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Carbon Management for a Sustainable Environment
This textbook presents students with a systematic approach for the quantification and management of greenhouse gas emissions (GHG) and provides best practices for optimal carbon management and quantification.The book begins with an overview of climate change basics and goes on to discuss carbon footprint measurements, carbon management concepts, and concludes by presenting carbon reduction solutions with applications for green buildings, smart transportation, waste management, and carbon trading and offsetting.The author provides practical examples and carbon management models that support innovative reduction solutions and presents a roadmap for the implementation and development of carbon management strategies, making it a useful resource for both upper undergraduate and graduate students as well as practitioners seeking a comprehensive framework to conduct carbon management.
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Designing Zero Carbon Buildings : Embodied and Operational Emissions in Achieving True Zero
In this significantly revised third edition, Designing Zero Carbon Buildings combines embodied and operational emissions into a structured approach for achieving zero emissions by a specific year with certainty. Simulation and quantitative methods are introduced in parallel with analogue scale models to demonstrate how things work in buildings.Where equations are provided, this is also explained with common analogue objects, pictures, and narratives.A Zero Equation introduced in this book is not only explained as an equation but also as an analogy with a jam jar and spoons, making the book accessible for a range of audiences.Tasks for simple experiments, exercises, discussion questions, and summaries of design principles are provided in closing lines of chapters. This book introduces new case studies, in addition to an updated case study of the Birmingham Zero Carbon House, applying embodied and operational emissions to assess their status using the Zero Equation.The approach introduced brings about a sense of realism into what true zero emissions mean.Written for students, educators, architects, engineers, modellers, practising designers, sustainability consultants, and others, it is a major positive step towards design thinking that makes achieving zero carbon emissions a reality.
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Accounting for Carbon : Monitoring, Reporting and Verifying Emissions in the Climate Economy
The ability to accurately monitor, record, report and verify greenhouse gas emissions is the cornerstone of any effective policy to mitigate climate change.Accounting for Carbon provides the first authoritative overview of the monitoring, reporting and verification (MRV) of emissions from the industrial site, project and company level to the regional and national level.It describes the MRV procedures in place in more than fifteen of the most important policy frameworks - such as emissions trading systems in Europe, Australia, California and China, and the United Nations Framework Convention on Climate Change - and compares them along key criteria such as scope, cost, uncertainty and flexibility.This book draws on the work of engineers and economists to provide a practical guide to help government and non-governmental policymakers and key stakeholders in industry to better understand different MRV requirements, the key trade-offs faced by regulators and the choices made by up-and-running carbon pricing initiatives.
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Low Carbon Energy Technologies in Sustainable Energy Systems
Low Carbon Energy Technologies for Sustainable Energy Systems examines, investigates, and integrates current research aimed at operationalizing low carbon technologies within complex transitioning energy economies.Scholarly research has traditionally focused on the technical aspects of exploitation, R&D, operation, infrastructure, and decommissioning, while approaches which can realistically inform their reception and scale-up across real societies and real markets are piecemeal and isolated in separate literatures.Addressing both the technical foundations of each technology together with the sociotechnical ways in which they are spread in markets and societies, this work integrates the technoeconomic assessment of low carbon technologies with direct discussion on legislative and regulatory policies in energy markets.Chapters address issues, such as social acceptance, consumer awareness, environmental valuation systems, and the circular economy, as low carbon technologies expand into energy systems sustainability, sensitivity, and stability.This collective research work is relevant to both researchers and practitioners working in sustainable energy systems.The combination of these features makes it a timely book that is useful and attractive to university students, researchers, academia, and public or private energy policy makers.
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How do you calculate carbon dioxide emissions?
To calculate carbon dioxide emissions, you need to know the amount of fuel or energy consumed. You can then use conversion factors to estimate the amount of carbon dioxide produced per unit of fuel or energy. For example, for gasoline, you can use the conversion factor of 8.91 kg of CO2 emitted per gallon of gasoline burned. By multiplying the amount of fuel consumed by the appropriate conversion factor, you can calculate the carbon dioxide emissions. There are also online calculators and tools available that can help with these calculations.
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Is carbon the same as carbon fiber?
No, carbon and carbon fiber are not the same. Carbon is a chemical element with the symbol C and atomic number 6, while carbon fiber is a material made of thin fibers composed mostly of carbon atoms. Carbon fiber is a lightweight and strong material commonly used in aerospace, automotive, and sporting goods industries, while carbon in its elemental form has various uses in different industries.
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What are non-aromatic carbon-carbon bonds?
Non-aromatic carbon-carbon bonds are simply carbon-carbon bonds that do not participate in aromaticity. Aromaticity refers to a special type of bonding in organic molecules that results in increased stability and unique reactivity. Non-aromatic carbon-carbon bonds can be found in a wide range of organic compounds and can exhibit different types of reactivity and properties depending on their specific chemical environment. These bonds can be found in aliphatic hydrocarbons, such as alkanes and alkenes, as well as in many other organic molecules.
