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Environmental impacts created by the entire textile and fashion supply chain have been an important topic of discussion in recent decades. Different life cycle phases of a textile product from raw material extraction through manufacturing to consumer use and disposal are all responsible for various magnitudes of environmental impact. Mitigating the environmental impacts created by the textile manufacturing sector is of paramount import as manufacturing is a critical point to alleviate the impacts arising from the entire textiles and clothing supply chain. This contributed volume is meant to illustrate and draw useful conclusions from initiatives taken by the textile manufacturing sector and to identify key practices invented and being practiced by textiles and clothing manufacturers toward making the industry more sustainable.
Natural dyes offer a time-tested and generally more sustainable alternative to synthetic dyes in the textile industry. The issues surrounding synthetic dyes are well-known, and in the literature it is generally accepted that natural dyes have a smaller environmental impact. However, even natural dyes have issues that must be dealt with in order to ensure sustainability in the industry. For example, the mordants needed to improve the dyeing process may release hazardous heavy metal pollutants when used. This book is dedicated to exploring cases such as this that illustrate the benefits and drawbacks to natural dyes and steps that must be taken for their sustainable use in the textile industry.
This contributed volume discusses how consumer awareness of textile sustainability can lead to a more sustainable textile supply chain. From the initial purchase of a textile to its care and longevity, consumer behaviors are at the core of consumption associated with the textile industry. Making consumers aware of the environmental impacts of the clothing products they buy help them to choose the best alternative which has the lowers footprints and also enable them to help the entire textile sector to become sustainable. In addition, making them aware of environmental footprints of textile products from cradle to grave, make them aware of how best they can take care of their products during use and disposal phases and how they can help to preserve the planet with their earnest efforts to reduce the environmental impacts in their boundary, i.e. the use and disposal phases.
Life Cycle Costing (LCC) is a well-known and popular method to evaluate the economic sustainability, which as the term implies is structured on the life cycle of a product or process. LCC is a method primarily consisting of estimating the total cost of a product, taking into account the whole life cycle of the product as well as the direct and external costs. It is one of the important methods and tools under the sustainability umbrella. This book describes the concept of LCC and offers several interesting case studies.
Environmental impacts created by the textiles and fashion sector are well known and acknowledged by various stakeholders involved in the entire supply chain. The entire lifecycle of textile products creates various impacts to the environment and hence any attempts to alleviate the impacts are highly welcomed. The whole sector is keen to investigate novel sustainable alternatives in terms of raw materials, processes, approaches to make the entire textiles and fashion sector more sustainable. This broad title of novel sustainable alternatives can be split into three subtopics: novel raw material alternatives, novel process alternative and novel alternative approaches. This volume is dedicated to deal with the novel sustainable alternative approaches for the textiles and fashion industry.
Environmental impacts created by the textiles and fashion sector are well known and acknowledged by various stakeholders involved in the entire supply chain. The entire lifecycle of textile products creates various impacts to the environment and hence any attempts to alleviate the impacts are highly welcomed. The whole sector is keen to investigate novel sustainable alternatives in terms of raw materials, processes, approaches to make the entire textiles and fashion sector more sustainable. This broad title of novel sustainable alternatives can be split into three subtopics: novel raw material alternatives, novel process alternative and novel alternative approaches. This volume is dedicated to dealing with novel sustainable raw material alternatives for the textiles and fashion industry.
Environmental impacts created by the textiles and fashion sector are well known and acknowledged by various stakeholders involved in the entire supply chain. The lifecycle of textile products creates various impacts to the environment and any attempts to alleviate them are highly welcomed. The whole sector is keen to investigate novel sustainable alternatives in terms of raw materials, processes, approaches to make the entire textiles and fashion sector more sustainable. This broad category of novel sustainable alternatives can be split into three subtopics: novel raw material alternatives, novel process alternative and novel alternative approaches. This volume provides cases describing novel sustainable process alternatives for the textiles and fashion industry.
