major areas where improvement is needed during its service life stage for sustainable
development & also the method of carrying out Repair/Rehabilitation/Retrofitting.This has been brought in
details in the paper along with Case study, where the Author of the paper was directly involved in planning
and execution of job.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
REPAIR, REHABILITATION &RETROFITTING OF RCC FOR SUSTAINABLE DEVELOPMENT WITH ...civej
The construction material mainly reinforced concrete is being used extensively for various types of
construction projects. However, the deterioration of Reinforced Concrete structures is recognized as a
major problem worldwide. Apart from requiring regular maintenance, many structures require extensive
Repair, Rehabilitation &Retrofitting. Over a period of time, as these structures become older, we find in
them certain degradation or deterioration with resultant distress manifested in the form of cracking,
splitting, delaminating, corrosion etc. Such deteriorated structures can be rehabilitated and retrofitted by
using various types of admixtures & modern repair materials. The paper brings out the present state of
concrete structures & the major areas where improvement is needed during its service life stage for
sustainable development & also the method of carrying out Repair, Rehabilitation &Retrofitting.This has
been brought in details in the paper along with Case studies, where the Author of the paper was directly
involved in planning and execution of the jobs.
REHABILITATION/RETROFITING OF CONCRETE STRUCTURES ALONG WITH CASE STUDYcivej
The construction material mainly concrete is being used extensively for various types of construction
projects. However, the deterioration of Reinforced Concrete structures is recognized as a major problem
worldwide. Apart from requiring regular maintenance, many structures require extensive
Repair/Rehabilitation/Retrofitting. Over a period of time, as these structures become older, we find in them
certain degradation or deterioration with resultant distress manifested in the form of cracking, splitting,
delaminating, corrosion etc. Such deteriorated structures can be rehabilitated and retrofitted by using
various types of admixtures & modern repair materials. The paper brings out the present state of concrete
structures & the major areas where improvement is needed during its service life stage for sustainable
development & also the method of carrying out Repair/Rehabilitation/Retrofitting.This has been brought in
details in the paper along with Case study, where the Author of the paper was directly involved in planning
and execution of job.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
Controlling and Reducing of Speed for Vehicles Automatically By Using Rf Tech...IJERA Editor
For vehicle safety and safety for passengers in vehicle is an important parameter. Most of the vehicles get
accident because no proper safety measures are taken especially at curves and hair pin bends humps and any
obstacles in front of the vehicle. This system can be used for the prevention of such a problem by indicating a
pre indication and also reducing the speed of vehicles by reducing the fuel rate of vehicle. As the action is in
terms of fuel rate so the vehicle automatically goes to control and avoids the accidents. At curves and hair pin
bends the line of sight is not possible for the drivers so the special kind of transmitter which is tuned at a
frequency of 433MHZ are mounted as these transmitters continuously radiate a RF signal for some particular
area. As the vehicle come within this radiation the receiver in the vehicle gets activate. The transmitter used here
is a coded transmitter which is encoded with encoder. The encoder provides a 4 bit binary data which is serially
transmitted to transmitter. The transmitter used here is ASK type (amplitude shift keying) which emits the RF
radiation.
Land Use and Land Cover Change Detection in Tiruchirappalli District Using Re...IJERA Editor
Land use and land cover is dominant role in the part of urbanization. As the rapid urbanization led various activities
in a region and these changes generally takes place in the agricultural land and caused decrease of arable land .The
satellite imageries LANDSAT 5TM (1990), LANDSAT 7ETM (2000) AND LISS 111 (2010) data’s are used. The
scales are 1:50,000. 1990, 2000 and 2010 covering a period of 19 years the aerial distribution of the land use and
land cover changes has been observed. The changes were identified ,in which the decrease of Agricultural land,
Natural vegetation , Scrub land and Water body and increase of Built up land, Fallow land, River sand and Without
scrub land. The land use and land cover maps are prepared by using GIS software to evaluate the changes and it is
showed strong variation.
D´ALIGRE RESIDENCES EM BOTAFOGO – Ligue 21 – 3091-0191 lucianobatista
D'Aligre Residences - Este é o mais novo lançamento na área mais disputada e com uma exclusividade impar! Próximo de todas as facilidades da Zona Sul do Rio de Janeiro, inclusive perto do metrô e do shopping | Botafogo
Informações Técnicas do D'Aligre Residences:
Apartamentos de 3 e 4 dormitórios, sendo 2 suítes... total de apenas 20 unidades residenciais.
Quantidade de Blocos: 1
Número de Unidades: 20
Número Total de Vagas: 34
Área do Total do Terreno: 643,66m²
Metragens das Unidades: 89.89m², 90.86m², 105.82m², 106.52m².
Área de Lazer do D'Aligre Residences: Sala de repouso, salão de festas, salão de festas infantil, play teen, brinquedoteca, varanda, piscinas adulto e infantil.
Acabamentos Externos: Fachadas laterais e prismas de ventilação (emassados e pintados). Fachadas "frontal e fundos" compostas com pastilhas brancas e verdes.
Acabamento Interno: Piso de porcelanato em todo o apartamento.
Sustentabilidade: Previsão para instalação de hidrômetros individualizados, iluminação com sensores de presença e previsão para coleta seletiva de lixo.
A previsão do valor do m² do lançamento está prevista para R$ 12.000,00
A previsão da data de entrega, está prevista para início de 2015
Construtora Santa Isabel
INFORMAÇÕES
TEL : (21) 3091-0191 - 8372-3822
Luciano Batista – consultor imobiliário
Veja o saite:
www.lucianobatista.meubox.com.br
Freedom Freguesia - Apartamentos de 2, 3 e 4 quartos na Freguesia. Apartamentos tipo com área privativa entre 74 e 107m²; coberturas duplex com área entre 157 e 217m², possui 1 suíte e ampla varanda, porcelanato em todos os cômodos e previsão para split; com 1 vaga de garagem. Infraestrutura de lazer completa e total segurança. Localizado em rua tranquila, próximo de todos os serviços da região. Antecipe-se ao lançamento!
