Products related to Lithium:
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Upcycling and Recycling
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Composting with Worms : Why Waste Your Waste
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Hydrometallurgical Recycling of Lithium-Ion Battery Materials
The expanding market share of lithium-ion batteries (LIBs), driven by the secondary battery and electric vehicle markets, has consequently led to the accumulation of spent LIBs.This presents a unique business opportunity for recovering and recycling valuable metals from the spent lithium-ion cathode materials.Hydrometallurgical Recycling of Lithium-Ion Battery Materials provides a comprehensive review of the available hydrometallurgical technologies for recycling spent lithium-ion cathode active materials.The aim of this book is to raise awareness of LIB recycling, provide comprehensive knowledge of hydrometallurgical recycling of lithium cathode active materials, and promote an environmentally friendlier hydrometallurgical recycling process. Key Features• Summarizes current recycling processes, challenges, and perspectives• Offers a comprehensive review of current commercialized LIB recycling companies• Showcases an innovative closed-loop hydrometallurgical recycling process to recycle lithium cathode materials• Provides detailed modeling and economic analyses of several hydrometallurgical recycling processes• Features practical cases and data developed by the authorsOffering the most up-to-date information on LIB material recycling, this book is aimed at researchers and professionals in materials, chemical, electrical, and mechanical engineering, as well as chemists working on battery technologies.
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No-Waste Composting : Small-Space Waste Recycling, Indoors and Out. Plus, 10 projects to repurpose household items into compost-making machines
In No-Waste Composting, you’ll discover the hows and whys of composting and find over a dozen practical step-by-step plans for building both indoor and outdoor composting systems that require a minimal amount of space. “I don’t have enough space to compost.” “I don’t know what’s safe to compost and what isn’t.” “I live in the city, so I don’t think I can compost.” “Indoor composting systems are smelly.” “I don’t have a garden, so I don’t need to compost.”If any of these is your excuse for not composting, then this is the book for you!Small-space composting has never been easier, more efficient, and more eco-friendly.Composting keeps millions of tons of waste out of landfills and creates carbon-sequestering, nutrient-dense compost that can be used to help fuel plant growth (including houseplants!) and build soil health.Build a DIY worm-composting system for a cupboard or garageCraft a layered, under-the-sink composting system from terra cotta potsConstruct a simple outdoor compost bin from repurposed wooden pallets Use upcycled wire fencing to build a mobile composting system on the drivewayLearn how to compost larger sticks and branches to build new food and flower gardensUpcycle a plastic bucket to make an indoor compost fermenting systemPlus, you’ll find plans to keep cat and dog waste out of the landfill by using a groundbreaking (and safe) DIY composting system. And if you don’t garden, author and composting professional Michelle Balz offers plenty of other ways you can utilize the wonderful, crumbly compost you create.Whether you’re just starting your no-waste journey or you’re a seasoned recycling and repurposing pro, No-Waste Composting is an invaluable tool to have at your side. This book is part of the Cool Springs Press No-Waste Gardening series, which also includes No-Waste Kitchen Gardening and No-Waste Organic Gardening.
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Why is the song Nirvana - Lithium called Lithium?
The song "Lithium" by Nirvana is named after the element lithium, which is a mood-stabilizing drug used to treat bipolar disorder. The lyrics of the song reference themes of mental illness and the struggle to find stability and balance, which is reflected in the choice of the song's title. Additionally, the word "lithium" itself can symbolize a sense of control and calmness, which ties into the song's themes of emotional turmoil and the search for inner peace.
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How many lithium atoms are present in 139g of lithium?
To find the number of lithium atoms present in 139g of lithium, we can use the concept of Avogadro's number. First, we need to convert the mass of lithium to moles using its molar mass, which is 6.94 g/mol. Then, we can use Avogadro's number, which is 6.022 x 10^23 atoms/mol, to find the number of lithium atoms in the given mass. By dividing the mass of lithium by its molar mass and then multiplying by Avogadro's number, we find that there are approximately 3.35 x 10^24 lithium atoms in 139g of lithium.
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Is lithium carbonate corrosive?
Lithium carbonate is not considered corrosive. It is a stable compound that is commonly used in the treatment of bipolar disorder and depression. However, like any chemical substance, it should be handled with care and stored properly to avoid any potential hazards.
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Can lithium batteries leak?
Yes, lithium batteries can leak if they are damaged or punctured. When a lithium battery leaks, it can release harmful chemicals and gases, posing a safety hazard. It is important to handle lithium batteries carefully and dispose of them properly to prevent leaks and potential harm to the environment.
