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  • Utilization-Focused Evaluation
    Utilization-Focused Evaluation

    The Fifth Edition of the bestselling Utilization-Focused Evaluation provides expert, detailed advice on conducting evaluations that promote effective use of the findings.Chock full of useful pedagogy, this book presents Michael Quinn Patton's distinctive opinions based on more than forty years of experience, and also the expertise of new co-author Charmagne E.Campbell-Patton. The authors begin by describing the essence of utilization-focused evaluation, and then outline 10 operating principles.They conclude with chapters focused on how evaluation can be used to promote a more thoughtful, equitable, and sustainable world.Richly illustrated with examples, figures, and cartoons, this engaging text shows readers how to design and conduct evaluations that provide useful findings, and which contribute to a more equitable society. A companion website is available to accompany this book.

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  • Phytopharmaceuticals : Chemistry and Utilization
    Phytopharmaceuticals : Chemistry and Utilization

    Phytochemical research took shape with the isolation of morphine by F.W.Seturner in 1805. This book includes about 290 phytopharmaceuticals giving their characterization and structure elucidation by modern instrumental methods like UV, IR, HNMR 13C NMR, Ms, HRMS, X-Ray, biosynthesis and synthesis.The book though written for M.Pharm. Pharmacognosy will, however, also found useful as a reference by researchers in natural product chemistry in ICMR units, National Laboratories and pharmaceutical industry the world over.

    Price: 90.00 £ | Shipping*: 0.00 £
  • Biotechnology for Waste Biomass Utilization
    Biotechnology for Waste Biomass Utilization

    This volume focuses on how waste biomass can be transformed into useful biomaterials, food and feed, fuel, and chemicals by using various processes such as chemical, physical, thermal, biological, and biotechnological procedures. Biomass from biowastes, such as agriculture crop residues, wood processing residues, forest residues, food waste, industrial waste, and municipal solid waste, have emerged as potential substrates for bioenergy production.This volume explores the key features of biotechnology for waste biomass utilization, presenting scientific and technical literature on sustainable waste biomass management as well as for biomass conversion for biofuels, chemicals, and other new commercial products.It discusses a variety of novel biotechnical applications and interventions, including microbial fermentation and anaerobic digestion, biotechnological modes of xylooligosaccharides production, multifaceted utilization of microalgal biomass, vermiculture and vermicomposting, and more. Key features:Provides the most recent information about waste biomass utilization for the production of biofuels and biochemicalsShows a wide range of novel technologies in the field of biotechnology towards waste biomass utilizationFocuses on the utilization of microbial resources for waste biomass conversion into value-added productsExplores methods for food wastes and crop wastes conversion into biofuels and biochemicalsProvides the scientific information describing various examples and case studies which aid gaining knowledge to researchers and academiciansWith chapters from eminent researchers who have significant global experience in the field of waste biomass management, this volume delivers a wealth of valuable information for researchers involved in bioenergy utilization.It will also be an essential source for academicians, researchers, economists, policymakers, and policy analysts.

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  • Hydrogen Energy : Production, Storage and Utilization
    Hydrogen Energy : Production, Storage and Utilization

    Since the low energy efficiency and rise in emissions by using fossil fuels, the hydrogen economy has been considered as a unique approach to resolve these problems, making hydrogen an attractive fuel.This book titled Hydrogen Energy: Production, Storage, and Utilization describes various technologies for hydrogen production from different sources and storage in liquid, gaseous, and compound forms, which have also been covered in detail.It also highlights the various modes of transportation of hydrogen and its utilization in a variety of engineering applications such as automotive engines, fuel cells, electric power generation, and aerospace.The book also explores the safety challenges, handling issues, and future scope. This book: Covers the methods of hydrogen production including the bioconversion method. Explains the hydrogen storage technologies with proper illustrations. Includes engineering and non-engineering applications of hydrogen utilization covering the most advanced generation of fuel cells, power generation for hybrid vehicles, and space applications. Presents state-of-the-art research carried out in the domains of hydrogen production, storage, transportation, and utilization along with safety aspects. Discusses modes and methods of hydrogen transportation such as in gaseous form, liquid form, and solid form. The book has a wide scope of reaching out to diverse readers including but not limited to industrial engineers, process engineers, researchers, and academicians.The research fraternity will gain the benefit of being aware and selecting a similar recent research domain in the field of hydrogen production.