Endereço:Estrada do Guanumbi, 630 Bairro:Freguesia – Nº de quartos:2, 3 e 4 quartos - Área:74 - 107m²; 157 - 217m² - Vagas garagem:1 vag - Realizadores:Calçada - Status da obra:Lançamentos
Hidromassagem, Sauna a Vapor, Solarium, Deck Molhado, Piscina Infantil, Espaço Gourmet, Quadra Esportiva, Fitness, Forno de Pizza, Churrasqueira, Salão de Festas, Brinquedoteca, Piscina Adulto, Spa, Sauna Seca, Cinema, Sala de Repouso, Playground, Espaço Teen, Praça, Acesso, Fitness Externo, Home Office
Não vá ao stand sem antes nos ligar, desde já agradecemos sua preferência
LIGUE AGORA PARA O CORRETOR PARA MAIORES INFORMAÇÕES
TEL : (21) 3091-0191 - 8372-3822
Luciano Batista – consultor imobiliário
Veja o saite: www.lucianobatista.meubox.com.br
Sustainability through Intelligence in BuildingsIJERA Editor
Energy efficiency and energy preservation are two primary worldwide concerns in current reality. Thus, sustainability encompasses those two issues, giving that as a general term refers to the capacity to endure. In architecture sustainability describes environmentally conscious design techniques, minimizing negative environmental impact and enhancing efficiency in the use of materials, energy and space. In every level of design and construction of a building, environmental issues should be taken into account. Each specific decision and choice may have consequences for the environment. Sustainability through the proper and sound use of materials is an obvious practice. Beyond that, intelligence integrated in buildings can promote energy efficiency and wider life cycle. After a brief clarification of what intelligence in buildings entitles, a series of case studies are presented in order to support the fact that in deed energy efficiency and energy preservation (in some cases energy production as well) are achieved through the use of intelligent systems in structures.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
Controlling and Reducing of Speed for Vehicles Automatically By Using Rf Tech...IJERA Editor
For vehicle safety and safety for passengers in vehicle is an important parameter. Most of the vehicles get
accident because no proper safety measures are taken especially at curves and hair pin bends humps and any
obstacles in front of the vehicle. This system can be used for the prevention of such a problem by indicating a
pre indication and also reducing the speed of vehicles by reducing the fuel rate of vehicle. As the action is in
terms of fuel rate so the vehicle automatically goes to control and avoids the accidents. At curves and hair pin
bends the line of sight is not possible for the drivers so the special kind of transmitter which is tuned at a
frequency of 433MHZ are mounted as these transmitters continuously radiate a RF signal for some particular
area. As the vehicle come within this radiation the receiver in the vehicle gets activate. The transmitter used here
is a coded transmitter which is encoded with encoder. The encoder provides a 4 bit binary data which is serially
transmitted to transmitter. The transmitter used here is ASK type (amplitude shift keying) which emits the RF
radiation.
Land Use and Land Cover Change Detection in Tiruchirappalli District Using Re...IJERA Editor
Land use and land cover is dominant role in the part of urbanization. As the rapid urbanization led various activities
in a region and these changes generally takes place in the agricultural land and caused decrease of arable land .The
satellite imageries LANDSAT 5TM (1990), LANDSAT 7ETM (2000) AND LISS 111 (2010) data’s are used. The
scales are 1:50,000. 1990, 2000 and 2010 covering a period of 19 years the aerial distribution of the land use and
land cover changes has been observed. The changes were identified ,in which the decrease of Agricultural land,
Natural vegetation , Scrub land and Water body and increase of Built up land, Fallow land, River sand and Without
scrub land. The land use and land cover maps are prepared by using GIS software to evaluate the changes and it is
showed strong variation.
D´ALIGRE RESIDENCES EM BOTAFOGO – Ligue 21 – 3091-0191 lucianobatista
D'Aligre Residences - Este é o mais novo lançamento na área mais disputada e com uma exclusividade impar! Próximo de todas as facilidades da Zona Sul do Rio de Janeiro, inclusive perto do metrô e do shopping | Botafogo
Informações Técnicas do D'Aligre Residences:
Apartamentos de 3 e 4 dormitórios, sendo 2 suítes... total de apenas 20 unidades residenciais.
Quantidade de Blocos: 1
Número de Unidades: 20
Número Total de Vagas: 34
Área do Total do Terreno: 643,66m²
Metragens das Unidades: 89.89m², 90.86m², 105.82m², 106.52m².
Área de Lazer do D'Aligre Residences: Sala de repouso, salão de festas, salão de festas infantil, play teen, brinquedoteca, varanda, piscinas adulto e infantil.
Acabamentos Externos: Fachadas laterais e prismas de ventilação (emassados e pintados). Fachadas "frontal e fundos" compostas com pastilhas brancas e verdes.
Acabamento Interno: Piso de porcelanato em todo o apartamento.
Sustentabilidade: Previsão para instalação de hidrômetros individualizados, iluminação com sensores de presença e previsão para coleta seletiva de lixo.
A previsão do valor do m² do lançamento está prevista para R$ 12.000,00
A previsão da data de entrega, está prevista para início de 2015
Construtora Santa Isabel
INFORMAÇÕES
TEL : (21) 3091-0191 - 8372-3822
Luciano Batista – consultor imobiliário
Veja o saite:
www.lucianobatista.meubox.com.br
Freedom Freguesia - Apartamentos de 2, 3 e 4 quartos na Freguesia. Apartamentos tipo com área privativa entre 74 e 107m²; coberturas duplex com área entre 157 e 217m², possui 1 suíte e ampla varanda, porcelanato em todos os cômodos e previsão para split; com 1 vaga de garagem. Infraestrutura de lazer completa e total segurança. Localizado em rua tranquila, próximo de todos os serviços da região. Antecipe-se ao lançamento!
Endereço:Estrada do Guanumbi, 630 Bairro:Freguesia – Nº de quartos:2, 3 e 4 quartos - Área:74 - 107m²; 157 - 217m² - Vagas garagem:1 vag - Realizadores:Calçada - Status da obra:Lançamentos
Hidromassagem, Sauna a Vapor, Solarium, Deck Molhado, Piscina Infantil, Espaço Gourmet, Quadra Esportiva, Fitness, Forno de Pizza, Churrasqueira, Salão de Festas, Brinquedoteca, Piscina Adulto, Spa, Sauna Seca, Cinema, Sala de Repouso, Playground, Espaço Teen, Praça, Acesso, Fitness Externo, Home Office
Não vá ao stand sem antes nos ligar, desde já agradecemos sua preferência
LIGUE AGORA PARA O CORRETOR PARA MAIORES INFORMAÇÕES
TEL : (21) 3091-0191 - 8372-3822
Luciano Batista – consultor imobiliário
Veja o saite: www.lucianobatista.meubox.com.br
Sustainability through Intelligence in BuildingsIJERA Editor
Energy efficiency and energy preservation are two primary worldwide concerns in current reality. Thus, sustainability encompasses those two issues, giving that as a general term refers to the capacity to endure. In architecture sustainability describes environmentally conscious design techniques, minimizing negative environmental impact and enhancing efficiency in the use of materials, energy and space. In every level of design and construction of a building, environmental issues should be taken into account. Each specific decision and choice may have consequences for the environment. Sustainability through the proper and sound use of materials is an obvious practice. Beyond that, intelligence integrated in buildings can promote energy efficiency and wider life cycle. After a brief clarification of what intelligence in buildings entitles, a series of case studies are presented in order to support the fact that in deed energy efficiency and energy preservation (in some cases energy production as well) are achieved through the use of intelligent systems in structures.
Sustainability Concepts in the Design of High-Rise buildings: the case of Dia...StroNGER2012
One of the evocative structural design solutions for sustainable tall buildings is embraced by the diagrid (diagonal grid) structural scheme. Diagrid, with a perimeter structural configuration characterized by a narrow grid of diagonal members involved both in gravity and in lateral load resistance, has emerged as a new design trend for tall-shaped complex structures, and is becoming increasingly popular due to aesthetics and structural performance. Since it requires less structural steel than a conventional steel frame, it provides for a more sustainable structure. This study focuses on the structural performance of a steel tall building, using FEM nonlinear analyses. Numerical comparisons between a traditional outrigger system and different diagrid configurations (with three different diagrid inclinations) are presented for a building of 40 stories, with a total height of 160m, and a footprint of 36m x 36m. The sustainability of the building (in terms of structural steel weight saving) is assessed, together with the structural behavior.