This contributed volume offers several cases in life cycle assessment (LCA) and implementation of circular economy principles across different industries. LCA is a tool which is utilized to measure the environmental footprints of various products from inception through disposal. Circular economy, a related concept, presents a meaningful alternative to a traditional linear economy as it seeks possible ways to reduce waste, recover resources at the end of a product¿s life, and channel them back into production, thus significantly reducing environmental impacts. LCA and CE complement each other, as the former can be used to meaningfully assess possibilities for the latter. The combination of the principles of CE and LCA enable product developers to quantify the environmental performance of various products, processes and supply chain configurations in order to make progress toward sustainability.
This book highlights the sustainability aspects of products and processes in forest science. The forest products sector supplies raw materials to several industrial sectors worldwide. These products can be classified as timber or non-timber products. Wood products are those that originate from the woody fraction and can include pulp, charcoal, firewood, and others. The non-timber products, on the other hand, have the products extracted from the different parts of the tree, such as bark, leaves, fruits, resins, oils, tannins, or even products extracted from non-woody biomass, such as palm heart or carnauba, among others. There are new studies and new products developed from forests worldwide each day. However, studies that evaluate the sustainability of these products and the processes related to their production are not so common. It is essential to highlight the sustainability aspects of these activities and the products obtained from them; such that steps can be taken to make the processes eco-friendly.Allied to ecological sustainability studies that evaluate the technical and economic feasibility of such activities arise. With this book, the authors through the approach of other products and processes of forest science, present the practical vision of aligning production with sustainability in an economically viable way. The book analyses different products and processes, ranging from technological production of engineered wood products to handcrafted resins with a high commercial appeal. With the expertise of different authors, who are researchers in various specific areas of forest sciences, this book helps expand research and presents new insights, assisting industry decision-makers and researchers working in the areas forest sciences.
Dyes are versatile compounds that have been successfully used in textile printing, rubber, cosmetics, plastic, pharmaceutical, and leather industries to color the products. Dye-using industries, particularly textile or printing industries are responsible for the generation of a great amount of colored wastewater that are polluting and threatening the environment. Many of these dyes are carcinogenic, mutagenic, and teratogenic, as well as harmful to human, aquatic life, and other living things and their elimination from wastewater is highly essential. Various approaches have been implemented in the efforts to mitigate the issue related to textile wastewater, such as adsorption, biological processes, advanced oxidation processes, membrane technology, etc. In this Volume 1, the application of various types of polymers in different wastewater treatment technologies are presented. The synthesis procedure of some polymers, the polymer modification, the effect of operational parameters on polymer efficiency, the interactions between polymers - dyes, etc are discussed.
The textile industry segment has been continuously expanding and it is reported that the global market was US$1000 billion in 2020. Aside from the fact that textile industry could be profitable and offers several advantages for human life, this industry produces wastewater containing many harmful substances in the form of organic and inorganic moieties. Textile wastewater can lead to serious environmental problems if discharged without treatment. In this first volume of the application of biological mechanisms, processes and units are reviewed in terms of dye degradation and removal. The role of biodegradation, bioaccumulation and biosorption in bio-decolorization are discussed. The book starts with highlighting the fundamentals of aerobic and anaerobic mechanisms having different configurations. The moving bed bioreactor (MBBR), up-flow anaerobic sludge blanket reactors, sequential aerobic/anaerobic batch reactors, membrane bioreactor, etc are also covered in this edition.
This book presents five interesting chapters dealing with the sustainability of toys. The concept of sustainability has reached all industrial sectors these days and being practiced in almost all the sectors. One of the main sectors where sustainability has to be embedded to the core is the toy sector. Needless to enumerate the importance of sustainability in this sector especially when it comes to usage of chemicals and so on. There are various elements associated with the sustainability of toys and there is a dearth of published literature on this subject.
