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Author: Diego F Romero Publisher: ISBN: Category : Languages : en Pages :
Book Description
Cathode ray tube (CRT) glass, when disposed, is considered a hazardous material due to its lead toxicity. Currently available disposal methods for this material are being phased out due to their adverse environmental impacts. A study of the durability, material mechanical properties, and the potential for adverse environmental impact of the use of hazardous waste materials as a component in portland cement concrete is presented. This dissertation uses CRT glass as a test bed material to promote sustainable construction materials and hazardous waste recycling. An important goal of this dissertation is to fill an existing knowledge gap between the research methodology applied to assessing concrete durability and methods of evaluating environmentally detrimental leachates such as lead that is found in CRT waste materials. CRT glass was used to substitute up to 30% of the fine-aggregate component of a typical South Florida non-structural concrete mixture. An organic biopolymer admixture solution of guar gum and boric acid was used in the concrete mixture to bind and encapsulate the lead ions to the cementitious matrix. Additionally, modifications to accelerated aging, diffusion, and durability tests were developed and combined to innovatively simulate the service life of CRT-concrete and to evaluate the effects that concrete deterioration (i.e. micro-crack formation from alkali-silica reaction expansions, micro-structure changes due to accelerated aging, and surface spalling from freeze-thaw testing) have on contaminant leaching. The biopolymer solution was shown to be effective by encapsulating lead leachate to concentrations that are below US government-regulated drinking water limits. Additionally, the compressive strength of CRT-concrete was comparable to the control mixture. The results of the modified deterioration and leaching tests show that microcracks, surface spalling, and loss of modulus of elasticity had an adverse impact on the durability and strength of the composite material. A relationship between alkali-silica reaction expansions and the gradient in contaminant leaching could not be observed due to the rapid rate of saturation of the leachate solution with the constituent of concern. The results from combined accelerated aging and diffusion tests revealed that lead leaching behavior for specimens that were exposed to an elevated temperature and a neutral pH environment deviate slightly from the behavior typically found in purely diffusion controlled specimens. However, Crank's numerical solution to Fick's 2nd Law of Diffusion was still able to conservatively predict the contaminant release. Finally, the combined freeze-thaw/diffusion tests showed that surface deterioration of CRT-concrete results in a statistically significant increase in lead leaching. Overall, the use of CRT glass as a component of concrete was shown not to be detrimental to the structural and durability performance when compared to control mixtures. Furthermore, a framework was developed to guide researchers, regulatory agencies and environmental engineers through a number of structural, environmental, and management-related issues that need to be addressed during each phase of the life cycle of a concrete material that contains recycled waste aggregates. A maximum use of 10% CRT glass is recommended to meet the durability (alkali-silica reactions) and environmental requirements. Lastly, the observed relationship between the combined durability and leaching tests demonstrates the importance of encouraging researchers and regulatory agencies to consider durability as a contributing factor in the assessment of a material containing hazardous wastes for possible adverse environmental impact.
Author: Diego F Romero Publisher: ISBN: Category : Languages : en Pages :
Book Description
Cathode ray tube (CRT) glass, when disposed, is considered a hazardous material due to its lead toxicity. Currently available disposal methods for this material are being phased out due to their adverse environmental impacts. A study of the durability, material mechanical properties, and the potential for adverse environmental impact of the use of hazardous waste materials as a component in portland cement concrete is presented. This dissertation uses CRT glass as a test bed material to promote sustainable construction materials and hazardous waste recycling. An important goal of this dissertation is to fill an existing knowledge gap between the research methodology applied to assessing concrete durability and methods of evaluating environmentally detrimental leachates such as lead that is found in CRT waste materials. CRT glass was used to substitute up to 30% of the fine-aggregate component of a typical South Florida non-structural concrete mixture. An organic biopolymer admixture solution of guar gum and boric acid was used in the concrete mixture to bind and encapsulate the lead ions to the cementitious matrix. Additionally, modifications to accelerated aging, diffusion, and durability tests were developed and combined to innovatively simulate the service life of CRT-concrete and to evaluate the effects that concrete deterioration (i.e. micro-crack formation