One of the evocative structural design solutions for sustainable tall buildings is embraced by the diagrid (diagonal grid) structural scheme. Diagrid, with a perimeter structural configuration characterized by a narrow grid of diagonal members involved both in gravity and in lateral load resistance, has emerged as a new design trend for tall-shaped complex structures, and is becoming increasingly popular due to aesthetics and structural performance. Since it requires less structural steel than a conventional steel frame, it provides for a more sustainable structure. This study focuses on the structural performance of a steel tall building, using FEM nonlinear analyses. Numerical comparisons between a traditional outrigger system and different diagrid configurations (with three different diagrid inclinations) are presented for a building of 40 stories, with a total height of 160m, and a footprint of 36m x 36m. The sustainability of the building (in terms of structural steel weight saving) is assessed, together with the structural behavior.
Sustainability Concepts in the Design of High-Rise buildings: the case of Dia...Franco Bontempi
One of the evocative structural design solutions for sustainable tall buildings is embraced by the diagrid (diagonal grid) structural scheme. Diagrid, with a perimeter structural configuration characterized by a narrow grid of diagonal members involved both in gravity and in lateral load resistance, has emerged as a new design trend for tall-shaped complex structures, and is becoming increasingly popular due to aesthetics and structural performance. Since it requires less structural steel than a conventional steel frame, it provides for a more sustainable structure. This study focuses on the structural performance of a steel tall building, using FEM nonlinear analyses. Numerical comparisons between a traditional outrigger system and different diagrid configurations (with three different diagrid inclinations) are presented for a building of 40 stories, with a total height of 160m, and a footprint of 36m x 36m. The sustainability of the building (in terms of structural steel weight saving) is assessed, together with the structural behavior.
Efficiency of indoor environment for improving people's healtheSAT Journals
Abstract The main role of building is to provide shelter, security and healthy place for its occupants. As people spend most of their time in indoor space ( home, work, schools, etc.) therefore most of the hazards that affect human health is a result of poor indoor environment. Among many factors contribute to unhealthy indoor environment and affect people’ health are lack of maintenance, indoor air quality (IAQ) as a result of poor of ventilation, light, noise, etc. Nowadays, architects, and interior designers main objective is to promote comfort and healthy indoor building environment for its occupants through the design process of new building and provide proper design solutions for existing buildings. Therefore, the aim of this research is identify active factors related health that affect the indoor building environment. Strategies and recommendations to prevent or minimize hazards due to poor indoor environment will be also addressed. Keywords: sustainable, indoor air quality (IAQ), human health
Challenges facing componentsreuse in industrialized housing: A literature reviewIEREK Press
Natural resources points towards sustainable development. Since a large proportion of human consumption is linked to buildings and construction, this means managing the construction process in more sustainable ways. Strategies that target greater material efficiency and which promote circular economy concepts are among several approaches that are gaining in popularity. The adoption of life-cycle thinking and practices in design, construction and end of life through the reuse of construction components and materials is one such action to achieve a sustainable built environment. Reuse is not a new concept and technical solutions do exist; however, practical realization is hampered by many interrelated challenges. This review paper is the result of a literature review for an exploratory study that aims to identify obstacles to the reuse of building components and materials. The context is industrializedhousing, particularly timber-based construction, as this is a sector where modern manufacturing and onsite practices have become established. The main obstacles identified and corroborated in the literature, along with their potential solutions, are summarized and conclusions drawn on the future direction of research needs.
Benefits of Project Management to Realizing Sustainable BuildingsDr. Amarjeet Singh
Sustainable materials are becoming popular worldwide in terms of ecologically friendly structures that deal with pollution controls, climate change, global temperature increase, and resource conservation issues. Consequently, the researchers believe that simply using sustainable materials to design and create a building is insufficient.
This article discusses several elements of sustainable construction planning including site choice mostly through the proposed project, material classification mostly through the life cycle, analysis time, cost, and commodity controls, reliability and stability, occupant health, manufacturing methodologies and procedures, and design concepts based on advanced ideas. The article argues that by integrating the choice of building components and construction strategic planning practices into the project, the productivity and consequently the reliability of the building could be significantly improved.
The article also discusses the advantages and requirements of sustainable construction, the managerial roles in construction procedure, management processes, and a correlation of conventional construction planning and sustainable project management. The research paper indicates that the objective of constructing an environmentally friendly building is simply fully done when the notion of sustainability is integrated into every phase of the construction approach and that the procedures are not restricted to using recycled practices.
A Study on Eco-friendly Building Management with Respect to Feasibility of Im...inventionjournals
The purpose of the study is to examine the factors affecting the eco-friendly building management with respect to feasibility of implementation. A cross sectional research on 487 citizens and 500 students through questionnaire method and analysed using SPSS software. The population of study consists of resident’s views on eco-friendly building management in Kochi. The study was conducted during the period of October 2016 to January 2017. This study identified five dimensions of eco-friendly building management such as public interests, environmental impact, economy, material management and water and energy management. Furthermore, this study confirmed that there is significant impact on public interests, environmental impact, economy, material management.
Integrating Sustainability Strategies in Design and Practice - ادماج استراتجي...Galala University
As sustainability is becoming more and more a familiar topic in engineering practice and education, the problem remains on how to achieve sustainability in front of client, cost and construction industry challenges. The lecture proposes the integration of sustainability in design process, education and legislation. The lecture focuses on sustainability strategies that can be incorporated in practice and design process. The goal is to make sustainability an integral part of practice that influences both design and construction stages. Other attempts should be made to make sustainability an integral part of legislation and education.
IMPLEMENTATION OF VALUE MANAGEMENT AS AN ECONOMIC SUSTAINABILITY TOOL FOR BUI...ijmvsc
Today, several researches have been carried out in the area of sustainability with much emphasis being
placed on the environmental dimension. Though this is good, a balance needs to be created between the
environmental, economic and social sustainability dimensions. Bearing this in mind, the construction
professionals are saddled with the responsibility of delivering sustainable construction projects using
diverse tools. One of such tool is Value Management (VM). Hence, this research assessed the use of VM in
delivering economically sustainable constructions. A case study approach was employed and the study
revealed that VM has a great role to play in delivering economic sustainability in construction since both
VM and Sustainability (the economic dimension) have a common goal which is; achieving value for money.
Notable benefits of VM in providing economic sustainability in construction includes: reduction of overall
cost while maintaining function through identification and removal of unnecessary materials and process
and use of local materials to save cost of importation and transportation. The study therefore recommends
the implementation of VM in building construction and presentation at various workshops and seminars in
order to enhance sustainable construction development through VM practise
A methodology I created consistently delivers award winning design outcomes by focusing on "how" to make the decisions that form "what" to do. A bio-intelligent decision matrix modelled on the branching of a tree, TRIZ, context analysis & Axiomatic Design from MIT. Takes bio pattern understanding from biomimicry in design to a decision making tool. Individuals & teams make simple the very complex challenges of comprehensively sustainable design.
