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  • Fundamentals of Renewable Energy Processes
    Fundamentals of Renewable Energy Processes

    Fundamentals of Renewable Energy Processes, Fourth Edition, winner of a 2022 Textbook Excellence Award (Texty) from the Textbook and Academic Authors Association, provides accessible coverage of clean, safe alternative energy sources such as solar and wind power.Aldo da Rosa’s classic and comprehensive resource has provided thousands of engineers, scientists, students and professionals alike with a thorough grounding in the scientific principles underlying the complex world of renewable energy technologies.The fourth edition has been fully updated and revised by new author Juan Ordonez, Director of the Energy and Sustainability Center at Florida State University, and includes new worked examples, more exercises, and more illustrations to help facilitate student learning.

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  • Technology Innovation : Models, Dynamics, and Processes
    Technology Innovation : Models, Dynamics, and Processes

    Technology Innovation discusses the fundamental aspects of processes and structures of technology innovation.It offers a new perspective concerning fundamentals aspects not directly involved in the complex relations existing between technology and the socio-economic system. By considering technology and its innovation from a scientific point of view, the book presents a novel definition of technology as a set of physical, chemical and biological phenomena, producing an effect exploitable for human purposes.Expanding on the general model of technology innovation by linking the model of technology, based on a structure of technological operations, with the models of the structures for technology innovation, based on organization of fluxes of knowledge and capitals, the book considers various technological processes and the stages of the innovation process. Explains a novel definition of technology as a set of physical, chemical and biological phenomena producing an effect exploitable for human purposesDiscusses technology innovation as result of structures organizing fluxes of knowledge and capitalsProvides a technology model simulating the functioning of technology with its optimizationPresents a technology innovation model explaining the territorial technology innovation processOffers a perspective on the evolution of technology in the frame of an industrial platform networkThe book is intended for academics, graduate students and technology developers who are involved in operations management and research, innovation and technology development.

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  • Manufacturing Technology : Manufacturing Processes
    Manufacturing Technology : Manufacturing Processes


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  • Design for Sustainability : Green Materials and Processes
    Design for Sustainability : Green Materials and Processes

    Design for Sustainability: Green Materials and Processes provides fundamental and practical knowledge surrounding product development applications throughout the entire lifecycle of green materials, ranging from conceptual design, material and manufacturing process selection, and environmental lifecycle assessment.In addition, several topics covering recent advances in the application of sustainable design within the automotive, building and construction, packaging and consumer product industries are also included in this book to provide practical examples of this philosophy in current applications.Lastly, a section on implementation of design for sustainability in education is added to aid readers that wish to introduce this philosophy to younger students. This book will be beneficial to researchers, students in higher education institutions, design practitioners and engineers in private and public sector organization with aspirations to develop sustainable products in the future. Design for sustainability is one of the primary focuses in human advancement nowadays, with the aim of developing products and services that meet the needs of the present without compromising the ability of future generations to meet their own needs.

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  • Is solar energy renewable?

    Yes, solar energy is renewable because it is derived from the sun, which is a virtually limitless source of energy. The sun's energy is constantly being replenished and will continue to do so for billions of years. This makes solar energy a sustainable and renewable source of power that can be harnessed for electricity generation and other applications.

  • What are maturation processes and learning processes?

    Maturation processes refer to the natural biological development and growth that occurs in an individual over time. These processes are largely influenced by genetics and occur without direct instruction or external influence. On the other hand, learning processes involve the acquisition of new knowledge, skills, or behaviors through experiences, instruction, and practice. Learning processes are influenced by environmental factors, social interactions, and cognitive development. Both maturation processes and learning processes play important roles in an individual's overall development and ability to adapt to their environment.

  • What is the difference between LMI processes and LMN processes?

    LMI (Linear Matrix Inequality) processes and LMN (Linear Matrix Norm) processes are both used in control theory to analyze and design control systems. The main difference between the two is that LMI processes focus on finding solutions to a set of linear matrix inequalities, while LMN processes focus on analyzing the norms of linear matrix equations. LMI processes are used to solve optimization problems and design robust control systems, while LMN processes are used to analyze the stability and performance of control systems. In summary, LMI processes are more focused on optimization and design, while LMN processes are more focused on analysis and stability.

  • How do you calculate the internal energy in adiabatic processes?

    In an adiabatic process, there is no heat exchange with the surroundings, so the change in internal energy is solely due to work done on or by the system. The internal energy change in an adiabatic process can be calculated using the first law of thermodynamics, which states that the change in internal energy is equal to the work done on the system. Mathematically, this can be expressed as ΔU = -W, where ΔU is the change in internal energy and W is the work done on the system. Therefore, to calculate the internal energy change in an adiabatic process, one needs to determine the work done on the system.

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  • Renewable Energy & Green Technology
    Renewable Energy & Green Technology

    This book explains all the basic and advanced concepts of Renewable Energy. The explanation is in a very simple English language. Moreover, It covers the most probable objective and subjective questions and answers for practice.The explanations are very specific and exam-oriented too. All the UG, PG students, research scholars, and competitive exam aspirants can take the benefit from this book.

