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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Affordability and preservation issues in green rehabilitations of Baltimore rowhouses

Husain, Sarah S. January 2008 (has links)
Thesis (M.A.)--University of Delaware, 2008. / Principal faculty advisor: Rebecca J. Sheppard, School of Urban Affairs & Public Policy. Includes bibliographical references.
2

Bamboo construction as a sustainable building technology from a structural and materials engineering perspective

Ross, Sheila 15 September 2021 (has links)
The objective of this dissertation is to determine whether bamboo culms or stems are suitable for use as a construction material for permanent structures, from an engineering as well as a sustainability perspective. A secondary objective is to establish whether this would be a suitable building technology for South Africa. The research is desk-top in nature and involves reviewing articles in online journals and publications and collating the information into a coherent form. Eleven species of bamboo commonly used in construction worldwide are selected for investigation of their material and engineering properties. Based on the variations found in the various species of bamboo, approaches to engineering modelling and design of bamboo structures are detailed and discussed. Furthermore, four case studies are presented that illustrate the various areas where bamboo construction is currently used. Finally, research is done regarding the level of the South African bamboo industry, including whether a bamboo species currently exists in South Africa that would be suitable for construction purposes. The preliminary literature review indicated that there is a lack of scientific or structural information regarding bamboo as a building material from an engineering or materials perspective, both globally as well as in South Africa. Although a substantial amount of information was subsequently found on the various aspects of bamboo as a structural material, the information varies widely between sources, which is ascribed to variations in test methods as well as to the location of the species being tested. The design codes and standards from various countries for bamboo design and construction are briefly reviewed. For countries where there is currently no bamboo design code or standard, such as South Africa, it is recommended that the International Standard, ISO 22156, be used as a design basis, using specific material properties relevant to the local species. Many publications state that bamboo is a sustainable building material, comparing favourably with other building materials. However, quantitative proof was found to be either lacking or unclear. Different methods were used in the publications to evaluate bamboo from an environmental perspective, making it difficult to compare and evaluate the different reports and results. However, despite the different methods, it appears that bamboo can be regarded as an environmentally favourable material, provided that local species are used in construction. The four case studies presented demonstrate that bamboo culms are suitable for use in large structures, such as bridges or trusses, as well as for smaller structures such as buildings or houses. They also illustrate the issues that can occur if the design intent is not understood or correctly carried out during construction. South Africa has one bamboo species considered suitable for construction, namely Bambusa balcooa, which is grown in various parts of the country. The properties of the South African plants have not been established as yet. However, theoretical engineering and material properties as determined elsewhere in the world indicate that this is a viable construction material. Further areas of research are the establishment of the material and engineering properties of the local South African bamboo species Bambusa balcooa, as well as further research into the behaviour of bamboo in fire conditions.
3