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Waste & Recycling Issues : 385
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Waste recycling truck 426196
Capacity L 885.Colour Black.External Height mm 1180.External Length mm 1300.External Width mm 830.GTIN 5059908054788.Internal Height mm 740.Internal Length mm 1180.Internal Width mm 730.Made To Order Yes, non-returnable.Material Medium density
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Evaluation of the Built Environment for Sustainability
Sustainability in the built environment is a major issue facing policy-makers, planners, developers and designers in the UK, Europe and worldwide.The measuring of buildings and cities for sustainability becomes increasingly important as pressure for green, sustainable development translates into policy and legislation.The problems of such measurement and evaluation are presented by the authors in contributions which move from the general to the particular, e.g. from a general framework for an environmentally sustainable form of urban development to a specific input-output model application to environmental problems.The book is divided into three parts: the first covers city models and sustainable systems - research programmes, environmental policies, green corporations and collaborative strategies to make urban development more sustainable; part two discusses the problems of evaluating the built environment in planning and construction, covering economic and environmental methods and construction, development and regeneration processes; part three illustrates a number of applications using different approaches and techniques and referring to a range of environmental aspects of the natural and built environment, from maintaining historic buildings to transport management and air pollution monitoring.
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An Introduction to Environment, Society and Sustainability
This timely and innovative book delves into the complex interplay of human activities and natural limits in generating today’s sustainability challenges.By contrasting the pressures of growing populations with ecological footprints associated with consumption, the volume navigates the contested terrain where human societies generate environmental impacts. Adorned with illustrative figures, examples and case studies throughout, this book presents insightful analysis of ecological, economic, technological, and social justice responses to the challenges faced by human civilization, including land degradation, climate change, pollution, and overexploitation of natural resources.Many of these issues are wicked problems, characterized by incomplete information, multiple stakeholders, and contested approaches to addressing them.In simple terms, sustainability issues are an interplay between population growth and rising consumption, which are placing impossible demands on finite resources.Potential solutions to the crisis are split between green growth approaches that emphasize technology and institutional capacity to guide economic growth in more sustainable ways, and degrowth approaches that call for a fundamental rethinking of the way we structure society and generate value.This book emerged from a student seminar where undergraduate and graduate students highlighted sustainability topics of concern, helped consider their framing, and then assisted with co-writing several of the chapters.The volume encourages readers to consider structural questions that underpin sustainability dilemmas, and begins with four theoretical frameworks for understanding sustainability issues: ideas from the natural sciences, the population/consumption debate, economic frameworks, and ethical approaches.It then uses a systems approach to apply these theoretical ideas to complex global systems such as the atmosphere, oceans, and agriculture. This volume will be of pivotal interest to students, scholars and academics in the fields of environmental studies, environment and society, human geography and environmental geography, as well as those with an interest in these areas more generally.
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How does lithium react with the halogen bromine to form lithium bromide?
Lithium reacts with bromine to form lithium bromide through a single displacement reaction. In this reaction, lithium atoms donate an electron to bromine molecules, resulting in the formation of lithium ions and bromide ions. The lithium ions and bromide ions then combine to form solid lithium bromide. This reaction is highly exothermic, releasing a significant amount of heat energy.
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How does dendrite formation occur in lithium-ion and lithium-polymer batteries?
Dendrite formation in lithium-ion and lithium-polymer batteries occurs when lithium ions plate unevenly on the electrodes during charging, leading to the growth of needle-like structures called dendrites. These dendrites can penetrate the separator between the electrodes, causing a short circuit and potentially leading to thermal runaway and battery failure. Dendrite formation is influenced by factors such as the type of electrolyte used, the charging rate, and the cycling conditions of the battery. To mitigate dendrite formation, researchers are exploring various strategies such as using solid-state electrolytes, modifying electrode materials, and developing advanced battery management systems.
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What is the difference between lithium-ion and lithium-polymer batteries in smartphones?
Lithium-ion batteries are the most common type of battery used in smartphones. They are made of a liquid electrolyte and have a rigid, cylindrical shape. On the other hand, lithium-polymer batteries use a solid or gel-like electrolyte and can be made into a flexible, thin shape, making them more adaptable to the design of smartphones. Lithium-polymer batteries also tend to have a lower energy density but are lighter and more resistant to physical damage, making them a popular choice for smartphones.
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Where can one buy lithium?
Lithium can be purchased from various sources such as pharmacies, online retailers, and specialty stores that sell batteries and electronic devices. It is commonly found in the form of lithium-ion batteries, which are used in electronic devices like smartphones, laptops, and electric vehicles. Additionally, lithium supplements can also be found in health food stores or online for those looking to incorporate it into their diet for potential health benefits.
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