03661nam 22006135 450 991101585800332120250714130259.09789819651702(electronic bk.)978981965169610.1007/978-981-96-5170-2(MiAaPQ)EBC32209704(Au-PeEL)EBL32209704(CKB)39653442500041(DE-He213)978-981-96-5170-2(EXLCZ)993965344250004120250714d2025 u| 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierElectrical Sustainable Energy for Mechanical Engineering /by Masaaki Okubo1st ed. 2025.Singapore :Springer Nature Singapore :Imprint: Springer,2025.1 online resource (225 pages)Print version: Okubo, Masaaki Electrical Sustainable Energy for Mechanical Engineering Singapore : Springer,c2025 9789819651696 1. Basic Laws of Electrical Circuits -- 2. AC linear circuit element -- 3. Fundamentals of AC electrical circuits and AC equipment -- 4. Fundamentals of AC electrical circuits and AC equipment -- 5. Impedance matching and energy conversion.This book describes fundamentals and applications on electrical sustainable energy for Mechanical Engineering. The main objective of this book is to provide readers with an easy-to-understand resource on the foundations and application of electrical sustainable energy. This book was specifically crafted with the intention to serve as a resource for students in the third year through graduate school, particularly in departments other than electrical engineering such as mechanical engineering departments at universities. The aim is to provide foundational knowledge on sustainable electrical energy and energy conversion principles. The topics addressed are those which the author found beneficial in the pursuit of mechanical engineering research and are related to sustainable electrical engineering. It is designed to be covered within a semester of 15 weeks (90 minutes per week), structured into nine chapters. Specifically, it is suggested that chapters 1 and 2 be taught over 4 weeks, chapters 4 to 7 over 6 weeks, and chapters 8 and 9 across 5 weeks. Furthermore, each chapter has comprehensive exercise problems and is projected to cover approximately eight problems in two weeks. These exercises can either be conducted as in-class integrative practice or assigned as weekly homework tasks, with the intention of nurturing problem-solving capabilities in students.Energy storageElectric power productionElectrical engineeringSustainabilityMechanical and Thermal Energy StorageMechanical Power EngineeringElectrical Power EngineeringElectrical and Electronic EngineeringSustainabilityEnergy storage.Electric power production.Electrical engineering.Sustainability.Mechanical and Thermal Energy Storage.Mechanical Power Engineering.Electrical Power Engineering.Electrical and Electronic Engineering.Sustainability.621.3126Okubo Masaaki1288738MiAaPQMiAaPQMiAaPQ9911015858003321Electrical Sustainable Energy for Mechanical Engineering4409175UNINA