Life cycle sustainability assessment modeling of building construction

Dong, Yahong, 董雅紅 January 2014 (has links)
Building industry is one of the most influential economic sectors, which accounts for 10% of the gross domestic product (GDP) globally and 40% of the world energy consumption. To achieve the goal of sustainable development, it is necessary to understand the sustainability performance of building construction in the environmental, the economic and the social aspects. This study quantitatively evaluates impacts of building construction in the three aspects by using the recently developed life cycle sustainability assessment (LCSA) methodology, in which environmental life cycle assessment (ELCA), environmental life cycle costing (ELCC), and social life cycle assessment (S-LCA) are integrated. The scope of this research covers ‘cradle-to-site’ life cycle stages, from raw material extraction to on-site construction. Three life-cycle models are developed, namely the Environmental Model of Construction (EMoC), the Cost Model of Construction (CMoC), and the Social-impact Model of Construction (SMoC). EMoC is a comprehensive ELCA model that evaluates environmental impacts of building construction by considering eighteen impact categories. CMoC is an ELCC model that provides analyses on construction costs and externalities. SMoC is an innovative S-LCA model being able to quantify social impacts of building construction in thirteen social impact categories. The three models are then integrated into a newly proposed LCSA framework. In order to select an appropriate LCIA method for EMoC, the differences among existing life cycle impact assessment (LCIA) methods are investigated. It is found that LCIA methods are consistent in global impact categories, while inconsistent in regional impact categories. ‘ReCiPe’ is selected as the LCIA method to be used in EMoC. Midpoint and endpoint approaches of ‘ReCiPe’ can lead to different interpretations. Endpoint approach emphasizes on certain impact categories and can only be used when midpoint results are provided. A life cycle inventory is established for ready mixed concrete and precast concrete based on site-specific data from concrete batching plant and precast yard. EMoC is employed to compare environmental performance of precast and cast-in-situ construction methods. It is found that adoption of precast concrete can significantly improve environmental performance of building construction. SMoC suggests that adoption of precast concrete can have both negative and positive impacts on local employment. A case study is conducted to test the model performance. It demonstrates that environmental impacts of ‘cradle-to-site’ construction activities are mostly attributed to the material stage. The external cost due to carbon emission is about 2% of the total construction cost. Environmental-friendly on-site construction practices can significantly improve social performance of building construction. The major findings of this study are verified through interviews with the local experts in Hong Kong. These validation interviews confirm that the proposed LCSA framework and the developed models contribute to the building industry in Hong Kong. In particular, this study can be used as a supplementary to the building assessment scheme, HK BEAM Plus. Results from this study can improve the understanding of building sustainability. / published_or_final_version / Civil Engineering / Doctoral / Doctor of Philosophy
4

Development of a capability maturity model for sustainable construction

Goh, Cheng Siew, 吳卿秀 January 2014 (has links)
Increasing public awareness on the environmental and social growth has promoted the application of sustainable development in construction. The triple bottom line, namely economy, society and environment is generally recognised as significant dimensions for measuring the performance of sustainability. However, most research often puts their focus on environmental issues, rather than the whole sustainability concept. The implementation of sustainable construction also differs greatly from one practice to another, since its definition and principles are still highly debatable. Additionally, it appears that various standards and certifications in the market do not embrace three pillars – environmental, social and economic sustainability in their assessments either. To incorporate the best value of sustainable construction, it is crucial to determine the gap between stakeholders’ expectations and actual deliverables of sustainable construction. Therefore, this research aims to explore and determine the maturity status of sustainable development implementation in the current construction industry. The Sustainable Construction Maturity Model (SCMM) is developed to assist construction stakeholders in gaining a richer understanding on the practices of sustainable construction. Pilot interviews were conducted to determine the appropriateness of research methods as well as to validate the SCMM. The research employed in-depth interviews and case studies as principal research methods to develop deeper insights of the development of sustainable construction, by triangulating data sources. A supplement questionnaire survey was also used to have a meta-analysis on the results obtained. The empirical evidence implies that sustainable construction could be practised at two extremes – exceptionally high and low maturity, regardless of sectors. This large gap suggests that the development of sustainable construction are rather diverged and fragmented in the industry. Although social and economic sustainability may not be absolutely excluded, current sustainable practices tend to put more effort on environmental sustainability. A loss of balance in achieving the three pillars may undermine the full potential of realising sustainable construction. Additionally, the research also found that good coordination between stakeholders is required not only during the design and construction stages but also in the post occupancy stage. Building a good sustainability culture could always bring more significant implications on the maturity status of sustainable construction, rather than the built-in high technology facilities in the built environment. To transform the built environment into a holistic sustainable development world, striking a balance of the triple bottom line is required. This research can steer the construction community to improve their performance in attaining the goals of sustainable construction. The SCMM can also provide an objective and consistent assessment tool to manage sustainable capability and capacity and to position the current performance level. By having a better understanding of the overall development of sustainable construction, practitioners can shape their future directions and strategies better and, in turn move sustainability performance in construction to a higher level of maturity. Since sustainable construction emphasises long terms development, continual efforts shall be made to achieve sustainability. / published_or_final_version / Real Estate and Construction / Doctoral / Doctor of Philosophy
5