A B S T R A C T
Rapid intensification of Auckland has made our visual awareness of the outdoor environment (windowscapes) more confined and restricted. The recent changes of Auckland’s windowscapes have made the shortcomings of New Zealand Building Code more apparent. This paper aims to demonstrate the importance of windowscapes in urban dwellers’ life and suggest some changes to current building code to provide healthier and liveable indoor environments. First, evidence from the literature on the impact of views on building occupants’ wellbeing will be reviewed. Then, New Zealand Code Clause (G7 Natural light) and its Acceptable Solution will be critically analysed to identify areas that require improvement.
Our literature review indicates that private views are more relevant for health and wellbeing than building and planning legislation in New Zealand currently considers them to be. Hence, this paper suggests that windowscapes should become an essential part of future building codes and standards. This paper concludes that providing strict requirements regarding windowscapes is essential to building a healthier indoor environment.
CONTEMPORARY URBAN AFFAIRS (2018) 2(1), 55-65. Doi: 10.25034/ijcua.2018.3656
UiPath Test Automation using UiPath Test Suite series, part 4DianaGray10
Welcome to UiPath Test Automation using UiPath Test Suite series part 4. In this session, we will cover Test Manager overview along with SAP heatmap.
The UiPath Test Manager overview with SAP heatmap webinar offers a concise yet comprehensive exploration of the role of a Test Manager within SAP environments, coupled with the utilization of heatmaps for effective testing strategies.
Participants will gain insights into the responsibilities, challenges, and best practices associated with test management in SAP projects. Additionally, the webinar delves into the significance of heatmaps as a visual aid for identifying testing priorities, areas of risk, and resource allocation within SAP landscapes. Through this session, attendees can expect to enhance their understanding of test management principles while learning practical approaches to optimize testing processes in SAP environments using heatmap visualization techniques
What will you get from this session?
1. Insights into SAP testing best practices
2. Heatmap utilization for testing
3. Optimization of testing processes
4. Demo
Topics covered:
Execution from the test manager
Orchestrator execution result
Defect reporting
SAP heatmap example with demo
Speaker:
Deepak Rai, Automation Practice Lead, Boundaryless Group and UiPath MVP
Neuro-symbolic is not enough, we need neuro-*semantic*Frank van Harmelen
Neuro-symbolic (NeSy) AI is on the rise. However, simply machine learning on just any symbolic structure is not sufficient to really harvest the gains of NeSy. These will only be gained when the symbolic structures have an actual semantics. I give an operational definition of semantics as “predictable inference”.
All of this illustrated with link prediction over knowledge graphs, but the argument is general.
Accelerate your Kubernetes clusters with Varnish CachingThijs Feryn
A presentation about the usage and availability of Varnish on Kubernetes. This talk explores the capabilities of Varnish caching and shows how to use the Varnish Helm chart to deploy it to Kubernetes.
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1. Vahid Moghimi, Mahmud Bin Mohd Jusan / International Journal of Engineering Research
and Applications (IJERA) ISSN: 2248-9622 www.ijera.com
Vol. 3, Issue 3, May-Jun 2013, pp.1020-1031
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Flexible Windows Design Preferred by Homeowners: a Survey of
Universiti Teknologi Malaysia Staff Members
Vahid Moghimi*, Mahmud Bin Mohd Jusan**
*(Department of Urban and Regional Planning, Universiti Teknologi Malaysia, Skudai, Johor Bahru, Malaysia)
** (Department of Architecture, Universiti Teknologi Malaysia, Skudai, Johor Bahru, Malaysia)
ABSTRACT
User-oriented home construction
necessitates participation on the part of the user
in the initial design stage of gathering feedback
regarding performance. The gap between
designers and users, and time considerations
means that developing flexible windows is a
coping strategy for encouraging user
participation and ensuring quality products that
are economical and fully sustainability. This
study investigated flexible window design based
on the principles of design for disassembly and
the relationship between the expectations of
prospective users and windows features by
understanding user motivations, what features
they expected and the need for flexible windows.
To achieve these goals, a self-administered
questionnaire was given to Universiti Teknologi
Malaysia staff. The results indicated that the best
configuration for flexible windows had few parts,
were easy to operate, had a simple structure, and
could be quickly installed, were important while
selecting windows. Moreover, a variety of designs,
ease of maintenance, reusability and lightness of
construction materials were additional
appreciated factors. Slider windows and windows
made of wood were the most preferred in terms of
structure and construction material. The features
expected by the users served as the basic
knowledge that could be used to adopt an
appropriate development perspective for the
intended users.
Keywords - Flexibility; design for disassembly;
flexible windows design; user expectation; survey;
Malaysia
1. INTRODUCTION
Windows are usually investigated within
the context of the relationship between humans and
their environment. Abundant studies have illustrated
that more functions are provided by windows other
than just supplying a source of light and air (Korkut,
Dilik, Erdinler, Koc, & Kurtoglu, 2010; SiuYu Lau,
Gou, & Li, 2010). Industrial improvements put
everything in flux and have made impressive
developments in the production and quality of
windows. As a consequence, improved window
design has led to the development of various
architectural concepts as well as construction
techniques, changing economic and socio-cultural
values, ecological approaches, and window
preference (Lau, et al., 2006). However, windows
are sometimes designed without flexibility and that
do not offer easy customization. As a consequence
of this shortcoming, not only does the process of
replacing windows result in a large amount of
demolition waste and damaged windows
components but it also reduces the life cycle cost of
the building (Deller, King County, Price, & Kahley,
n.d.; Fawcett, Hughes, Krieg, Albrecht, &
Vennström, 2012; Hurley, 2003).
Although extensive academic research has
highlighted the need to develop flexible windows
that can be easily replaced (Jusan, 2007, 2010;
Omar, Endut, & Saruwono, 2012a; Omar, Endut, &
Saruwono, 2012b; Rahim & Hashim, 2012a; Saji,
2012) and examined the failure to achieve this
flexibility for recent window designs (Hurley, 2003;
Jusan, 2010; Katsaros & Hardman, 2007), little
research has examined how to develop flexible
windows based upon user expectations.
The inability to determine the expectations
of designers and homeowners, and the criticism that
windows cannot be easily disassembled or
unmounted, the wider goal of this study was to
create an inventory of the knowledge used to
develop flexible windows that optimized the
sustainable use of building components. The
immediate goal of this study focused on the
identification of user expectations regarding features
for flexible windows based on Design for
Disassembly (DfD) guidelines that provided an
initial inventory of the knowledge related to flexible
windows. In other words, this paper attempted to
investigate windows designs that are compatible
with flexibility.
2. THEORETICAL FRAMEWORK
2.1 Need for Windows Replacement
Necessity is the mother of invention. The
necessity of developing flexible windows becomes
more pressing when windows are replaced or
modified due to physical and psychological issues
(Deller, et al., n.d.; Hanser, 2003; Jusan, 2007;
Omar, et al., 2012b; Rahim & Hashim, 2012b; Saji,
2012). For instance, in the fenestration industry,
each year over 16 million windows are replaced
(National Center for Healthy Housing, 2005).
