Energy storage: critical concepts in natural resources
Language: English Publication details: New York: Routledge, 2019. Description: xxvi, 637p.; 24cms; Vol. 1:Types of energy storageISBN: 9781138784406 (Set); 9781138784413 (Vol-1)Subject(s): Electrochemical and battery energy storage | Thermal energy storage | Thermochemical energy storage | Magnetic energy storage | Chemical and hydrogen energy storageDDC classification: 621.042 R67-1| Item type | Current library | Collection | Call number | Vol info | Status | Date due | Barcode |
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Reference
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Dr. S. R. Ranganathan Library Reference | Reference | 621.042 R67-1 (Browse shelf(Opens below)) | Vol. 1: Types of energy sources | Not for loan | 3256 |
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| 620.5 V65, 2:5 Nanomaterials: An introduction to synthesis, properties and application | 620.5 W65, 2:15 Nanophysics and nanotechnology: an introduction to modern concepts in nanoscience | 621.042 C85:5 Principles of energy conversion | 621.042 R67-1 Energy storage: critical concepts in natural resources | 621.042 R67-2 Energy storage: critical concepts in natural resources | 621.042 R67-3 Energy storage: critical concepts in natural resources | 621.042 R67-4 Energy storage: critical concepts in natural resources |
Contents:
v. I. Types of energy storage
v. II. Applications of energy storage
v. III. Categorizations and comparisons of energy storages
v. IV. Research on energy storage
This new Routledge collection brings together the major works on the many types of energy-storage technologies and systems, as well as their applications.
The energy-storage topics covered include battery storage, hydrogen energy storage, flywheel energy storage, compressed gas energy storage, pumped storage, magnetic storage, chemical storage, thermal energy storage, thermochemical energy storage, organic and biological energy storage, and others.
Included are categorizations and comparisons of the main energy-storage technologies. The collection addresses both existing and potential future energy-storage technologies and systems. Existing methods and technologies for energy storage are covered to ensure a sound understanding of the technology utilized today, whereas new techniques that are in development or undergoing research are evaluated to provide a good understanding of what lies at and beyond the state of the art.
Energy storage can be utilized in a wide range of applications, and these are also addressed. The types of applications considered range from utility and other electrical power systems, conventional and renewable power generation, and renewable energy sources, through to heat pumps, building heating and cooling and district energy systems.
The ability of energy storage to facilitate the efficient, effective, and economic operation of renewable energy systems is covered throughout the collection by, for example, focusing on using energy storage to improve solar- and wind-power systems and other renewable energy applications.
The utilization of energy storage in developed, as well as emerging, economies is also covered, to provide global coverage.