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  • Fashion and Environmental Sustainability : Entrepreneurship, Innovation and Technology
    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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  • Technology Choice Model for Consequential Life Cycle Assessment
    Technology Choice Model for Consequential Life Cycle Assessment

    Consequential Life Cycle Assessment (CLCA) aims at capturing the environmental consequences of decisions such as the introduction of a new technology, the implementation of a policy, or the purchase of a product.CLCA combines technical and economic modeling approaches to track the consequences of decisions throughout the economy, considering both technical relationships within industrial production systems and market-mediated effects.However, although CLCA is well defined at a conceptual level, a commonly accepted modeling framework for CLCA is still missing, leading to wide differences in CLCA practice. To promote the systematization of the CLCA approach, this thesis proposes a comprehensive modeling framework for CLCA: the Technology Choice Model (TCM).Compared to existing approaches, TCM captures market-mediated effects in multiple markets at a substantially higher level of technical detail, while systematically considering constraints in factor availability, uncertainty, and suboptimal decisions.Due to its higher level of technical detail, TCM can model changes in technology mixes through both capacity adaptions and substitution effects among competing technologies.These changes in technology mixes are shown to substantially affect the CLCA results in two illustrative case studies on the introduction of new technologies and climate policy.Furthermore, the consideration of uncertainties and suboptimal decisions provides the basis for a first comprehensive uncertainty assessment in CLCA. The practical application of TCM is demonstrated in a large-scale industrial case study on novel Carbon Capture and Utilization (CCU) technologies in the chemical industry.These technologies use carbon dioxide from industrial point sources or ambient air as alternative carbon feedstock for chemical production.The case study shows that CCU in the chemical industry can reduce up to 3.5 Gt CO2-eq greenhouse gas emissions per year by 2030 and highlights potential barriers for CCU implementation.The results provide a strong scientific basis for the integration of CCU into international policy frameworks and research agendas.The application of TCM in this case study demonstrates the ability of CLCA to provide sound environmental decision support.

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  • Cycle
    Cycle


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  • Cycle
    Cycle


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  • What would be a good example of an innovation to explain the product life cycle?

    A good example of an innovation to explain the product life cycle is the evolution of smartphones. When smartphones were first introduced, they were a new and innovative product in the introduction stage of the product life cycle. As they gained popularity and became more widely adopted, they entered the growth stage. Over time, as new features and improvements were made, they reached the maturity stage. Finally, as new technologies and advancements emerged, older models began to decline in sales, entering the decline stage of the product life cycle. This example demonstrates how innovations can impact the different stages of a product's life cycle.

  • Is spinning even done during the special delicate cycle/wool cycle?

    Yes, spinning is typically done during the special delicate cycle or wool cycle of a washing machine. These cycles are designed to be gentler on delicate fabrics like wool, so the spinning action is usually slower and less aggressive compared to regular cycles. This helps to prevent damage to the delicate fibers of woolen garments while still effectively removing excess water from the fabric.

  • Is there any spinning during the special delicate cycle/wool cycle?

    During the special delicate cycle or wool cycle, the spinning action is typically much gentler compared to regular cycles. These cycles are designed to minimize agitation and reduce the risk of damaging delicate fabrics like wool. The spinning speed is usually slower to prevent stretching or misshaping the garments. Overall, the spinning action during these cycles is more delicate and suitable for handling fragile items.

  • Should this cycle work?

    Yes, this cycle should work as it follows a logical sequence of steps and has clear inputs and outputs. The process is well-defined and each step builds upon the previous one, leading to a desired outcome. Additionally, the cycle appears to be efficient and effective in achieving its intended purpose.

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  • Digital Technology and Sustainability : Engaging the Paradox
    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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  • The Lean Innovation Cycle : A Multi-Disciplinary Framework for Designing Value with Lean and Human-Centered Design
    The Lean Innovation Cycle : A Multi-Disciplinary Framework for Designing Value with Lean and Human-Centered Design