from alkali-silica reaction expansions, micro-structure changes due to accelerated aging, and surface spalling from freeze-thaw testing) have on contaminant leaching. The biopolymer solution was shown to be effective by encapsulating lead leachate to concentrations that are below US government-regulated drinking water limits. Additionally, the compressive strength of CRT-concrete was comparable to the control mixture. The results of the modified deterioration and leaching tests show that microcracks, surface spalling, and loss of modulus of elasticity had an adverse impact on the durability and strength of the composite material. A relationship between alkali-silica reaction expansions and the gradient in contaminant leaching could not be observed due to the rapid rate of saturation of the leachate solution with the constituent of concern. The results from combined accelerated aging and diffusion tests revealed that lead leaching behavior for specimens that were exposed to an elevated temperature and a neutral pH environment deviate slightly from the behavior typically found in purely diffusion controlled specimens. However, Crank's numerical solution to Fick's 2nd Law of Diffusion was still able to conservatively predict the contaminant release. Finally, the combined freeze-thaw/diffusion tests showed that surface deterioration of CRT-concrete results in a statistically significant increase in lead leaching. Overall, the use of CRT glass as a component of concrete was shown not to be detrimental to the structural and durability performance when compared to control mixtures. Furthermore, a framework was developed to guide researchers, regulatory agencies and environmental engineers through a number of structural, environmental, and management-related issues that need to be addressed during each phase of the life cycle of a concrete material that contains recycled waste aggregates. A maximum use of 10% CRT glass is recommended to meet the durability (alkali-silica reactions) and environmental requirements. Lastly, the observed relationship between the combined durability and leaching tests demonstrates the importance of encouraging researchers and regulatory agencies to consider durability as a contributing factor in the assessment of a material containing hazardous wastes for possible adverse environmental impact.
Author: F. Pacheco-Torgal Publisher: Elsevier ISBN: 0857096907 Category : Technology & Engineering Languages : en Pages : 671
Book Description
The civil engineering sector accounts for a significant percentage of global material and energy consumption and is a major contributor of waste material. The ability to recycle and reuse concrete and demolition waste is critical to reducing environmental impacts in meeting national, regional and global environmental targets. Handbook of recycled concrete and demolition waste summarises key recent research in achieving these goals. Part one considers techniques for managing construction and demolition waste, including waste management plans, ways of estimating levels of waste, the types and optimal location of waste recycling plants and the economics of managing construction and demolition waste. Part two reviews key steps in handling construction and demolition waste. It begins with a comparison between conventional demolition and construction techniques before going on to discuss the preparation, refinement and quality control of concrete aggregates produced from waste. It concludes by assessing the mechanical properties, strength and durability of concrete made using recycled aggregates. Part three includes examples of the use of recycled aggregates in applications such as roads, pavements, high-performance concrete and alkali-activated or geopolymer cements. Finally, the book discusses environmental and safety issues such as the removal of gypsum, asbestos and alkali-silica reaction (ASR) concrete, as well as life-cycle analysis of concrete with recycled aggregates. Handbook of recycled concrete and demolition waste is a standard reference for all those involved in the civil engineering sector, as well as academic researchers in the field. Summarises key recent research in recycling and reusing concrete and demolition waste to reduce environmental impacts and meet national, regional and global environmental targets Considers techniques for managing construction and demolition waste, including waste management plans, ways of estimating levels of waste, the types and optimal location of waste recycling plants Reviews key steps in handling construction and demolition waste
Author: Enric Vázquez Publisher: Springer Science & Business Media ISBN: 9400749082 Category : Technology & Engineering Languages : en Pages : 251
Book Description
This report is a useful tool for countries starting to recycle aggregates or construction and demolition waste. It contains the latest developments in this field, introduces a completely new approach to the procedure of proportioning concrete mixtures with recycled aggregate, references recent publications, opinions and discrepancies in relation to the durability of recycled concrete, such as freeze-thaw standards, studies of chloride penetration and diffusion, and sulfate attacks, the use of the fine fraction This volume will be of interest to recyclers, researchers and consumers.
