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Upcycling and Recycling
It doesn't take a superhero to save the world, it takes everyone doing their bit.Join the Small Steps Revolution and make a real change.Our revolutionaries are waiting to share the small steps you can do to be part of the solution.VIVA LA SMALL STEPS REVOLUTION!
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Organizations and Technology for Sustainability
This book presents insights on digital transformation with a multidisciplinary lens.Collecting chapters from several management perspectives, it provides perspectives on the role of various concepts and elements that are needed by our organizations to win in today’s competition.This book is a contribution to the organizational, to the information and communication technology (ICT) as well as to the sustainability discussion.Here, the readers can find heterogenous inputs to better understand the organizational and technological aspects considering a sustainable business approach.This book is for academicians, students and practitioners interested in the interplay among IT-based solutions, organizational entities and sustainability issues.
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Sustainability Reporting and Blockchain Technology
This book explores the much talked about but less understood issue of sustainability reporting, in a global context, linking it to the application of blockchain and other emerging technologies.It provides a transnational platform to examine the experiences of investors, researchers, academicians, and policymakers as they confront these concerns across a variety of industries and countries, thus offering best-practice guidance to assess the technological landscape and to model sustainable business initiatives.It offers relevant theoretical frameworks and the latest empirical research findings.Further, it argues that in order to reduce ‘carbon footprints’ globally, by reporting all their emissions through a single blockchain platform, companies can create a standardized space for data to be collected and tracked reliably, allowing for meaningful measurements.The book benchmarks and analyses sustainability performance with respect to numerous laws, norms, codes, performance standards, and voluntary initiatives.It demonstrates how the organization influences and is influenced by expectations about sustainable development and emphasizes the link between financial and non-financial performance, enabling external stakeholders to understand the organization’s true value, along with tangible and intangible assets.It will enable readers to increase their understanding of the potential risks and opportunities and avoid environmental, social, and governance failures.The book provides insight into existing research, practice, and outcomes that could clarify and promote the state of the art on themes such as the drivers for sustainability reporting, Environmental, Social, and Governance goals, the influence of blockchain on sustainability reporting as well as the issues and challenges.The book will be a useful guide for scholars, researchers, students, practitioners, regulators and policymakers alike.
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Philosophy, Technology, and the Environment
Contributions by prominent scholars examining the intersections of environmental philosophy and philosophy of technology. Environmental philosophy and philosophy of technology have taken divergent paths despite their common interest in examining human modification of the natural world.Yet philosophers from each field have a lot to contribute to the other.Environmental issues inevitably involve technologies, and technologies inevitably have environmental impacts.In this book, prominent scholars from both fields illuminate the intersections of environmental philosophy and philosophy of technology, offering the beginnings of a rich new hybrid discourse.All the contributors share the intuition that technology and the environment overlap in ways that are relevant in both philosophical and practical terms.They consider such issues as the limits of technological interventions in the natural world, whether a concern for the environment can be designed into things, how consumerism relates us to artifacts and environments, and how food and animal agriculture raise questions about both culture and nature.They discuss, among other topics, the pessimism and dystopianism shared by environmentalists, environmental philosophers, and philosophers of technology; the ethics of geoengineering and climate change; the biological analogy at the heart of industrial ecology; green products and sustainable design; and agriculture as a bridge between technology and the environment. ContributorsBraden Allenby, Raymond Anthony, Philip Brey, J.Baird Callicott, Brett Clark, Wyatt Galusky, Ryan Gunderson, Benjamin Hale, Clare Heyward,Don Idhe, Mark Sagoff, Julian Savulescu, Paul B.Thompson, Ibo van de Poel, Zhang Wei,Kyle Powys Whyte
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Can one distinguish recycling from downcycling and upcycling?
Yes, one can distinguish recycling from downcycling and upcycling. Recycling involves processing used materials into new products of the same or similar quality, while downcycling involves converting materials into products of lower quality. Upcycling, on the other hand, involves creating new products of higher quality or value from used materials. Each of these processes has different environmental and economic impacts, with upcycling generally being the most sustainable option.
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Can one distinguish between recycling, downcycling, and upcycling?
Yes, one can distinguish between recycling, downcycling, and upcycling. Recycling involves breaking down materials to create new products of equal or lesser quality. Downcycling refers to the process of turning materials into products of lower quality. Upcycling, on the other hand, involves transforming waste materials into products of higher value or quality. Each process plays a different role in the circular economy and sustainability efforts.
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Does waste reduction go beyond waste recycling?
Yes, waste reduction goes beyond waste recycling. While recycling is an important part of waste management, waste reduction focuses on minimizing the amount of waste produced in the first place. This can be achieved through practices such as reducing packaging, reusing items, and implementing more sustainable production processes. By focusing on waste reduction, we can decrease the overall environmental impact of waste and move towards a more circular and sustainable economy.
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Should I learn wood technology or carpentry technology?
The decision between learning wood technology or carpentry technology depends on your interests and career goals. Wood technology focuses on the science and engineering of wood materials, including processing, preservation, and utilization. This field is more research and industry-oriented, with opportunities in manufacturing, product development, and quality control. On the other hand, carpentry technology is more hands-on and practical, focusing on the skills and techniques needed for construction and woodworking projects. If you are more interested in the technical and scientific aspects of wood, then wood technology may be the better choice. However, if you enjoy working with your hands and want to pursue a career in construction or woodworking, then carpentry technology may be the better fit for you.
