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  • av Manju L
    380,-

    Green Chitosan Desiccants are innovative and eco-friendly solutions designed to combat moisture-related issues while prioritizing environmental sustainability. These desiccants are derived from chitosan, a biodegradable and renewable natural polymer obtained from the exoskeletons of crustaceans such as shrimp and crab. Chitosan, a modified form of chitin, possesses excellent moisture-absorbing properties, making it an ideal material for desiccant applications. Unlike traditional desiccants that are often based on harmful chemicals or synthetic materials, green chitosan desiccants offer a non-toxic and sustainable alternative. The manufacturing process of green chitosan desiccants involves careful extraction and purification of chitosan from waste crustacean shells. This reduces the environmental impact associated with shell waste disposal and promotes the efficient utilization of this valuable resource. Furthermore, the production of chitosan desiccants requires less energy compared to synthetic alternatives, resulting in lower carbon emissions. Green chitosan desiccants are highly effective in controlling moisture in various environments. They have a strong affinity for water molecules, absorbing excess moisture from the surrounding atmosphere, and maintaining optimal humidity levels. By preventing the accumulation of moisture, these desiccants help to preserve the quality and shelf life of a wide range of products, including food, pharmaceuticals, electronics, and textiles. One significant advantage of green chitosan desiccants is their biodegradability. Once they have fulfilled their moisture-absorbing role, they can be easily disposed of without causing long-term harm to the environment. The chitosan naturally breaks down into harmless byproducts, completing the cycle of sustainability.

  • av Raj Kumar
    380,-

    Compact wireless antennas with metamaterials are a revolutionary advancement in antenna technology that offers significant benefits in terms of size reduction and enhanced performance. Metamaterials are artificially engineered structures with unique electromagnetic properties that can manipulate and control the propagation of electromagnetic waves. Traditional wireless antennas are typically limited by their physical size, which is directly proportional to the operating frequency. However, by leveraging the properties of metamaterials, engineers have been able to design compact antennas that can operate efficiently across a wide range of frequencies, including those used for wireless communication, such as Wi-Fi, Bluetooth, and cellular networks. The key advantage of using metamaterials in compact wireless antennas is their ability to manipulate the electromagnetic waves in unconventional ways. By carefully designing the structure and arrangement of the metamaterial elements, it becomes possible to achieve properties like negative refractive index, which allows bending and focusing of electromagnetic waves. This enables the creation of antennas that can radiate and receive signals more efficiently, leading to improved performance and increased range. Moreover, metamaterial-based antennas can be designed to exhibit unique electromagnetic properties, such as beam steering, beam shaping, and polarization control. These capabilities provide flexibility and adaptability, allowing the antennas to be dynamically reconfigured to optimize signal reception in different environments or to establish directional communication links. Another significant advantage of compact wireless antennas with metamaterials is their potential for integration into small devices and systems, such as smartphones, wearables, Internet of Things (IoT) devices, and autonomous vehicles. The reduced size and improved performance of these antennas enable seamless integration without compromising the overall functionality and form factor of the devices. In conclusion, compact wireless antennas with metamaterials offer a transformative solution to the challenges of antenna miniaturization and performance enhancement. Their ability to manipulate electromagnetic waves in unconventional ways opens up new possibilities for improved wireless communication systems across various applications, paving the way for a more connected and efficient future.

  • av Meenakshi K
    406,-

    Passive Filter Design for Five-Level Inverters provides a comprehensive exploration of the analysis, design, and implementation of passive filter configurations specifically tailored for five-level inverters. In recent years, five-level inverters have gained significant attention due to their ability to enhance power quality and increase the efficiency of power conversion systems. However, their operation often introduces harmonic distortion, which necessitates the use of effective filtering techniques.This book delves into the theoretical foundations of passive filters and their relevance to five-level inverters. It presents a systematic approach to filter design, taking into account the unique characteristics and challenges posed by five-level inverters. The authors discuss various passive filter configurations, including L-C filters, L-C-R filters, and their combinations, highlighting the advantages and limitations of each design.The analysis of filter performance is supported by detailed mathematical derivations and simulations, enabling readers to gain a deeper understanding of the filter behavior. The book also covers practical implementation aspects, providing guidance on component selection, sizing, and integration of the passive filters into the power conversion system.Whether you are a researcher, engineer, or graduate student working in the field of power electronics, this book serves as a valuable resource for mastering the design and implementation of passive filter configurations for five-level inverters. It equips readers with the necessary knowledge and tools to effectively mitigate harmonic distortion and achieve high-quality power conversion in modern energy systems.

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