    Price: 150.00 £ | Shipping*: 0.00 £
  • What is the GPU utilization and how low is the CPU utilization?

    The GPU utilization refers to the percentage of the GPU's processing power that is being used at a given time. It indicates how much of the GPU's capabilities are being utilized for running applications or processes. Low CPU utilization means that the CPU is not being heavily used and has plenty of available processing power. This could be due to the fact that the tasks being performed are not very demanding on the CPU, or that the system has a powerful CPU that is not being fully utilized.

  • How high is the GPU utilization and how low is the CPU utilization?

    The GPU utilization is typically high, as it is responsible for handling graphics-intensive tasks such as rendering images and videos. On the other hand, the CPU utilization is usually lower in comparison to the GPU, as it is not as heavily involved in graphics processing. The CPU may be utilized for other tasks such as running background processes, managing system resources, and handling non-graphics related computations.

  • What is the VRAM utilization at 150 and the GPU utilization at 100?

    At 150 VRAM utilization, the GPU utilization is at 100%. This means that the video memory is fully utilized and the GPU is operating at its maximum capacity, using all available resources to process data and render graphics. This high level of utilization indicates that the system is under heavy load and may be struggling to keep up with the demands of the application or game being run. It is important to monitor and manage VRAM and GPU utilization to ensure optimal performance and prevent potential issues such as lag or crashes.

  • What is the utilization like?

    The utilization is currently at a high level, with most resources and equipment being used to their full capacity. This has led to efficient operations and productivity, but it also means that there is limited availability for additional projects or tasks. It may be necessary to consider optimizing the utilization of resources or investing in additional capacity to meet the demand.

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  • Nanotechnology for CO2 Utilization in Oilfield Applications
    Nanotechnology for CO2 Utilization in Oilfield Applications

    Nanotechnology for CO2 Utilization in Oilfield Applications delivers a critical reference for petroleum and reservoir engineers to learn the latest advancements of combining the use of CO2 and nanofluids to lower carbon footprint.Starting with the existing chemical and physical methods employed for synthesizing nanofluids, the reference moves into the scalability and fabrication techniques given for all the various nanofluids currently used in oilfield applications.This is followed by various, relevant characterization techniques.Advancing on, the reference covers nanofluids used in drilling, cementing, and EOR fluids, including their challenges and implementation problems associated with the use of nanofluids. Finally, the authors discuss the combined application of CO2 and nanofluids, listing challenges and benefits of CO2, such as carbonation capacity of nanofluids via rheological analysis for better CO2 utilization.Supported by visual world maps on CCS sites and case studies across the industry, this book gives today’s engineers a much-needed tool to lower emissions.

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  • New Dimensions in Production and Utilization of Hydrogen
    New Dimensions in Production and Utilization of Hydrogen

    The gradual increase of population and the consequential rise in the energy demands in the recent years have led to the overwhelming use of fossil fuels.Hydrogen has recently gained substantial interest because of its outstanding features to be used as clean energy carrier and energy vector.Moreover, hydrogen appears to be an effective alternative to tackle the issues of energy security and greenhouse gas emissions given that it is widely recognized as a clean fuel with high energy capacity.Hydrogen can be produced by various techniques such as thermochemical, hydrothermal, electrochemical, electrolytic, biological and photocatalytic methods as well as hybrid systems.New Dimensions in Production and Utilization of Hydrogen emphasizes on the research, development and innovations in the production and utilization of hydrogen in the industrial biorefining, hydrotreating and hydrogenation technologies, fuel cells, aerospace sector, pharmaceuticals, metallurgy, as well as bio-oil upgrading.Moreover, the supply chain analysis, lifecycle assessment, techno-economic analysis, as well as strengths and threats of global hydrogen market are covered in the book.This book provides many significant insights and scientific findings of key technologies for hydrogen production, storage and emerging applications.The book serves as a reference material for chemical and biochemical engineers, mechanical engineers, physicists, chemists, biologists, biomedical scientists and scholars working in the field of sustainable energy and materials.