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Technology and the Environment in History
New perspectives on how envirotech can help us engage with the surrounding world in ways that are more sustainable for humanity—and the planet. Today's scientists, policymakers, and citizens are all confronted by numerous dilemmas at the nexus of technology and the environment.Every day seems to bring new worries about the dangers posed by carcinogens, "superbugs," energy crises, invasive species, genetically modified organisms, groundwater contamination, failing infrastructure, and other troubling issues.In Technology and the Environment in History, Sara B.Pritchard and Carl A. Zimring adopt an analytical approach to explore current research at the intersection of environmental history and the history of technology—an emerging field known as envirotech.Technology and the Environment in History They discuss the important topics, historical processes, and scholarly concerns that have emerged from recent work in thinking about envirotech.Each chapter focuses on a different urgent topic: • Food and Food Systems: How humans have manipulated organisms and ecosystems to produce nutrients for societies throughout history. • Industrialization: How environmental processes have constrained industrialization and required shifts in the relationships between human and nonhuman nature. • Discards: What we can learn from the multifaceted forms, complex histories, and unexpected possibilities of waste. • Disasters: How disaster, which the authors argue is common in the industrialized world, exposes the fallacy of tidy divisions among nature, technology, and society. • Body: How bodies reveal the porous boundaries among technology, the environment, and the human. • Sensescapes: How environmental and technological change have reshaped humans' (and potentially nonhumans') sensory experiences over time. Using five concepts to understand the historical relationships between technology and the environment—porosity, systems, hybridity, biopolitics, and environmental justice—Pritchard and Zimring propose a chronology of key processes, moments, and periodization in the history of technology and the environment.Ultimately, they assert, envirotechnical perspectives help us engage with the surrounding world in ways that are, we hope, more sustainable and just for both humanity and the planet.Aimed at students and scholars new to environmental history, the history of technology, and their nexus, this impressive synthesis looks outward and forward—identifying promising areas in more formative stages of intellectual development and current synergies with related areas that have emerged in the past few years, including environmental anthropology, discard studies, and posthumanism.
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Digital Technology and Sustainability : Engaging the Paradox
This book brings together diverse voices from across the field of sustainable human computer interaction (SHCI) to discuss what it means for digital technology to support sustainability and how humans and technology can work together optimally for a more sustainable future. Contemporary digital technologies are hailed by tech companies, governments and academics as leading-edge solutions to the challenges of environmental sustainability; smarter homes, more persuasive technologies, and a robust Internet of Things hold the promise for creating a greener world.Yet, deployments of interactive technologies for such purposes often lead to a paradox: they algorithmically "optimize" heating and lighting of houses without regard to the dynamics of daily life in the home; they can collect and display data that allow us to reflect on energy and emissions, yet the same information can cause us to raise our expectations for comfort and convenience; they might allow us to share best practice for sustainable living through social networking and online communities, yet these same systems further our participation in consumerism and contribute to an ever-greater volume of electronic waste.By acknowledging these paradoxes, this book represents a significant critical inquiry into digital technology’s longer-term impact on ideals of sustainability. Written by an interdisciplinary team of contributors this book will be of great interest to students and scholars of human computer interaction and environmental studies.
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Fashion and Environmental Sustainability : Entrepreneurship, Innovation and Technology
The wide range of topics that the book covers are organised into sections reflecting a cradle to grave view of how entrepreneurial, innovative, and tech-savvy approaches can advance environmental sustainability in the fashion sector.These sections include: sustainable materials; innovation in design, range planning and product development; sustainable innovations in fashion supply chains; sustainable innovations in fashion retail and marketing; sustainable alternatives for end-of-life and circular economy initiatives; and more sustainable alternative fashion business models.
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Composting with Worms : Why Waste Your Waste
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Is induction technology more durable than ceramic glass technology?
Induction technology is generally considered more durable than ceramic glass technology. This is because induction cooktops are made with a tough glass-ceramic material that can withstand high temperatures and is less prone to scratches and cracks. Additionally, induction cooktops have fewer parts that can wear out over time compared to ceramic glass cooktops, making them more reliable in the long run. Overall, induction technology is known for its durability and longevity compared to ceramic glass technology.
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After the emerging quantum technology, which technology will follow?
After the emerging quantum technology, it is likely that the next big technology will be in the field of artificial intelligence and machine learning. As quantum computing becomes more advanced and accessible, it will enable the development of more powerful AI algorithms and systems. This could lead to significant advancements in areas such as autonomous vehicles, healthcare, and robotics. Additionally, there may also be a focus on biotechnology and genetic engineering as the next frontier in technological innovation.
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What is waste separation and recycling?
Waste separation is the process of sorting different types of waste materials into separate categories such as paper, plastic, glass, and organic waste. Recycling involves taking these separated materials and processing them to create new products, reducing the amount of waste that ends up in landfills. By separating waste and recycling, we can help conserve natural resources, reduce pollution, and minimize the impact of waste on the environment.
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What is the complexity of semiconductor technology or microsystems technology?
The complexity of semiconductor technology or microsystems technology is high due to the intricate processes involved in designing, manufacturing, and integrating tiny electronic components. These technologies require precise control at the nanoscale level, involving complex materials, intricate fabrication techniques, and sophisticated equipment. Additionally, the rapid pace of innovation and the need for continuous improvement in performance and miniaturization add to the complexity of these technologies. As a result, semiconductor and microsystems technology require significant expertise, resources, and investment to develop and produce advanced electronic devices.
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