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Is carbon and carbon fiber the same thing?
No, carbon and carbon fiber are not the same thing. Carbon is a chemical element with the symbol C and atomic number 6, while carbon fiber is a material made of thin strands of carbon woven together. Carbon fiber is a composite material that is known for its high strength-to-weight ratio and is commonly used in aerospace, automotive, and sporting goods industries.
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Staedtler Mars micro carbon lead refill HB
Staedtler Mars micro carbon lead refill HB
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Staedtler Mars micro carbon lead refill HB
Staedtler Mars micro carbon lead refill HB
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The Routledge Handbook of Embodied Carbon in the Built Environment
This handbook explores the critically important topic of embodied carbon, providing advanced insights that focus on measuring and reducing embodied carbon from across the built environment, including buildings, urban areas and cities, and construction materials and components. Split into five distinct sections, international experts, researchers, and professionals present the recent developments in the field of embodied carbon from various perspectives and at different scales of material, building, and city.Following an introduction to the embodied carbon question, the chapters in Section 1 then cover the key debates around issues such as the politics of embodied carbon, links between embodied carbon and thermal mass, and the misuse of carbon offsets.Section 2 reviews the embodied carbon policies in a selected number of countries.Sections 3, 4, and 5 approach the topic of embodied carbon from urban-, building-, and material-scale perspectives, respectively, and use case studies to demonstrate estimation techniques and present opportunities and challenges in embodied carbon mitigation. This will be important reading for upper-level students and researchers in Architecture, Urban Planning, Engineering, and Construction disciplines.Presenting case studies of embodied carbon assessment, this book will also help practicing architects, engineers, and urban planners understand embodied carbon estimation techniques and different mitigation strategies.
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Low Carbon Transition : Sustainable Agriculture in the European Union
Low-carbon transition is a shift from an economy that depends heavily on fossil fuels to a sustainable, low-carbon energy economy.This book analyzes the role of renewables in driving the low-carbon transition in agriculture, explores the circular bio-based economy, and examines policies and strategies designed to facilitate low-carbon transition in agriculture, greenhouse gas mitigation, and adaptation trends in the European Union agriculture sector.It provides new knowledge and understanding about the impact of low-carbon energy transition, emphasizes the key role of renewable energy in a wide range of agricultural activities, and offers alternative sustainable solutions to current practices. FeaturesDiscusses a novel approach on low-carbon transition that is not considered by the majority of studiesEmphasizes the urgent need to minimize the carbon and environmental footprint of the EU agriculture and food system through low-carbon energy transitionProvides theoretical background of sustainable agriculture and explains the decarbonization path of agriculture. Investigates the role of renewables, new technologies, business models, and practices in agriculture while assessing their socioeconomic and environmental effects. Presents a case study on the applications of low-carbon transition policies in selected EU member states and analyses in details various implications. This book is suitable for senior undergraduate and graduate students, professionals in agriculture, researchers, and policy makers interested in sustainable agriculture and renewable energy usage and their economics.
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How can carbon be detected as soot in candle emissions?
Carbon can be detected as soot in candle emissions through various methods. One common method is through visual observation, as soot appears as a black, powdery substance that is left behind on surfaces. Another method is through the use of a carbon monoxide detector, as soot is often accompanied by the release of carbon monoxide. Additionally, soot can be detected through the use of specialized instruments such as a particulate matter monitor, which can measure the concentration of soot particles in the air.
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What is the carbon dioxide emissions of cars in chemistry?
In chemistry, the carbon dioxide emissions of cars refer to the release of carbon dioxide gas into the atmosphere as a byproduct of burning fossil fuels for energy. When cars burn gasoline or diesel, carbon atoms in the fuel combine with oxygen from the air to form carbon dioxide. This process contributes to the greenhouse effect and global warming. Scientists study these emissions to understand their impact on the environment and develop strategies to reduce them.
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What are the differences between Carbon 12 and Carbon 14?
Carbon 12 and Carbon 14 are isotopes of carbon with different atomic masses. Carbon 12 has 6 protons and 6 neutrons, while Carbon 14 has 6 protons and 8 neutrons. Carbon 12 is stable and makes up the majority of carbon found in nature, while Carbon 14 is radioactive and is used in radiocarbon dating to determine the age of organic materials. The presence of Carbon 14 in an object can help scientists estimate its age up to around 50,000 years.
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How many carbon atoms are contained in 12g of carbon?
To determine the number of carbon atoms in 12g of carbon, we first need to calculate the number of moles of carbon in 12g. The molar mass of carbon is approximately 12g/mol. Therefore, 12g of carbon is equal to 1 mole of carbon. Since 1 mole of carbon contains Avogadro's number of atoms (6.022 x 10^23), there are 6.022 x 10^23 carbon atoms in 12g of carbon.
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