    Price: 170.00 £ | Shipping*: 0.00 £
  • Treatment and Utilization of Combustion and Incineration Residues
    Treatment and Utilization of Combustion and Incineration Residues

    Treatment and Utilization of Combustion and Incineration Residues introduces state-of-art strategies for combustion and incineration solid residue management and utilization.The book also reviews current technologies for pollutant removal and control of combustion and incineration residues.Recycling ashes and slags in sustainable construction materials are also evaluated on environmental impacts and engineering values, and the use of different ashes and slags in cement clinker production is classified based on the sources and properties of the residues.In addition, the recovery of valuable metals and inorganic elements is also discussed. Finally, the book examines the latest understanding of reaction mechanisms of various treatment technologies, the future design of treatment technologies, and the actualization of sustainable management for combustion/incineration residues.

    Price: 115.00 £ | Shipping*: 0.00 £
  • Catalysis for Enabling Carbon Dioxide Utilization : Volume 70
    Catalysis for Enabling Carbon Dioxide Utilization : Volume 70

    Catalysis for Enabling Carbon Dioxide Utilization, Volume 70 in the Advances in Catalysis series highlights new advances in the field, with this new volume presenting interesting chapters on a variety of topics, including Catalytic nonreductive CO2 conversions to facilitate fine chemical synthesis, Electrochemical transformation of CO2 into methanol, Electrocatalytic routes towards Carbon Dioxide Activation and Utilization, Visible-light photoredox-catalyzed organic transformations with CO2, Heterogeneous catalysis for the conversion of CO2?into cyclic and polymeric carbonates, and Catalytic synthesis of biosourced organic carbonates and sustainable hybrid materials from CO2.

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  • What is the utilization rate?

    The utilization rate is a measure of how efficiently resources are being used. It is calculated by dividing the actual output by the maximum possible output and multiplying by 100 to get a percentage. A high utilization rate indicates that resources are being used effectively, while a low utilization rate suggests that there is room for improvement in resource allocation. Monitoring and optimizing utilization rates can help organizations improve productivity and reduce waste.

  • How is the GPU utilization?

    The GPU utilization is currently at 80%, indicating that the graphics processing unit is being heavily utilized. This level of utilization suggests that the GPU is actively processing a significant amount of data and performing complex calculations. It is important to monitor the GPU utilization to ensure that it is not being overworked, which could lead to performance issues or overheating. If the utilization remains consistently high, it may be necessary to optimize the workload or consider upgrading to a more powerful GPU.

  • What is the significance of dedicated GPU memory utilization and shared GPU memory utilization?

    Dedicated GPU memory utilization refers to the amount of memory exclusively reserved for the GPU to perform its tasks efficiently. This is important as it directly impacts the performance and capabilities of the GPU for running complex applications and graphics-intensive tasks. On the other hand, shared GPU memory utilization refers to the portion of system memory that the GPU can access when needed. This shared memory is crucial for handling tasks that require more memory than what is available in the dedicated GPU memory, enabling the GPU to efficiently manage and process larger datasets or applications. Both dedicated and shared GPU memory utilization are significant factors in determining the overall performance and efficiency of a GPU in various computing tasks.

  • Why don't the children use the online learning resources?

    There could be several reasons why the children are not using online learning resources. Some possible reasons could include lack of access to technology or internet connectivity, difficulty navigating the online platforms, lack of motivation or engagement with the material, or preference for traditional in-person learning methods. It is important to understand the specific barriers that are preventing the children from using online resources in order to address them effectively and promote their learning.

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