Products related to Waste:
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Reuse of Plastic Waste in Eco-efficient Concrete
Reuse of Plastic Waste in Eco-efficient Concrete presents the latest research findings on the application and use of recycled plastic waste in sustainable construction.Divided over four parts, the book's chapters cover various techniques for processing and separation of plastic wastes; use of recycled plastics as aggregates in modified concrete; as well as lightweight reinforced concrete applications too.There is also an entire section dedicated to asphalt mixtures.It also provides technological solutions on how recycled plastic wastes can be applied in concrete manufacturing. This will be a valuable reference source for academic and industrial researchers who are working with waste materials and the use of recycled plastics in concrete, as well as for civil and structural engineers, polymer production technologists, and concrete manufacturers.
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Stylish And Practical Recycle Waste Bag For Kitchen Trash Sorting Durable PP Eco-friendly Efficient
Stylish And Practical Recycle Waste Bag For Kitchen Trash Sorting Durable PP Eco-friendly Efficient
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Durable Waste Bin ECO - Eco-Friendly - 16 Litre - Grey 776010
An eco-friendly paper bin that is not only good for the planet but that looks great everywhere.The Durable ECO bin is sleek and practical, perfectly complementing a variety of modern interiors, it features a smooth gloss upper and matt lower finish
Price: 9.50 £ | Shipping*: 7.19 £ -
Nanotechnology for Sustainable Agriculture : An Innovative and Eco-Friendly Approach
This new volume explores the important and cutting-edge roles that nanotechnology can play in facilitating sustainable agriculture.It provides recent updates on nanobiotechnology in soil science, plant breeding, food science, agricultural tool design and utilization, as well as the impacts of such approaches on properties of soils and plants.The book looks at the use of nanotechnology for crop production and protection, in the creation and application of pesticides, to enhance soil fertility and soil health, as a mitigating factor of plant abiotic stress, and more.The volume explores emerging nanotechnological tools and techniques for crop improvement that include space-inspired speed breeding for crop improvement, nanoparticles as sensing materials, plant nanobionics, nanopore DNA sequencing, and more.
Price: 147.00 £ | Shipping*: 0.00 £
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How can one waste energy?
One can waste energy in several ways, such as leaving lights, appliances, or electronics on when they are not in use. Using inefficient or outdated appliances and equipment can also lead to energy wastage. Poor insulation in buildings can result in energy loss through heating or cooling. Additionally, excessive use of heating or air conditioning can lead to unnecessary energy consumption.
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What is the most efficient way to store energy from renewable energy sources?
The most efficient way to store energy from renewable sources is through battery storage systems. These systems can store excess energy generated from sources like solar or wind power and release it when needed, providing a reliable and consistent energy supply. Battery storage also allows for flexibility in managing energy demand and supply, making it a key component in integrating renewable energy into the grid. Additionally, advancements in battery technology continue to improve efficiency and reduce costs, making it an increasingly viable option for storing renewable energy.
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Is a millionaire allowed to waste energy?
While a millionaire may have the financial means to waste energy, it is important for everyone, regardless of their wealth, to be mindful of their energy consumption. Wasting energy not only contributes to environmental degradation, but it also perpetuates the unsustainable use of resources. As a result, it is important for individuals, including millionaires, to consider the impact of their energy usage and strive to minimize waste. Additionally, setting a positive example of responsible energy consumption can inspire others to do the same.
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Organic waste or residual waste?
Organic waste refers to biodegradable waste such as food scraps, yard waste, and paper products, which can be composted or converted into energy through anaerobic digestion. Residual waste, on the other hand, refers to non-recyclable and non-compostable waste that is typically sent to landfills or incinerated. When it comes to managing waste, it is important to prioritize the reduction and proper disposal of organic waste through composting and recycling, as it can have a more positive environmental impact compared to residual waste.
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Waste Management and Sustainable Consumption : Reflections on consumer waste
The accelerated pace of global consumption over the past decades has meant that governments across the world are now faced with significant challenges in dealing with the dramatically increased volume of waste.While research on waste management has previously focused on finding technological solutions to the problem, this book uniquely examines the social and cultural views of waste, shedding new light on the topic by emphasising the consumer perspective throughout.Drawing on a wide variety of disciplines including environmental, economic, social and cultural theories, the book presents philosophical reflections, practical examples and potential solutions to the problem of increasing waste.It analyses and compares case studies from countries such as Sweden, Japan, the USA, India, Nigeria and Qatar, bringing out valuable insights for the international community and generating a critical discussion on how we can move towards a more sustainable society.This book will be of great interest to post-graduate students and researchers in environmental policy, waste management, social marketing and consumer behaviour, as well as policymakers and practitioners in consumer issues and business.