    Currently, businesses are forced to be more innovative than ever before. Organizations must be sensitive to global trends -- such as digitization, globalization, and automation -- and at the same time build resilience and flexibility to combat unexpected changes in customer demand.The coronavirus pandemic is just the most recent and pronounced example of this new-normal business necessity.Amidst the disruption, many businesses are caught not knowing how to proceed.How ought one pursue or achieve innovation for the company?Are there different innovation strategies? Why might a business leader choose one over the other?The Lean Innovation Cycle addresses these concerns by introducing a new multidisciplinary framework for both thinking about and pursing innovation.By taking key concepts from the quality management practices of Lean and Six Sigma, the framework augments these tools and disciplines by incorporating other problem-solving and design techniques, including Human-Centered Design.The result is a view of innovation that many business leaders will find fits nicely into their existing paradigm of strategy and operational discipline. After the introduction of the framework, the book turns to understanding the differences, advantages, and tradeoffs in pursuing Lean Innovation in lieu of traditional, technologically driven innovation approaches.To this end, the book considers issues of sustainability, organizational strategy, and competitive advantage.The result is a thought-provoking dialogue that informs the reader about the key considerations of how best to pursue innovation within their business and the business environment, as well as the circumstances that might make one innovation strategy more congruent to an organization’s culture, goals, and objectives than the other.

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  • Sealey Cycle Rack 1 Cycle - BS14 - Silver
    Sealey Cycle Rack 1 Cycle - BS14 - Silver

    Designed to take the knocks that can come with bike storage, the Sealey Cycle rack is manufactured from galvanized steel for corrosion resistance and extra durability. Ideal for simple and safe storage of your bike, both indoors and out, with the ability to be floor or wall mounted.

    Price: 20.00 £ | Shipping*: 5.95 £
  • Technology Ethics : Responsible Innovation and Design Strategies
    Technology Ethics : Responsible Innovation and Design Strategies

    Technologies cannot simply be understood as neutral tools or instruments; they embody the values of their creators and may unconsciously reinforce existing inequalities and biases. Technology Ethics shows how responsible innovation can be achieved.Demonstrating how design and philosophy converge, the book delves into the intricate narratives that shape our understanding of technology – from instrumentalist views to social constructivism.Yet, at its core, it champions interactionalism as the most promising and responsible narrative.Through compelling examples and actionable tools this book unravels the nuances of these philosophical positions, and is tailored to foster responsible innovation and thoughtful design.As our everyday lives further intertwine with technology, understanding and implementing these design principles becomes not just beneficial, but essential. This concise and accessible introduction is essential reading for students and scholars of philosophy of technology, engineering ethics, science and technology studies, and human–machine communication, as well as policymakers.

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  • What is the difference between the carbon cycle and the nitrogen cycle?

    The main difference between the carbon cycle and the nitrogen cycle lies in the elements they primarily involve. The carbon cycle is centered around the movement of carbon through the atmosphere, biosphere, geosphere, and hydrosphere, while the nitrogen cycle focuses on the circulation of nitrogen in various forms like nitrate, nitrite, and ammonia. Additionally, the carbon cycle is heavily influenced by human activities like burning fossil fuels, which release excess carbon dioxide, contributing to climate change, whereas the nitrogen cycle is often disrupted by human activities like agriculture, which can lead to nitrogen pollution in water bodies.

  • What is the difference between the prewash cycle and the main wash cycle?

    The prewash cycle is designed to loosen and remove heavy soils and stains from the clothes before the main wash cycle. It typically uses cold water and lasts for a shorter duration. On the other hand, the main wash cycle uses hot water and detergent to thoroughly clean the clothes, targeting all types of stains and soils. The main wash cycle is longer and more intense compared to the prewash cycle, ensuring a deep clean for the laundry.

  • What is the difference between a cycle and a cycle in graph theory?

    In graph theory, a cycle is a sequence of vertices in a graph where the first and last vertices are the same, and each pair of consecutive vertices in the sequence is connected by an edge. On the other hand, a cycle in graph theory refers to a subgraph of a graph that forms a closed loop, meaning it is a set of vertices and edges that form a cycle. In other words, a cycle in graph theory is a specific type of subgraph, while a cycle is a more general concept that refers to a sequence of vertices and edges in a graph.

  • How can one cycle faster?

    To cycle faster, one can focus on improving their pedaling technique by maintaining a consistent cadence and applying power throughout the entire pedal stroke. Additionally, increasing strength and endurance through regular training and incorporating interval workouts can help improve speed. Ensuring proper bike fit and equipment maintenance can also contribute to faster cycling by reducing resistance and improving efficiency. Finally, practicing good aerodynamics by maintaining a streamlined position on the bike can help reduce wind resistance and increase speed.

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