Green procurement for municipal construction projects

Maboza, Luthando Sithembele January 2015 (has links)
The study is a qualitative investigation of the implementation of green procurement in the construction sector at Local Government level. The focus is on the Metropolitan Municipalities of EThekwini, Nelson Mandela Bay and City of Cape Town. For the purpose of realising an extended comparative perspective, an additional three smaller municipalities were also reviewed. Green procurement is the tool used by governments to source the supply of products and services that are environmentally friendly to counter the global problem of climate change. The study commences with the exposition of the aspects of green procurement from the basis of the enabling legal framework to the scholarly contribution from which the study can be predicated. It becomes apparent from this review of legislation that there is a scope within the existing body of legislation for the use of green procurement as an environmental tool. Scholarly work addresses adoption of green procurement and considers, inter alia, the Bottom-up Approach, the Top-down Approach, and the Procura + Milestones model. Literature indicates that development has a negative impact on the environment, which includes vegetation loss, illegal dumping, and greenhouse gas emissions. Further, the literature recommends green lifecycle design and production of construction projects to reduce the impact of construction on the environment. A systematic investigation of municipalities by means of interviews with relevant municipal officials involved with the procurement of products and services, infrastructure services and environmental affairs officials made it possible to identify factors that impact on the implementation of green procurement. The investigation finds that the major obstacles to green procurement are socio-economic challenges that confront municipalities, lack of policy, and lack of awareness. Recommendations include the proposal of initiatives that encourage and improve the implementation of green procurement. The study hopes to inspire innovation in the implementation of green procurement in the construction sector.
6

Constructability effects of green buildings

Hurbissoon, Roneesh Mehta January 2011 (has links)
The Earth's health is deteriorating and will deteriorate even more rapidly unless people adopt eco-friendly policies. Green building has long been a concept but it has not yet been universally applied in practice. The concept of sustainability emerged in the 1970s and can be associated with the energy crisis and environmental pollution concerns. This research is aimed at investigating whether building “green” is more demanding than non-green buildings in terms of cost and the use of green materials against traditional materials; whether professionals in the construction industry are knowledgeable in terms of green buildings; and lastly, to determine whether green buildings are contributing significantly to the environment. The literature reviewed and results of quantitative research amongst professionals from the Island of Mauritius formed the basis of the study. The study revealed that green building is expensive relative to traditional buildings considering. However, the concepts employed (for example: lower energy use, less waste disposal, lower water usage, and sustainable design) provide green buildings with long term savings. Furthermore, the scarcity of natural materials makes it expensive. The study also showed that contractors and professionals have a preference for traditional materials over green materials thus making them more familiar with traditional materials. Contractors and professionals are believed to understand green materials only on a limited basis. This may be attributed to the specific environmental issues involved; however, the research revealed that the professionals are familiar with the basic concepts of green buildings. Lastly, the research showed that green building is still at its infancy but the benefits of green buildings are understood; resulting in green buildings having a good growth potential. The study should be valuable to construction industry professional and clients.
7

Study of sustainability opportunities during construction

Torres, Neftali 12 September 2014 (has links)
Construction Sustainability involves the processes, decisions, and actions during the construction phase of capital projects that enhance current and future environmental, social, and economic needs while considering project safety, quality, cost, and schedule. Most of the currently available published literature and advances in project level sustainability practices have focused on the early Concept Planning and Design phases of capital projects. Knowledge of sustainability practices during the Construction phase of capital projects is still in the early development stages and is highly fragmented; information regarding the selection, assessment, and implementation of construction sustainability solutions has remained largely unavailable or underdeveloped. Moreover, capital project owners and constructors increasingly seek practical guidance and resources to better integrate and evaluate sustainability decisions and actions within project construction services. The dearth of research on effective sustainability practices during the construction phase suggests that higher levels of sustainability attention and effort are needed in this area, in addition to the creation of support guidance and tools. To fill this gap in knowledge, this research has identified 54 unique actions that project teams can apply during construction to enhance the overall sustainability of their project. These construction phase sustainability actions (CPSAs) have been cataloged, characterized, and evaluated to facilitate their consideration and implementation by project teams. To further support the selection process and implementation of these actions, the research team developed a high-level strategic work process, a spreadsheet-based CPSA Screening Tool, and additional in-depth guidance for three CPSAs. In addition, both input- and output-oriented construction sustainability metrics have been developed and identified. Equipped with the findings from this study, owners and construction contractors will be better prepared to implement sustainability actions during the construction phase of capital projects. / text
8