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Renewable Energy : Power for a Sustainable Future
The provision of sustainable energy supplies for an expanding and increasingly productive world is one of the major issues facing civilisation today. Renewable Energy examines both the practical and economic potential of the renewable energy sources to meet this challenge.The underlying physical and technological principles behind deriving power from direct solar (solar thermal and photovoltaics), indirect solar (biomass, hydro, wind and wave) and non-solar (tidal and geothermal) energy sources are explained, within the context of their environmental impacts, their economics and their future prospects. Renewable Energy provides both perspective and detail on the relative merits and state of progress of technologies for utilizing the various 'renewables'.The analysis considers emissions, sustainability, cost implications and energy security, as political and economic pressures move society towards a low-carbon future.From an overview of basic energy conversion processes, through a discussion of the individual renewable sources, to a concluding examination of the prospects for their integration into national and international networks and the outlook for renewable energy, this book provides a valuable insight into prospects for the renewables. Online resources Renewable Energy is accompanied by online resources which include: For students:· Auto- marked multiple choice questions to accompany each chapter· Curated links to further information and up-to-date energy statistics.For registered adopters of the book:· Figures from the book: available to download for use in lectures
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No-Waste Organic Gardening : Eco-friendly Solutions to Improve any Garden
In this second book in the internationally successful No-Waste Gardening series, learn how to recycle and repurpose your way to a successful, productive, and eco-friendly organic garden!In No-Waste Organic Gardening, author Shawna Coronado guides you toward a more sustainable landscape with dozens of tips, tricks, and solutions that save you time and money—all while saving the planet, too!A revision of Shawna's previous title,101 Organic Gardening Hacks, this new book tackles waste-reducing gardening in a clever, accessible way.Learn how to:Turn yard debris into “black gold” in a DIY compost binFoster rich, healthy soil with no-till techniques and all-natural fertilizersUpcycle household discards to grow seedlingsControl pests with traps made from household discardsBuild a rain barrel from an old trash canMix up your own potting soil to reduce plastic bag wasteProtect spring plantings with repurposed jugs, jars, and containersBuild a new raised bed with everyday items—no power tools required!Plus, you’ll find solutions to common garden problems and plenty of innovative and resourceful ways to reduce your outgoing waste.Conquering the increasingly important art of responsible gardening is a whole lot easier than you might think, with help from No-Waste Organic Gardening.For more advice on living waste-free, explore the first book in the No-Waste Gardening series, No-Waste Kitchen Gardening.
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Sustainable Technologies for Food Waste Management
This book comprehensively explores various aspects of food waste management, ranging from understanding the issue to innovative solutions that convert waste into valuable resources.The initial chapters provide an in-depth analysis of advanced methods for characterizing food waste.The book examines cutting-edge methodologies, including physico-chemical, thermal, and biological approaches, for converting food waste into valuable resources such as biohydrogen, biopolymers, biogas, organic acids, bioactive compounds, biochar, compost, and vermicompost.Additionally, it delves into the utilization of advanced technologies like machine learning, the Internet of Things (IoT), sensors, and robotics for food waste treatment and management, thus contributing to a sustainable future.It underscores the conversion of food waste into renewable energy sources, sustainable materials, and valuable compounds.This book will be useful for researchers, practitioners, and policymakers seeking sustainable approaches to tackle the global challenge of food waste. Offers in-depth insights into advanced methods for characterizing food waste, enabling precise and targeted waste reduction strategies Examines physico-chemical, thermal, and biological approaches for converting food waste into valuable resources Presents machine learning, IoT, sensors, and robotics for sustainable food waste management and treatment Highlights the conversion of food waste into valuable resources, including biohydrogen, biopolymers, bioactive compounds, compost, and vermicompost Provides specific details about the food waste supply chain and associated policies
Price: 140.00 £ | Shipping*: 0.00 £
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What are the advantages and disadvantages of waste incineration in a waste-to-energy plant?
Waste incineration in a waste-to-energy plant has several advantages, including the generation of electricity or heat from the burning of waste, which can help reduce the reliance on fossil fuels. It also reduces the volume of waste that ends up in landfills, helping to alleviate the strain on limited landfill space. However, there are also disadvantages to incineration, such as the release of air pollutants and greenhouse gases during the combustion process, which can contribute to air pollution and climate change. Additionally, there are concerns about the potential health risks associated with the emissions from waste incineration.
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What are the advantages and disadvantages of waste incineration in a waste-to-energy facility?
One advantage of waste incineration in a waste-to-energy facility is that it can help reduce the volume of waste going to landfills, thus saving space and potentially reducing environmental pollution. Additionally, it can generate electricity or heat, providing a source of renewable energy. However, a major disadvantage is the potential release of harmful pollutants and greenhouse gases into the atmosphere during the incineration process, which can contribute to air pollution and climate change. There are also concerns about the safe disposal of the ash residue left behind after incineration.
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What is more environmentally friendly: burning or burying natural waste such as wood branches or kitchen waste?
Burying natural waste such as wood branches or kitchen waste is generally considered more environmentally friendly than burning. When natural waste is buried, it can decompose and enrich the soil, contributing to the natural nutrient cycle. On the other hand, burning natural waste releases carbon dioxide and other pollutants into the atmosphere, contributing to air pollution and climate change. Additionally, burning can also release harmful toxins and particulate matter into the air, which can have negative impacts on human health. Therefore, burying natural waste is a more sustainable and environmentally friendly option.
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Is work a waste of life and energy?
Work is not necessarily a waste of life and energy. While it can be challenging and tiring at times, work also provides a sense of purpose, accomplishment, and financial stability. It allows individuals to contribute to society, develop new skills, and build meaningful relationships. Ultimately, the value of work depends on the individual's perspective and the nature of the work they are engaged in.
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