Kinetic Energy Harvesters

Kinetic Energy Harvesters by Amir Musa Abazari, As’ad Alizadeh, Mostafa Barzegar Gerdroodbary, and Sajad Salavatidezfouli is an authoritative guide for engineers, researchers, and innovators seeking practical, cutting-edge solutions in energy harvesting. Clear, concise, and technically rich, this book brings together theory, design, and real-world application of kinetic energy harvesters for modern engineering challenges.

Explore rigorous treatments of piezoelectric, electromagnetic, and electrostatic harvesters alongside modeling techniques, optimization strategies, and experimental validation. The authors translate complex dynamics and circuit integration into accessible design steps, enabling you to move from concept to prototype with confidence. Detailed discussions cover vibration energy harvesting for industrial machinery, wearable electronics, structural health monitoring, and autonomous IoT sensors—making the content directly relevant to smart cities, remote monitoring, and sustainable infrastructure projects across Europe, North America, Asia, and beyond.

Whether you are a graduate student, R&D engineer, or product designer, you’ll gain actionable insights on maximizing power density, improving efficiency under variable conditions, and integrating harvesters with low-power electronics. Case studies and comparative analyses sharpen decision-making for both lab and field deployment.

For professionals building the next generation of self-powered devices, Kinetic Energy Harvesters is an indispensable resource that blends academic rigor with industry practicality. Add this essential reference to your library and accelerate your work in renewable, autonomous power systems—designed for global application and real-world impact.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.