Integrating deconstruction into the project delivery process

Isidianso, Chinwe January 2007 (has links)
Considering deconstruction as a means of achieving sustainable construction, would enable the construction industry to address some of its environmental problems. In addition, the growing pressure from the public and legislation for environmental considerations, means that there is now a need for the construction industry to increasingly consider the recycling and reuse of building components used in constructing buildings. The deconstruction of buildings provides the construction industry with the opportunities to effectively deal with its unsustainable construction practices. One of the approaches taken by industry to facilitate the adoption of deconstruction is designing a building with the intention of disassembly instead of demolition at the end of its useful life. This concept is known as Design for Deconstruction (DFD). Although some research works have been undertaken to support and establish deconstruction into current construction practice, there is little or no guidance for practitioners on how best to do this. This need to fully integrate the concept of design for deconstruction into the current project delivery process is the basis of this research. In order to contextualise, corroborate and develop the research, a review of existing literature on sustainable construction and deconstruction was undertaken. Following from the review of literature, a survey and case study were undertaken to explore the current practice of deconstruction and investigate a practical example of sustainable construction practice that reflects the integration of deconstruction principles within the building process. The findings from the review of literature, the survey and case study were used to develop a mechanism for integrating deconstruction into the building process. The mechanism is a process model for the construction industry to implement the concept of DFD from inception to completion of a building project and throughout a building's lifecycle. Evaluation of the developed process model was carried out by industry practitioners to assess its suitability and practicability. The feedback from the evaluation established that the process model is effective in enabling some aspects of sustainability principles such as designing to minimise waste and encouraging the reuse and recycle of building materials and components. Several benefits and potentials of the process model were also identified. Considering deconstruction as a means of achieving sustainable construction, would enable the construction industry to address some of its environmental problems. In addition, the growing pressure from the public and legislation for environmental considerations, means that there is now a need for the construction industry to increasingly consider the recycling and reuse of building components used in constructing buildings. The deconstruction of buildings provides the construction industry with the opportunities to effectively deal with its unsustainable construction practices. One of the approaches taken by industry to facilitate the adoption of deconstruction is designing a building with the intention of disassembly instead of demolition at the end of its useful life. This concept is known as Design for Deconstruction (DFD). Although some research works have been undertaken to support and establish deconstruction into current construction practice, there is little or no guidance for practitioners on how best to do this. This need to fully integrate the concept of design for deconstruction into the current project delivery process is the basis of this research. In order to contextualise, corroborate and develop the research, a review of existing literature on sustainable construction and deconstruction was undertaken. Following from the review of literature, a survey and case study were undertaken to explore the current practice of deconstruction and investigate a practical example of sustainable construction practice that reflects the integration of deconstruction principles within the building process. The findings from the review of literature, the survey and case study were used to develop a mechanism for integrating deconstruction into the building process. The mechanism is a process model for the construction industry to implement the concept of DFD from inception to completion of a building project and throughout a building's lifecycle. Evaluation of the developed process model was carried out by industry practitioners to assess its suitability and practicability. The feedback from the evaluation established that the process model is effective in enabling some aspects of sustainability principles such as designing to minimise waste and encouraging the reuse and recycle of building materials and components. Several benefits and potentials of the process model were also identified.Considering deconstruction as a means of achieving sustainable construction, would enable the construction industry to address some of its environmental problems. In addition, the growing pressure from the public and legislation for environmental considerations, means that there is now a need for the construction industry to increasingly consider the recycling and reuse of building components used in constructing buildings. The deconstruction of buildings provides the construction industry with the opportunities to effectively deal with its unsustainable construction practices. One of the approaches taken by industry to facilitate the adoption of deconstruction is designing a building with the intention of disassembly instead of demolition at the end of its useful life. This concept is known as Design for Deconstruction (DFD). Although some research works have been undertaken to support and establish deconstruction into current construction practice, there is little or no guidance for practitioners on how best to do this. This need to fully integrate the concept of design for deconstruction into the current project delivery process is the basis of this research. In order to contextualise, corroborate and develop the research, a review of existing literature on sustainable construction and deconstruction was undertaken. Following from the review of literature, a survey and case study were undertaken to explore the current practice of deconstruction and investigate a practical example of sustainable construction practice that reflects the integration of deconstruction principles within the building process. The findings from the review of literature, the survey and case study were used to develop a mechanism for integrating deconstruction into the building process. The mechanism is a process model for the construction industry to implement the concept of DFD from inception to completion of a building project and throughout a building's lifecycle. Evaluation of the developed process model was carried out by industry practitioners to assess its suitability and practicability. The feedback from the evaluation established that the process model is effective in enabling some aspects of sustainability principles such as designing to minimise waste and encouraging the reuse and recycle of building materials and components. Several benefits and potentials of the process model were also identified. Thus, in this research, it can be concluded that integrating the concept of deconstruction into the construction project delivery process can assist the industry to better reuse and recycle building materials and achieve a sustainable environment. Furthermore, the expected impact of the research on the construction industry is a practical process model that can be used to incorporate the concept of deconstruction into the project delivery process. This can be adopted at all the stages of the building process and would benefit the industry as it offers a solution to reduce the environmental impacts caused by its activities.
9