Author: Ravindra K. Dhir OBE Publisher: Woodhead Publishing ISBN: 0081009909 Category : Technology & Engineering Languages : en Pages : 478
Book Description
This book is the fourth, in the series of five, on sustainable construction materials and like the previous three, it is also different to the norm. Its uniqueness lies in using the newly developed, Analytical Systemisation Method, in building the data-matrix sourced from 751 publications, contributed by 1402 authors from 513 institutions in 51 countries, from 1970 to 2017, on the subject of processed waste glass (glass cullet) as a construction material, and systematically analysing, evaluating and modelling this information for use of glass cullet as cement, aggregate or filler in concrete, ceramics, geotechnics and road pavement applications. Environmental issues, case studies and standards are also discussed. The work establishes what is already known and can be used to further progress the use of sustainable construction materials. It can also help to avoid repetitive research and save valuable resources. The book is structured in an incisive and easy to digest manner and is particularly suited for researchers, academics, design engineers, specifiers, contractors, and government bodies dealing with construction works. Provides an extensive source of valuable database information, supported by an exhaustive list of globally-based published literature over the last 40-50 years Offer an analysis, evaluation, repackaging and modeling of existing knowledge on sustainable construction practices Provides a wealth of knowledge for use in many sectors relating to the construction profession
Author: Publisher: ISBN: Category : Languages : en Pages : 208
Book Description
Concrete is the most commonly used building material in the construction industry, and contributes to 52% of construction and demolition waste in Canada. Recycled concrete aggregate (RCA) is one way to reduce this impact. To evaluate the performance of coarse and granular (fine and coarse) RCA in structural concrete applications, four studies were performed: an environmental assessment, a material testing program, a shear performance study, and a flexural performance study. To determine the environmental benefits of recycled aggregate concrete (RAC), three case studies were investigated using different populations and proximities to city centres. Environmental modelling suggested that RCA replacement could result in energy savings and greenhouse gas emission reductions, especially in remote areas. Tests were performed to determine if the volumetric replacement of up to 30% coarse RCA and 20% granular RCA is suitable for structural concrete applications in Canada. Fresh, hardened, and durability properties were evaluated. All five (5) of the RCA mixes showed equivalent material performance to the control mixes and met the requirements for a structural concrete mix. The five (5) RAC mixes were also used in structural testing. One-way reinforced concrete slab specimens were tested to failure to evaluate the shear and flexural performance of the RAC members. Peak capacities of and crack formation within each member were analyzed to evaluate the performance of RAC compared to conventional concrete. The shear capacity of specimens made from four (4) of the five (5) RAC mixtures was higher or equivalent to the control specimens. Specimens of the concrete mixture containing the highest content of recycled aggregate, 20% volumetric replacement of granular RCA, had shear capacities 14.1% lower, and exhibited cracking at lower loads than the control. The average flexural capacities of all RAC specimens were within 3.7% of the control specimens. Results from this research provide evidence that up to 30% coarse recycled concrete aggregate and 10% granular recycled aggregate may be incorporated into structural concrete mixtures without altering the behaviour of the structure. Concrete containing 20% volumetric replacement of the natural aggregate with granular RCA should be designed with special consideration of the shear performance.
Author: Francesco Colangelo Publisher: Woodhead Publishing ISBN: 0128230134 Category : Technology & Engineering Languages : en Pages : 730
Book Description
The Handbook of Sustainable Concrete and Industrial Waste Management summarizes key research trends in recycling and reusing concrete and industrial waste to reduce their environmental impact. This volume also includes important contributions in collaboration with the CRI-TEST Innovation Lab, Naples – Acerra. Part one discusses eco-friendly innovative cement and concrete and reviews key substitute materials. Part two analyzes the use of industrial waste as aggregates and the mechanical properties of concrete containing waste materials. Part three discusses differences between innovative binders, focusing on alkali-activated and geopolymer concrete. Part four provides a thorough overview of the life cycle assessment (LCA) of concrete containing industrial wastes and the impacts related to the logistics of wastes, the production of the concrete, and the management of industrial wastes. By providing research examples, case studies, and practical strategies, this book is a state-of-the-art reference for researchers working in construction materials, civil or structural engineering, and engineers working in the industry. Offers a systematic and comprehensive source of information on the latest developments in sustainable concrete; Analyzes different types of sustainable concrete and innovative binders from chemical, physical, and mechanical points of view; Includes real case studies showing application of the LCA methodology.
Author: F Pacheco Torgal Publisher: Woodhead Publishing ISBN: 0128190566 Category : Technology & Engineering Languages : en Pages : 594
Book Description
Advances in Construction and Demolition Waste Recycling: Management, Processing and Environmental Assessment is divided over three parts. Part One focuses on the management of construction and demolition waste, including estimation of quantities and the use of BIM and GIS tools. Part Two reviews the processing of recycled aggregates, along with the performance of concrete mixtures using different types of recycled aggregates. Part Three looks at the environmental assessment of non-hazardous waste. This book will be a standard reference for civil engineers, structural engineers, architects and academic researchers working in the field of construction and demolition waste. Summarizes key recent research in recycling and reusing concrete and demolition waste to reduce environmental impacts Considers techniques for managing construction and demolition waste, including waste management plans, ways of estimating levels of waste, and the types and optimal location of waste recycling plants Reviews key steps in handling construction and demolition waste
Author: Hosam Saleh Publisher: BoD – Books on Demand ISBN: 1838819568 Category : Technology & Engineering Languages : en Pages : 191
Book Description
Concrete is a material used widely in building and construction applications worldwide; hence, it plays a significant role in the global construction sector. Cement is a major component of concrete and is used in construction applications, either on its own or as a composite with other materials, to improve workability, durability, strength, weight, and shrinkage. However, cement and concrete production and use have adverse environmental effects. Thus, great efforts have been made to produce eco-friendly concrete. This book examines several aspects of sustainable concrete technologies, including new forms of concrete as well as different approaches for creating sustainable cement.