This book highlights the applications of blockchain technologies to foster sustainable development in different fields. The concept of Sustainability has grown widespread in today's context and there are many requirements to achieve Sustainability in any industrial sector including mapping, tracing the supply chain to ensure sustainable supply chain management. Reliable and transparent, efficient data is one of the key requirements for Sustainability in today's advanced industrial context. Achievement of Sustainability objectives in this advanced era demands various technological advancements such as Blockchain technologies. The core competencies of blockchain technology namely transparency, data auditability, privacy, value transfer, and process efficiency and automation are very much essential for achieving the multifold objectives under sustainability.
This book presents carbon footprint calculation and mitigation in the manufacturing and transportation sectors. Warning effects of global warming from every sector is of phenomenal importance at this moment and sector wise assessment and remediation are the key factors to mitigate the vulnerable green house gas emissions. This volume with its six chapters deals with the carbon footprint of manufacturing and transportation sectors.
This book highlights the notion of Circular Economy under the umbrella of Sustainability because of the widespread momentum it is gaining. Today the whole world is certainly in emergent need of an alternative system to traditional economy which is linear, i.e. make, use and dispose to get rid-off the waste and very important to ensure continuous use of resources, which is possible by the advent of circular economy. A circular economy aims to utilize the resources in use for as long as possible, extract the maximum value from them during use, then recover and regenerate products and materials at the end of each service life vis-a-vis traditional linear model. This book discusses circular economy in terms of assessment with various case studies.
Packaging plays a major role in the environmental footprints of products from any industrial sector, and thus is important to address the sustainability issues of packaging. Packaging and the packaging sector have to be eco-conscious as there are many types of packaging across various industrial sectors and so are their environmental impacts as well. Plastic packaging is one of the most common element and the packaging sector accounts for almost 40% of plastic pollution in the world. Sustainable packaging is the only way forward to alleviate the environmental devastations from the the packaging sector. This book presents case studies and discusses how to make packaging more sustainable for a better future.
This book presents applications of blockchain technologies to foster sustainable development in the textile and clothing supply chain. The concept of Textiles and Fashion Sustainability has grown to a wider extent today. Among the list of items to achieve Sustainability in Textiles and Fashion, the key element is the traceability of supply chains in terms of mapping and tracing the entire supply chain to ensure sustainable supply chain management. Reliable and transparent, efficient data is one of the crucial requirements for Textiles and Fashion Sustainability in today's advanced industrial context and this is possible in this advanced era by various technological advancements such as Block chain technologies. These days one can see a widespread application of blockchain technology in the Textiles and Clothing sector. The core competencies of blockchain technology namely transparency, data auditability, privacy, value transfer, and process efficiency and automation are very much essential for achieving the multifold objectives under the theme Textiles and Fashion Sustainability.
Environmental Life Cycle Assessment (ELCA) that was developed about three decades ago demands a broadening of its scope to include lifecycle costing and social aspects of life cycle assessment as well, drawing on the three-pillar or 'triple bottom line' model of sustainability, which is the result of the development of the Life Cycle Sustainability Assessment (LCSA). LCSA refers to the evaluation of all environmental, social and economic negative impacts and benefits in decision-making processes towards more sustainable products throughout their life cycle. Combination of environmental and social life cycle assessments along with life cycle costing leads to life cycle sustainability assessment (LCSA). This book highlights various aspects of life cycle sustainability assessment (LCSA).
There are multiple variants of environmental footprints such as carbon footprint, ecological footprint, water footprint, nitrogen footprint and so on. There are numerous developments in terms of measuring the environmental footprints of various products. Many new indicators are being developed in terms of footprints to measure the environmental performance of various products. The need to measure various environmental footprints of agricultural crops is obvious and does not need any explanation these days when the importance of sustainability is felt so much and being practiced in all industrial sectors, including agriculture. This book presents five interesting chapters pertaining to environmental footprints of crops.
This book includes both theoretical conceptualization and practical applications in the fields of product design, architecture, engineering, and materials. The book aimed to inspire scholars and professionals to look at nature as a source of inspiration for developing new project solutions. Moreover, being one of the literature's first direct associations of bionics with sustainability, the book can be used as a reference for those who seek to know more about the theory of bioinspired applications, as well as new technologies, methods, materials, and processes.
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