Sustentabilidade em arquitetura: referências para projeto / Sustainability in architecture: project references

Serrador, Marcos Eduardo 06 November 2008 (has links)
As questões ligadas à construção sustentável têm se mostrado de grande importância entre as diversas considerações necessárias ao campo da arquitetura atualmente. Do enfrentamento destas questões o próprio processo de projeto pode beneficiar-se, nutrindo-se de novos dados e condicionantes que o enriqueçam e elevem o nível da produção edilícia. No contexto nacional especificamente, onde a urgência de suprimento das necessidades mais básicas, sobretudo na área social, coexiste com o desperdício e a improvisação no setor da construção, estudar como responder a essas questões passa a ser crucial para o bom desenvolvimento do setor da construção civil. Os possíveis benefícios alcançados na área da construção certamente têm um amplo alcance, inclusive social. Partindo da constatação de que o tema da construção sustentável ainda se mostra incipiente na prática construtiva no contexto brasileiro, é proposta neste trabalho a análise da conjuntura do setor da construção civil no Brasil, das ferramentas e instrumentos existentes, voltados direta ou indiretamente à implementação de práticas mais sustentáveis na fase de projeto, considerada neste trabalho como elo fundamental de toda cadeia produtiva de edifícios. Assim, o objetivo deste trabalho é sistematizar as informações levantadas, compondo um estado da arte das questões ligadas à construção sustentável no Brasil, identificando possíveis gargalos durante a concepção do projeto e estabelecer possíveis referências para a implementação do conceito na cultura construtiva. As referências estruturam-se em experiências internacionais, referências normativas ou relativas à certificação, referências sobre a produção dos principais materiais de construção no Brasil e referências de experiências práticas realizadas recentemente no mercado nacional. Através do estudo destas diversas referências levantadas, as diferenças entre a dinâmica da cadeia da construção civil em países onde o tema da sustentabilidade se encontra em pleno desenvolvimento e a realidade brasileira se torna clara. Os resultados revelam um problema conjuntural no contexto brasileiro, marcado principalmente pela ausência dos setores governamentais na composição da cadeia da construção de maneira efetiva, seja na liderança das discussões, através do estabelecimento de planos e metas aos outros agentes, seja na criação de demanda, elevando os padrões de qualidade na produção de edifícios. Esta ausência governamental deixa espaço para respostas a curto prazo à nova demanda propostas pelo próprio mercado da construção, pela iniciativa algumas vezes isolada de profissionais e empresas, sem um planejamento efetivo para o desenvolvimento do setor na direção de uma forma mais sustentável de construir. / Questions about sustainable construction have been showing themselves of great importance among the various considerations needed by the architecture field nowadays. From the confrontation of these questions the proper process of project can benefit, nourishing itself of new data and factors that enrich it and raise the level of the building production. In the national context specifically, where the urgency of supplying the most basic necessities, specially in the social area, coexists with wastefulness and improvisation in the construction sector, studying how to answer these questions becomes crucial to the good development of the civil construction sector. The possible benefits reached in the construction area certainly have an ample reach, including the social one. From the evidence that the sustainable construction subject still reveals itself incipient in the brazilian´s constructive practice context, it is proposed in this work the analysis of the civil construction sector´s conjuncture in Brazil, of the tools and existing instruments, directly or indirectly related to the implementation of more sustainable practices in the phase of project, considered in this work as the basic link of the whole productive chain of buildings. Thus, the objective of this work is to systematize the gathered information, composing a state of the art of the questions related to the sustainable construction in Brazil, identifying possible problems during the conception of the project, and to establish possible references to the implementation of the concept in the constructive culture. The references are structured in international experiences, normative or certification related references, references about the production of Brazil´s main construction materials, and references of practical experiences recently made in the national market. Through the study of these various raised references, the differences between the dynamics of the civil construction chain in countries where the subject of sustainabilty finds itself in full development and the Brazilian reality become clear. The results disclose a conjuncture problem in the Brazilian context, mainly marked by the absence of the governmental sectors in the composition of the construction chain in a effective way, either in the leadership of the discussions, by the establishment of plans and goals to the other agents, either in the creation of demand, raising the quality standards in the production of buildings. This governmental absence leaves a space for short-term answers to the new demand proposed by the construction market itself, by the some times isolated initiative of professionals and companies, lacking an effective planning for the sector´s development in the direction of a more sustainable way to construct.
10