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  • Magnetohydrodynamic Processes in Solar Plasmas
    Magnetohydrodynamic Processes in Solar Plasmas

    Magnetohydrodynamic Processes in Solar Plasmas provides a comprehensive theory and practice of basic plasma processes in the Sun and heliosphere.It deals with the basic dynamics of the Sun from its interior up to its outer atmosphere in the framework of Magnetohydrodynamics.Topics covered include essential phenomena in the solar interior such as magnetism, dynamos and helioseismology and in the solar atmosphere such as waves, shocks, instabilities, reconnection and coronal heating.The book provides frontline research aspects of solar plasma processes.In addition, the content is relevant for astrophysical plasmas, laboratory plasmas, fluid dynamics and related basic fields.Magnetohydrodynamic Processes in Solar Plasmas not only focuses on the fundamentals of the processes under consideration but in addition it presents recent research developments.In this manner it forms an essential reference for researchers, academics and advanced students in solar physics, astrophysics and related disciplines.

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  • Perovskite Solar Cells : Materials, Processes, and Devices
    Perovskite Solar Cells : Materials, Processes, and Devices

    Presents a thorough overview of perovskite research, written by leaders in the field of photovoltaics The use of perovskite-structured materials to produce high-efficiency solar cells is a subject of growing interest for academic researchers and industry professionals alike.Due to their excellent light absorption, longevity, and charge-carrier properties, perovskite solar cells show great promise as a low-cost, industry-scalable alternative to conventional photovoltaic cells. Perovskite Solar Cells: Materials, Processes, and Devices provides an up-to-date overview of the current state of perovskite solar cell research.Addressing the key areas in the rapidly growing field, this comprehensive volume covers novel materials, advanced theory, modelling and simulation, device physics, new processes, and the critical issue of solar cell stability.Contributions by an international panel of researchers highlight both the opportunities and challenges related to perovskite solar cells while offering detailed insights on topics such as the photon recycling processes, interfacial properties, and charge transfer principles of perovskite-based devices. Examines new compositions, hole and electron transport materials, lead-free materials, and 2D and 3D materials Covers interface modelling techniques, methods for modelling in two and three dimensions, and developments beyond Shockley-Queisser Theory Discusses new fabrication processes such as slot-die coating, roll processing, and vacuum sublimation Describes the device physics of perovskite solar cells, including recombination kinetics and optical absorption Explores innovative approaches to increase the light conversion efficiency of photovoltaic cells Perovskite Solar Cells: Materials, Processes, and Devices is essential reading for all those in the photovoltaic community, including materials scientists, surface physicists, surface chemists, solid state physicists, solid state chemists, and electrical engineers.

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  • Stationary Processes and Discrete Parameter Markov Processes
    Stationary Processes and Discrete Parameter Markov Processes

    This textbook explores two distinct stochastic processes that evolve at random: weakly stationary processes and discrete parameter Markov processes.Building from simple examples, the authors focus on developing context and intuition before formalizing the theory of each topic.This inviting approach illuminates the key ideas and computations in the proofs, forming an ideal basis for further study. After recapping the essentials from Fourier analysis, the book begins with an introduction to the spectral representation of a stationary process.Topics in ergodic theory follow, including Birkhoff's Ergodic Theorem and an introduction to dynamical systems.From here, the Markov property is assumed and the theory of discrete parameter Markov processes is explored on a general state space.Chapters cover a variety of topics, including birth-death chains, hitting probabilities and absorption, the representation of Markov processes as iterates of random maps, and large deviation theory for Markov processes.A chapter on geometric rates of convergence to equilibrium includes a splitting condition that captures the recurrence structure of certain iterated maps in a novel way.A selection of special topics concludes the book, including applications of large deviation theory, the FKG inequalities, coupling methods, and the Kalman filter. Featuring many short chapters and a modular design, this textbook offers an in-depth study of stationary and discrete-time Markov processes.Students and instructors alike will appreciate the accessible, example-driven approach and engaging exercises throughout.A single, graduate-level course in probability is assumed.

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  • What is the difference between heat treatment processes and hardening processes?

    Heat treatment processes refer to a range of techniques used to alter the physical and sometimes chemical properties of a material, typically through heating and cooling. This can include processes such as annealing, tempering, and quenching. Hardening processes, on the other hand, specifically refer to the heat treatment technique used to increase the hardness of a material, typically through heating and then rapidly cooling, or quenching, the material. In essence, hardening is a specific type of heat treatment process focused on increasing the hardness of a material, while heat treatment processes encompass a broader range of techniques aimed at altering various properties of a material.

  • What are warehouse processes?

    Warehouse processes refer to the series of activities and operations involved in the management and movement of goods within a warehouse. These processes include receiving, storing, picking, packing, and shipping of products. Additionally, warehouse processes also involve inventory management, order fulfillment, and maintaining the overall organization and efficiency of the warehouse. These processes are crucial for ensuring the smooth and accurate flow of goods in and out of the warehouse, ultimately contributing to the success of the supply chain and customer satisfaction.

  • Which processes are unnecessary?

    Processes that do not add value to the final product or service are considered unnecessary. This could include redundant paperwork, excessive approval steps, or overly complex decision-making processes. Unnecessary processes can slow down operations, increase costs, and create inefficiencies within an organization. Identifying and eliminating these unnecessary processes can help streamline operations and improve overall productivity.

  • What are climatic processes?

    Climatic processes refer to the various natural mechanisms and interactions that influence the Earth's climate system. These processes include factors such as solar radiation, greenhouse gas concentrations, ocean currents, and atmospheric circulation patterns. They play a crucial role in determining the long-term trends and variations in global and regional climates. Understanding climatic processes is essential for predicting future climate changes and their potential impacts on ecosystems, weather patterns, and human societies.

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