2. Vahid Moghimi, Mahmud Bin Mohd Jusan / International Journal of Engineering Research
and Applications (IJERA) ISSN: 2248-9622 www.ijera.com
Vol. 3, Issue 3, May-Jun 2013, pp.1020-1031
1021 | P a g e
Usually, identifying a problem within existing
windows necessitates adopting a new system in
order to prevent housing stress as well as discomfort
to the residents. The forces that motivate this effort
not only enhance appearance and functionality of
the home, but they also have a large impact on the
fulfillment of physiological and psychological needs
of the inhabitants (Farley & Veitch, 2001; National
Center for Healthy Housing, 2005).
2.2 Inherent Windows Problems
The inherent problems of windows
themselves are of paramount importance. The
evolution of windows as they became integrated
with the cover of the structure was a development
that made the construction industry more
industrialized and simultaneously generated
significant challenges for the installation process.
Creating windows as integrated units that included
frame, sash, and hardware also created unique
problems (Hardman & Katsaros, 2005; Katsaros &
Hardman, 2007). A serious weakness with
integrated units arose from the removal and
replacement process that affected the area between
the window frame and the integrated area. This
method not only resulted in increased demolition
waste, damaged windows components, a decline in
reusability, and increased cost, but it also decreased
the life cycle cost of the current method of windows
replacement. For instance, when windows are
replaced, a noticeable amount of windows
components such as glass, timber and PVC framing
end up in the landfill (Hurley, 2003). In spite of
needs for renovation and modification, there is an
inability to change and adapt in the current building
system (Deller, et al., n.d.; Hanser, 2003; Jusan,
2007; Richard, 2006; Sadafi, Zain, & Jamil, 2011)
as well as with windows (Hurley, 2003; Jusan,
2010; Katsaros & Hardman, 2007).
2.3 Design for Disassembly
It is becoming increasingly difficult to
ignore the critical role played by DfD within the
manufacturing industry. Despite efforts on the part
of designers to prepare suitable living environments,
designing and constructing according to rigid
architectural concepts and components results in
difficult reconfigurations. As a result, a convenient
and feasible way of disposing of building
components can be found by applying DfD (Deller,
et al., n.d.). DfD has been defined as the way that
buildings should be designed to make future
changes using assembly and disassembly processes.
Using DfD results in maximum economic
efficiencies, minimum environmental impacts and
slows the depletion of resources. DfD aims to make
flexible, reusable, repairing, remanufacturing and
recycling processes feasible (Deller, et al., n.d.;
Hanser, 2003; Richard, 2006; Sadafi, et al., 2011).
2.4 User Involvement
The built environment is the subject of
much research. Consequently, the intention of any
theories regarding the built environment must be
oriented to the process of designing, creating,
supplying, and determining how the built
environment functions once it has been created.
Human behavior is influenced by features of the
space they inhabit on both large and small scale
(Vischer, 2008). Such a phenomenon makes the user
central to the building construction process.
Constructing an appropriate living environment is
possible by designing, building and equipping
houses according to the needs and preferences of the
homeowner instead of speculative design
(Christiansson, Svidt, Sørensen, & Dybro, 2011;
Jusan, 2010; Rapoport, 2000). In order to recognize
this and translate it into reliable design, a systematic
and coherent approach for the involvement of the
inhabitants for the purpose of innovation is required
(Christiansson, et al., 2011).
3. METHODOLOGY
This study investigated flexible window
designs with particular focus on the designs
principles that reflected disassembly guidelines and
understanding user reasons and expectations, which
influenced their actions, behavior, and enthusiasm to
participate in the process of windows replacement.
The aim of investigating user involvement was to
obtain knowledge about their behavior, as well as
the factors, values and driving forces that would
influence window flexibility in higher user-
controlled living environments. User experience and
relationships with a building can be used to guide
designers to create windows that would
accommodate both practical and theoretical
concerns. A better understanding of how users are
affected by different window types pivots on the
notion of development. This knowledge can be used
as a starting-point for producing flexible windows
and new services in the future.
Christiansson et al. (2008) and
Christiansson et al. (2011) remind us that before
end-users end up with buildings created to meet
necessary specifications, identifying end needs as
well as a weighing and consolidation process must
take place. Disregarding these processes may result
in a conflict between wishes and expectations
regarding building performance. Therefore,
unveiling unrecognized needs, desires, expectations
and longings that motivate people to act as they do
are important. Christiansson et al. (2011) believed
that there are several methods to capture user needs
and creative ideas such as interviews and
questionnaires.
3.1 Subjects
One hundred and eighty two academic and
non-academic UTM staff members (85 male and 97
3. Vahid Moghimi, Mahmud Bin Mohd Jusan / International Journal of Engineering Research
and Applications (IJERA) ISSN: 2248-9622 www.ijera.com
Vol. 3, Issue 3, May-Jun 2013, pp.1020-1031
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female) participated in this research.
3.2 Material
A questionnaire survey was designed to
identify proper window structures and materials
based on the relationship between user expectations
and windows as well as material features expected
by users for flexible windows and user involvement.
Identifying the best flexible windows would be
more reliable if the reasons it was preferred could be
investigated. Therefore, 11 black and white
windows photographs and the words describing the
reasons why an image was preferred were
distributed among the respondents. In addition to the
design principles that allow for disassembly,
recognition of the factors that were the most
preferred for windows that would experience a
higher level of user involvement resulted in a better
understanding of the decisive factors for a flexible
window.
The questionnaire was divided into
studying (a) respondent characteristics (b) window
types preferred for user involvement by declaring
the reasons, and (c) window materials preferred for
user involvement by declaring the reasons. The
survey results were transferred to the Statistical
Package for the Social Sciences (SPSS)
environment and evaluated using frequency and
cross-tabulation.
3.3 Procedure
The initial questionnaire was pre-tested
using a sample of approximately 25 UTM staff
members. Some items were reworded to improve
validity and clarity. Data for the main study was
collected by applying a self-administered
questionnaire survey as a data collection technique.
Each subject was asked what type of
windows they would be interested in installing and
they were also asked to express the reasons for their
preferences, which had been prepared on the back of
the page. Users chose only one type of window to
make it possible to better identify features and
evaluate characteristics. The same method was used
for investigating material but without using pictures.
Table 1 shows the gender composition of
respondents with females representing 53.3% and
males 46.7% of the total distribution. The proportion
of married individuals to singles was found to be
48.6% to 51.4%. The age distribution shows that 20-
30 years, 31-40 years, 41-50 years and 51-60 years
had corresponding scores of 51.1%, 22.0%, 21.4%,
and 5.5%, respectively. Those 60 and above were
conspicuously absent from the respondents.
Classification of the respondents into Academic and
Non-academic staff members revealed that
academic staff members were in the majority with a
total 62.6% of the respondents compared to 37.4%
for Non-academic staff.
Table 1: Summarized demographic/housing characteristic frequencies
Demographic Items Frequency Percentage (%)
Gender
Male 85 46.7
Female 97 53.3
Total 182 100
Marital status
Married 88 48.6
Single 93 51.4
Total 182 100
Age
20-30 93 51.1
31-40 40 22.0
41-50 39 21.4
51-60 10 5.5
Over 60 - -
Total 182 100
Type of employment
Academic staff 114 62.6
Non-academic staff 68 37.4
Total 182 100
4. RESULT AND DISCUSSION
4.1 Identifying Influential Area for User
Participation
It should be noted that 69.5% of users had no
interest in being involved in the process of window
replacement. The probability of user involvement
in the process may increase if the area of user
involvement is recognized and improved.