Author: Saif Bin Salah Publisher: ISBN: Category : Languages : en Pages : 116
Book Description
Resilient Modulus (MR) is one of the most important stiffness parameter to determine the thickness of a pavement layer (AASHTO 2003 pavement design guideline). Recent studies conducted by researchers on the variability of MR with wetting-drying (WD) and freeze-thaw (FT) cycles show that long-term durability is an important criterion to be considered in designing pavement base with recycled materials. At present, the design procedure does not consider the effect of deterioration of pavement layers due to seasonal variations and limited studies have been conducted to evaluate the effect of environmental deterioration on the reclaimed asphalt pavement (RAP) and recycled crushed concrete aggregate (RCCA) mixtures stabilized with cement. The objective of this study is to evaluate the long-term durability of RCCA and RAP mix materials under repeated wetting-drying cycles. Three different combinations of RCCA and RAP materials containing 0%, 30% and 50% RAP content were used in this study. Each of these combinations were then stabilized with 4% and 6% cement content. After curing for 7 days the samples prepared from these material combinations were subjected to 4, 8, 16 and 30 wetting-drying (W-D) cycles. For the purpose of comparison, a different set of samples of the same combinations were prepared, cured for 7 days, and then further cured for 15, 25, 40 and 70 days. Resilient modulus tests were then conducted on all the samples at the end of these specified W-D cycles and curing periods. Environmental tests were also conducted to assess the effect of WD cycles on the washed-out water quality. These tests included total suspended solids (TSS), total dissolved solids (TDS), turbidity, chemical oxygen demand (COD) and pH. MR test results indicated that addition of 50% RAP into the mix reduced the resilient modulus (MR) by about 39%. Increasing the cement content from 4% to 6% increased the MR values by about 20-35% for all material combinations. Higher cement content also resulted in higher durability of the materials containing 30% and 50% of RAP. All the six material combinations used in this study showed adequate strength after 7-days of curing. But the mix containing 30% RAP + 70% RCCA 4% cement (30R_4C) and 50% RAP + 50% RCCA 4% cement (50R_4C) failed to meet the minimum layer coefficient value of 0.13 (AASHTO 2003) for pavement base layer after 8-16 wetting-drying cycles. Results obtained from the environmental tests after 30 WD cycles were found to be within the permissible values provided by EPA guidelines.
Author: Ashraf Ashour Publisher: Elsevier ISBN: 0443156735 Category : Technology & Engineering Languages : en Pages : 749
Book Description
Sustainable Concrete Materials and Structures focuses on recent research progress and innovations in this important field of research. All aspects of the technical routes to sustainable concrete and structures are discussed in detail. These include recent findings on sustainable concrete production and structural design and construction. Low-carbon cement, sustainable concrete mix design, durability, and structural applications are discussed in detail. Emphasis is placed on how to bring some of the innovations in concrete technology closer to market. Information on techno-economic analysis, economy of scale, and the supply chain of sustainable concrete is also addressed. The book will be an essential reference resource for academic and industrial researchers working in civil engineering, material science, chemical engineering, and the development and manufacture of construction materials. - Provides a comprehensive collection of technical reviews on the latest advancements in sustainable concrete materials and structures - Presents state-of-the-art research on preparation, production, processing, and implementation techniques for sustainable concrete materials and structures - Features techno-economic analysis for each technology discussed - Covers lifecycle assessment, the Circular Economy and end of life of concrete structures - Includes industry case studies on implementation
Author: Diego F Romero
Author: Diego F Romero
Author: F. Pacheco-Torgal
Author: Enric Vázquez
Author: Ravindra K. Dhir OBE
Author: 
Author: Francesco Colangelo
Author: F Pacheco Torgal
Author: Hosam Saleh
Author: Saif Bin Salah
Author: Ashraf Ashour