Product stewardship as a novel sustainability pathway for the UK precast concrete industry

Aliyu, Abdullahi A. January 2014 (has links)
Over the last two decades, sustainability has matured to become a societal imperative and is at the forefront of UK government policy and industry strategy. For example, the Strategy for Sustainable Construction (BERR, 2008) and Low Carbon Construction (BIS, 2012) reports have focused on encouraging more sustainable construction through reductions in energy, water and resource use. In response to such demands, the UK precast concrete industry developed a sector sustainability strategy and subsequently chose to continue activities in this area through an Engineering Doctorate (EngD) research project. The project focused on the scope for applying the principles of product stewardship (PS) as a means to mitigate environmental impacts associated with precast products, throughout the entire life-cycle of their use. Numerous PS schemes have been adopted in other industrial sectors, such as chemicals, electronics and product manufacture. One of the distinguishing features of PS is that multiple stakeholders need to take responsibility for their ‘share' of environmental impacts, and that life-cycle thinking should pervade the value chain. Hence, through PS, the precast industry might be able to address not only the impacts within cradle-to-gate phases, but also develop a framework to positively act on broader, cradle-to-grave impacts. The aim of this research was to develop a framework for embedding the principles of PS more deeply into the precast industry, creating a novel pathway towards more sustainable construction. The research commenced with a literature review to understand the key sustainability issues affecting the industry, followed by an analysis and synthesis of industry key performance indicator (KPI) data from 2006–2012. Industry participation in the research was facilitated through a questionnaire survey and interviews with senior staff within UK precast businesses. Evidence of PS practices was found to exist within the industry through responsible sourcing schemes, implementation of Environmental Management Systems and through the mitigation of various specific impacts. However, the coordinated communication of such initiatives was found to be lacking and with the advent of new European standards around Environmental Product Declarations (EPD) for construction, it was decided that the precast industry would benefit from a sector-specific EPD framework to capture and communicate its PS credentials. An EPD framework and tool was therefore developed and validated through a focus group, to establish whether an EPD can be used successfully to deliver environmental information and refine an approach such that it would accord with the principles of PS. Further research and development arising from this research could focus on implementation and evaluation of the industry-specific EPD scheme, a mechanism to communicate and share life-cycle information amongst upstream and downstream stakeholders and a means through which stakeholder responsibility can be attributed and managed effectively. The key findings of this research have been presented in four peer–reviewed papers (one of which is in draft) which are presented in the Appendices.

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