4. Vahid Moghimi, Mahmud Bin Mohd Jusan / International Journal of Engineering Research
and Applications (IJERA) ISSN: 2248-9622 www.ijera.com
Vol. 3, Issue 3, May-Jun 2013, pp.1020-1031
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Flexibility was used as a design feature that
allowed for disassembly. Motevallian, Abhary,
Luong, & Marian (2007) maintained there are six
requirements that need to be considered while
designing a product for ease of disassembly. These
requirements are product structure and lay-out,
parts, materials, joints, accessibility of the
components, and ease of disassembly. An
investigation of the ability of the effects of the
above factors for stimulating users to be involved
in the process of window replacement using a
Likert scale is represented in Table 2. In this table,
the highest mean revealed that a large number of
respondents allocated the highest level of
significance to the accessibility of the components.
This was followed by the type of material, weight
of the components, windows structure, type and
then number of fasteners. These results reveal the
priorities for product improvement if the
involvement of more users in the process of
windows replacement is to be encouraged.
Table 2: Level of importance for user influence in the process of windows replacement
Areas 1 2 3 4 5 Mean
Accessibility of the components 2.8% 3.4% 11.8% 36.5% 45.5% 4.1854
Material 2.2% 2.2% 17.4% 38.2% 39.9% 4.1124
Weight of parts 3.4% 7.9% 18.5% 48.3% 21.9% 3.7753
Type of Structure 5.1% 3.4% 26.4% 41.6% 23.6% 3.7528
Type of fasteners 2.2% 10.1% 34.3% 50.0% 3.4% 3.4213
Number of parts 2.8% 12.4% 36.5% 44.4% 3.9% 3.3427
4.2 The Eligible Flexible Windows
Characteristic
4.2.1Identify the Most Preferred Windows
Among the 11 window photos, users
showed a remarkable interest in just 3. The results
of the investigation are summarized in Table 3. It
was determined that 29.1% of the users expressed
their interest in pick up glider /slider windows,
while 19.4% preferred casement windows and
14.3% chose jalousies windows (Table 3). These 3
different types of window provide designers useful
insight into appropriate flexible window features
according to user preferences. The level of user
preferences for the other options was not
remarkable.
Table 3: Preferred windows users interested in installing
Type of windows Frequency
(N)
Percentage
(%)
Awning 3 1.7
Bay and bow 10 5.7
Casement 34 19.4
Double-hung 8 4.6
Glider /Slider 51 29.1
Hopper 1 0.6
Jalousies 25 14.3
Palladian 14 8.0
Picture windows 11 6.3
Center pivot windows 6 3.4
Single- hung windows 12 6.9
4.2.2Identify the Relative Importance of Design
Factors
The descriptive statistics for the influential
features in the order of significance are shown in
Table 4. The relative importance of features in
influencing users can be understood by
acknowledging their significance. In regards to the
significance of the features preferred for flexible
windows, excluding the DfD requirements, the
results showed that the respondents look upon the
number of parts (40.1%), followed by ease of
operation (39.6%), simplicity of the structure
(36.8%), fast process (35.2%), ease of maintenance
(33.5%), lightness (30.8%), and guaranteeing
health and safety for user (15.9%), as significant
reasons for becoming involved in the process of
windows replacement.
5. Vahid Moghimi, Mahmud Bin Mohd Jusan / International Journal of Engineering Research
and Applications (IJERA) ISSN: 2248-9622 www.ijera.com
Vol. 3, Issue 3, May-Jun 2013, pp.1020-1031
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Table 4: Reasons of preferences for the preferred windows
Reason of preferences Frequency
(N)
Percentage
(%)
Few parts 73 40.1
Ease of operation 72 39.6
Simple structure 67 36.8
Fast process 64 35.2
Ease of maintenance 61 33.5
Lightness 56 30.8
Health safety for user involvement 29 15.9
Compatibility with various home style 26 14.3
Installable at any height 17 9.3
Free of dimensional constraints 13 7.1
4.2.3Identify the Relationship between Design
Factors and Windows Structure
Fig. 1 portrays the relative weight for each
factor by looking at the frequency of each preferred
product according to its specific design features
based on user opinion. This weight gives designers
insight into each specific window characteristic as
well as information regarding features based on
user opinions and perceptions so that a better
product can be developed. This data indicated that
among those three most preferred windows (slider,
casement and jalousies) the slider window was the
most preferred style. This
style of window had the most frequently selected
features as well as meeting flexibility needs and
DfD (See Fig. 1). Only the slider windows featured
fewer parts, a simple structure, fast process, ease of
maintenance, and protected the health and safety of
users as demonstrated by cross-tabulation used to
illustrate statistically significant results. Cross-
tabulating the two other window styles with the
reasons for their preferences revealed that ease of
use and compatibility were the two most significant
reasons for preferring casement windows while
jalousies was the lightest window style.
Figure 1: Preferred windows and their characteristic
0
20
40
60
80
Simple structure
Ease of operation
Ease of maintenance
Lightness
Compatibility with
various home style
Health safety for user
involvement
Installable at any
height
Free of dimensional
constraints
Fast process
Few parts
Awning Bay and bow
Casement Double-hung
Glider /Slider Hopper
Jalousies Palladian
Picture windows Center pivot windows
6. Vahid Moghimi, Mahmud Bin Mohd Jusan / International Journal of Engineering Research
and Applications (IJERA) ISSN: 2248-9622 www.ijera.com
Vol. 3, Issue 3, May-Jun 2013, pp.1020-1031
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4.2.4Identify the Most Preferred Material
Material plays a key role in windows
replacement and it can affect user psychological
factors. Crilly, Moultrie, & Clarkson (2004) (as
cited in Sacharin, Gonzalez, & Andersen, 2011)
pointed out that despite the fact that emotions occur
in response to perceptions about a product, they
also influence judgments. Therefore, materials are
the components that engage tactile and visual
sensations. Wood had the most significant
influence on user involvement (34.7%). Aluminum
and PVC were next with 30.1% and 22.5%,
respectively (See Table 5).
Each of the three most preferred materials
has pros and cons that affected user preference.
According to the literature and the results of this
study, the increase in user preferences for wooden
windows is more common in Malaysia compared to
the rest of the world. Using wood as a material for
flexible windows reflects earlier material
preferences for windows, which demonstrated that
the recent preference for PVC and aluminum has
slowed (Korkut, et al., 2010). The contraction of
demand for plastic material is a consequence of
environmental awareness and the ecological
approaches established in developed countries. The
importing of these considerations to developing
countries can be seen as an explanation for this
trend.
Table 5: Preferred windows material users interested in installing
Type of Material Frequency
(N)
Percentage
(%)
Wood 60 34.7
Aluminium 52 30.1
PVC 39 22.5
Wood with plastic
cladding
10 5.8
Fiber glass 9 5.2
PVC-wood
composite
3 1.7
Material selection was based on
characteristics that covered design requirements,
durability, upgradability and ease of maintenance
and preservation. The frequency of the responses
relating to the importance of specific features for
flexible windows material indicated that people
would like material offer in a variety of designs,
colours, and
styles (52.2%), that are easy to maintain and
preserve (45.6%), are reusable and can be recycled
(41.8%), lightweight (41.2%), durable (41.2%),
easy to clean (33.0%), ensure the health and safety
of the users during operation (31.9%) and have
mechanical and resistance characteristics (30.8%)
as illustrated in Table 6.
Table 6: Reasons of preferences for the preferred material
Reason of preferences Frequency Percentage
(%)
Variety in design, colour and style 95 52.2
Easy to maintenance and preservation 83 45.6
Reusable and recyclable 76 41.8
Lightweight 75 41.2
Durable 75 41.2
Easy to clean 60 33.0
Ensure health safety during the process 58 31.9
Mechanical and resistance characteristics 56 30.8
Compatible with most home style 51 28.0
Adaptable 39 21.4
Repairable 38 20.9
4.2.5Identifying the Relationship between
Design Factors and Windows Material
Fig. 2 describes the preferred window materials
according to their specific features compared to the
most frequently expected features. Reusability and
7. Vahid Moghimi, Mahmud Bin Mohd Jusan / International Journal of Engineering Research
and Applications (IJERA) ISSN: 2248-9622 www.ijera.com
Vol. 3, Issue 3, May-Jun 2013, pp.1020-1031
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recyclability, compatibility with various home
styles, reparability, variety in design, colour and
style, safe processes and adaptability were cross-
tabulated to produce a statistically remarkable
result in favor of wooden flexible windows. In fact,
wooden windows, because they are handmade,
have the capability of being compatible with
different types of dwellings. In addition, this
increases reparability as well as its adaptability and
the ability to provide a new look. What makes
these findings interesting is that wood was
considered to be the safest material. Sacharin et al.
(2011) in a study called Object and user levels of
analyses in design: The Impact of Emotion on
Implicit and Explicit Preference for ‘Green’
Products reported that ‘green’ products focus on
how a product expresses ideas related to being
natural and safe. In fact, it was found that those
products that are perceived as natural convince
users by sending the message that they are also
safe. In fact Saccharin’s report gave an explanation
for why wood is perceived as being safe.
Aluminium was chosen several times
because of its ease of maintenance, mechanical and
resistance characteristics and durability. Finally,
PVC, the other popular material, was preferred
firstly, for its lightness followed by ease of
maintenance and preservation and variety and
versatility in design, colour and style.
The reliability of the reasons for the
preferences for each material was explained by
findings about problems encountered by users of
PVC, aluminium and wooden windows. Korkut et
al. (2010) reported problems encountered by users
with PVC windows that included difficulty
cleaning, installation defects, lack of mechanical
resistance, colours that were quick to stain or fade
without the possibility of adaptation. Moreover,
aluminium windows were found to be difficult to
clean, heavy and changed colour over time.
Wooden windows had their own share of problems
as they had joints that lacked mechanical resistance
and deformed quickly, were difficult to maintain
and lost durability over time. In Figure 2,
surprisingly, the length of the axis for each material
indicating these characteristics is insignificant. This
indicates that these problems and shortcomings are
universal concerns. In general, there was a
noticeable gap between the most frequently
demanded features and each of the preferred
material features, which represented the
imperfection of recent materials for flexible
windows.
Figure 2: Preferred material and their characteristic
0
20
40
60
80
100
Easy to maintenance and
preservation
Easy to clean
Lightweight
Compatible with most home
style
Durable
Reusable and recyclableAdaptable
Resistance characteristics
Repairable
Variety and in
design, colour and style
Ensure health safety
wood Aluminium
PVC Wood with plastic cladding
Fiber glass PVC-wood composite
Ideal expected features
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4.3 Developing Flexible Windows Design
Models
The overall importance of the specific
preferred features used to identify design
requirements was illustrated. When these features
and design principles are used for disassembly,
more appropriate flexible window designs are
developed. Generally, a flexible window should be
designed to fulfil the following criteria; durability,
versatility, access to services, redundancy,
simplicity, upgradability, and independence.
Investigating an appropriate flexible window
design would be accomplished by looking at
different factors namely, product structure and lay-
out, parts, materials, joints, accessibility of the
components, and ease of disassembly.
4.3.1Product Structure
Generally, the cost and quality of the
disassembly processes are influenced by the
structure of the product. Minimizing complexity
when assembling a product has been recognized as
a way to enhance product quality, helping to reduce
defect rates and assembly costs (Van Wie, Greer,
Campbell, Stone, & Wood, 2001). Therefore,
flexible windows structures must be simplified in
order to offer significant opportunities for
decreasing the level of complexity, costs, fewer
disassembly operational steps and enhancing the
level of maintenance for the components and
materials.
Within this study, the structure of slider
windows was identified by a large number of
respondents as its most favorable feature. The root
of such a substantial level of agreement could be
explained by how the simple structure of this type
of window minimizing handling efforts by
decreasing the need to adjust the openings.
Previously, Motevallian et al. (2007) and
Boothroyd (1999) (as cited in Booker, Swift, &
Brown, 2005) maintained that one of the design
strategies for assembly strives to eliminate the need
for constant alignment and adjustments. In fact, a
self-locating method of opening integration within
slider windows is the reason for this advantage
(See Fig. 3). As a result of employing self-locating
techniques, a number of disassembly efforts, the
number of fasteners, parts, hardware, tools,
required time, and energy, and possible threats due
to using the needed tools, will be decreased.
Figure 3: Sash installation as well as reinstallation
by means of self-locating in slider windows
4.3.2Ease of Disassembly Efforts
There are various strategies for promoting
easy disassembly efforts. First, flexible windows
components should be demountable. Although this
feature exits in more recent window designs,
frames that act as the foundation of the structure do
not follow these requirements. As a result,
permanently fixing window frame for the purpose
of eliminating the deconstruction process should be
avoided.
Self-locating techniques are the proposed
strategy for opening integration. However, this
strategy should be designed in a way that installing
the components in an incorrect position would not
be possible. This will result in decreasing the level
of complexity. The insert window frame
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installation method is one of the two common
methods of windows installation. Here the insert
windows installation method should be employed
instead of the full frame method. Comparing the
pros and cons of each method reveals the
usefulness of the insert frame installation method.
Developing versatile frame for the purpose of
increasing the capability of accepting various types
of windows is also required.
4.3.2.1 Insert Versus Full Frame Window
Installation
Each method has its own advantages and
disadvantages. The full frame process necessitates
tearing the frame out completely by destroying the
area between the frame and the walls.
Consequently, this process creates construction
waste, affects the old frame and decreases the
possibility of reusing the frame. However, in the
insert procedure, the insert frame is put on the
original frame. Table 7 and Table 8 cover the pros
and cons of both methods.
Table 7: Advantages and disadvantages of full frame windows replacement
Full frame window installation
Advantages Disadvantages
Light loss is not as much of a concern
Increase total glass area for the same
opening
More of a custom finish
Confirmation that the original
installation did not have any leaks
Lots of custom finish options and
upgrades
Usually involves destruction to exterior
surface
Usually 2X the cost of retrofit windows
Time-consuming installation
Destruction to interior finish because of
increased frame size
New paint typically needed to fix exterior
finish
Table 8: Advantages and disadvantages of insert windows replacement
Insert window installation
Advantages Disadvantages
Decreasing costs
Much quicker installation process
Typically no damage to exterior finish
Wider frame means some
light loss will be experienced
Sometimes considered a
cheaper option for resale purposes
Cannot confirm the integrity
of the original window instillation
Fewer options and upgrades
The disadvantages of insert windows
replacement are undeniable. However, it does have
the advantage of a design for disassembly, which
may outweigh the disadvantages. Insert windows
are more useful because they are cheaper, faster,
easier to install and less destructive.
4.3.3Parts
It has been suggested that a product for
disassembly should be designed by minimizing the
number of components on the grounds that the
number of parts has a direct correlation with
economic efficiency factors in terms of time and
cost. In addition, an inverse correlation exists
between the number of mechanical components
and further usability (Booker, et al., 2005; Branan,
1991; Guy, Shell, & Esherick, 2006; Motevallian,
et al., 2007). Surprisingly this study produced
result that showed users allocate the same levels of
importance to design principles that allow for
disassembly as they did to the number of parts.
This is understandable since fewer parts was an
expected flexible windows feature. Although, the
number of flexible windows components should be
as few as possible, an acceptable level of
functionality should not be overlooked.
Furthermore, designing heavy items, sticky parts
and parts with sharp-edges should be eliminated to
prevent slower processes, threats and a lack of user
involvement.
4.3.4Materials
Material has a great influence on the
process of windows replacement and DfD. This
surveyed identified materials as the second most
important factor for user involvement in the
process of windows replacement. Since flexible
windows design should be in accordance with DfD
guidelines, material selection should employ
recyclable materials, and consider lack of
variations in the materials. Using toxic, composite
material and metal reinforcement in plastic parts
should be avoided. This not only results in
decreasing disassembly operational time but it also
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decreases the costs of separating and sorting
materials for the purpose of recyclability (Booker,
et al., 2005; Deller, et al., n.d.; Guy, et al., 2006;
Motevallian, et al., 2007). In addition, designers
should be aware that according to the findings of
this survey, people appreciate materials that
provide them variety of designs, colors, style, are
light, and are easy to maintain and clean.
Improving the relationship between
humans and their environment and supporting user
comforts and personal well-being would not be
possible unless physical, functional and
psychological comforts are improved. Therefore,
the functional aspects of the windows material are
important. These sorts of features are ease of
maintenance, reparability and durability. The
present findings are supported by Korkut et al.
(2010) who found that easy cleaning, maintaining,
repairing as well as the ability to easily change the
windows were the problems encountered, the
reasons for discomfort and lead to
recommendations for window improvements in
Turkey.
Wanting a variety of designs, styles and
colors is explained by the impact of color on
humans. Jalil, Yunus, & Said (2012) believed that
in the physical environment, color has an important
role in influencing physically, psychologically,
physiologically and sociologically aspects.
Wood was the most favored material among the
users in spite of some of its shortcomings. For
instance, in spite of offering variety of designs,
styles and colors, wooden windows are difficult to
maintain and preserve (Korkut, et al., 2010).
Although wood is a renewable resource, creating
wooden windows requires less energy and
generates less pollution compared to the other
materials, it still has some negative environmental
effects.
Aluminum is not without its shortcomings.
Although the level of user preferences for
aluminum was lower that it was for wood, this type
of windows material offers a variety of designs is
easy to maintain and preserve, and it is adaptable
and recyclable. However, producing this kind of
window material is energy intensive and requires a
large amount of electricity which causes economic
and environmental issues (Korkut, et al., 2010;
National Center for Healthy Housing, 2005).
Pure vinyl frames do not need
preservation. Comparing the process of producing
vinyl and wooden windows frame shows that the
process of vinyl production requires less
manufacturing time. Although it is durable, the
health and environmental effects from producing,
using, and dealing with related waste products
require precautions.
Overall, the literature and findings from this
study suggest that there is a need for further
research to develop an appropriate windows
material for flexible windows.
4.3.5Accessibility
The accessibility of the components is
crucial factor for disassembly operations and it has
a direct relationship with time and cost
(Motevallian, et al., 2007). A high level of
accessibility in the configuration of flexible
windows results in decreasing time and cost needed
for the process of windows replacement. The
position of structural components should allow for
disassembly. Also, component should be designed
so that there is a clear path for removal (Deller, et
al., n.d.; Guy, et al., 2006; Motevallian, et al.,
2007). This survey showed that accessibility of the
components was the most effective factor for
encouraging users to be involved in the process of
windows replacement. However, windows frame
installation does not support a high level of
accessibility.
4.3.6Fasteners and Joints
Fasteners and joints were the fifth most
important parameter for user encouragement in this
study. Fasteners have a vital impact on recovery
and the process of disassembly. How fasteners
should be considered in flexible windows design
starts with the number of joints and fasteners. Since
there is a direct relationship between the number of
the fasteners, time and cost of operation, the
number of fasteners should be reduced without
impacting functionality. Joints must also be
simplified and be easy to undo to prevent
difficulties, complexities and decrease inherent
risks as well as probable damages. Permanent
integration connection techniques should be
prevented. Moreover, decreasing the number of
tools required would not be possible unless by the
standardization of windows connector design is
enforced. In fact, employing the same size of joints
within the same system decreases the variety of
tools needed.
5. CONCLUSION
This paper represents initial knowledge
for developing flexible windows based on the
principles of DfD and understanding user
expectations. This study set out to introduce the
idea of developing flexible windows that could be
disassembled to eliminate the problems by carrying
out investigations related to the meeting the
requirements, user expectations and enhance
environmentally friendliness without causing any
health risks. The results of this study and a review
of the relevant literatures suggest that in order to
create flexible windows, designers should come up
with a simple structure in order to decrease the
level of complexity, disassembly operation steps,
number of parts, cost and time required. The
11. Vahid Moghimi, Mahmud Bin Mohd Jusan / International Journal of Engineering Research
and Applications (IJERA) ISSN: 2248-9622 www.ijera.com
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relationship between the accessibility of
components to time required and cost, and the
discovery that this factor was one of the most
important factors for influencing users in the
process of windows replacement indicated that the
structure of a product should support a high level of
accessibility. The permanent integration of the
frame and other components must be avoided.
Materials were the second most important factor
when it came to user involvement and any
materials chosen should be environmentally
friendly. Any materials employed in the process of
window construction should facilitate a wide
product range and selection, ease of maintenance,
and be lightweight. The intention of flexible
window systems is to improve user physiological
and psychological housing requirements.
Facilitating reusability, reparability,
remanufacturing and recycling will result in needed
resources for future markets. Encouraging these
factors will also improve job opportunities. In
addition to providing opportunities within the
waste management sector, new job opportunities in
the installation industry are plausible, as not every
respondent will be interested in installing their own
windows. The results of this study add substantially
to the requirements of inventing a flexible window.
The fenestration of today must be continuously
developed into the fenestration of tomorrow.
ACKNOWLEDGEMENTS
We would like to appreciate the
management of Universiti Teknologi Malaysia
(UTM) for their continuous support for making this
work possible.
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