Verfügbarkeit: Mechanical energy storage technologies

Mechanical energy storage technologies:

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Bibliographische Detailangaben
1. Verfasser:	Arabkoohsar, Ahmad (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	London, United Kingdom ; San Diego, CA, United States ; Cambridge, MA, United States ; Kidlington, Oxford, United Kingdom Academic Press [2021]
Schlagworte:	Energy storage Energiespeicher
Online-Zugang:	DE-573 DE-91 URL des Erstveröffentlichers
Beschreibung:	Description based on publisher supplied metadata and other sources
Beschreibung:	1 Online-Ressource Illustrationen
ISBN:	9780128226612 9780128200230
DOI:	10.1016/C2019-0-01241-1

Internformat

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505	8		\|a Intro -- Mechanical Energy Storage Technologies -- Copyright -- Contents -- Chapter One: Classification of energy storage systems -- 1.1. Electrochemical -- 1.1.1. Batteries -- 1.1.1.1. Lead-acid -- 1.1.1.2. NiCad/NiMH -- 1.1.1.3. Metal-air -- 1.1.1.4. Sodium-nickel chloride -- 1.1.1.5. Flow batteries -- 1.1.2. Supercapacitors -- 1.2. Chemical -- 1.3. Electrical -- 1.3.1. Capacitors -- 1.3.2. Superconducting magnetics -- 1.4. Thermal -- 1.4.1. Sensible thermal energy storage -- 1.4.2. Latent thermal energy storage -- 1.5. Mechanical -- 1.5.1. Pumped hydroelectric storage -- 1.5.2. Flywheel -- 1.5.3. Compressed air energy storage -- 1.5.4. Pumped heat electricity storage -- 1.5.5. New emerging storages -- 1.5.5.1. High-temperature heat and power storage -- 1.5.5.2. Subcooled CAES -- 1.5.5.3. Gravitational storage -- References -- Chapter Two: Thermal energy systems -- 2.1. Fundamentals -- 2.1.1. STES systems -- 2.1.2. LTES systems -- 2.1.3. TCTES systems -- 2.1.4. SeTES systems -- 2.1.5. CTES systems -- 2.2. Mathematical model -- 2.2.1. STES systems -- 2.2.2. LTES systems -- 2.2.3. TCTES systems -- 2.2.4. SeTES systems -- 2.2.4.1. Hydraulics of groundwater -- 2.2.4.2. Hydraulics of pipes -- 2.2.4.3. Governing equations of the heat transfer -- 2.2.4.4. Heat transfer in groundwater -- 2.2.4.5. Heat transfer in pipes -- 2.3. Future perspective -- References -- Chapter Three: Compressed air energy storage system -- 3.1. Fundamentals -- 3.2. State-of-the-art and practice -- 3.2.1. State-of-practice -- 3.2.2. State-of-the-art -- 3.3. Mathematical model -- 3.3.1. General principles -- 3.3.2. Thermodynamic model -- 3.4. Future perspective -- References -- Chapter Four: Pumped hydropower storage -- 4.1. Fundamentals -- 4.2. State-of-the-art and practice -- 4.3. Mathematical model -- 4.3.1. Pipelines -- 4.3.2. Water reservoir
505	8		\|a 4.3.3. Hydro turbine and pump -- 4.3.4. Generator -- 4.4. Perspective model -- References -- Chapter Five: Flywheel energy storage -- 5.1. Fundamentals -- 5.1.1. The FES system -- 5.1.2. Pros and cons -- 5.1.3. Applications -- 5.2. State-of-the-art -- 5.3. Mathematical model -- 5.3.1. Fundamental equations -- 5.3.2. The formulation for optimum design of flywheel -- 5.4. Future perspective -- References -- Chapter Six: Pumped heat storage system -- 6.1. Fundamentals -- 6.2. State-of-the-art -- 6.3. Mathematical model -- 6.4. Future perspective -- References -- Chapter Seven: New emerging energy storage systems -- 7.1. Introduction of the technologies -- 7.1.1. Subcooled compressed air energy storage (SCAES) technology -- 7.1.2. High-temperature heat and power storage technology -- 7.1.2.1. Air-based HTHPS -- 7.1.2.2. Steam-based HTHPS -- 7.1.3. Gravity energy storage technology -- 7.2. Mathematical model -- 7.2.1. SCAES technology -- 7.2.2. HTHPS technology -- 7.2.2.1. Air-based -- 7.2.2.2. Steam-based -- 7.2.3. GES technology -- 7.3. Future perspective -- References -- Chapter Eight: Conclusion -- 8.1. Discussion of mechanical energy storage (MES) systems -- 8.1.1. Thermal energy storage (TES) systems -- 8.1.2. Pumped hyrdropower storage (PHS) systems -- 8.1.3. Flywheel energy storage (FES) systems -- 8.1.4. Compressed air energy storage (CAES) systems -- 8.1.5. Pumped heat electricity storage (PHES) systems -- 8.1.6. New emerging technologies -- 8.2. Final remarks -- References -- Index
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Datensatz im Suchindex

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contents	Intro -- Mechanical Energy Storage Technologies -- Copyright -- Contents -- Chapter One: Classification of energy storage systems -- 1.1. Electrochemical -- 1.1.1. Batteries -- 1.1.1.1. Lead-acid -- 1.1.1.2. NiCad/NiMH -- 1.1.1.3. Metal-air -- 1.1.1.4. Sodium-nickel chloride -- 1.1.1.5. Flow batteries -- 1.1.2. Supercapacitors -- 1.2. Chemical -- 1.3. Electrical -- 1.3.1. Capacitors -- 1.3.2. Superconducting magnetics -- 1.4. Thermal -- 1.4.1. Sensible thermal energy storage -- 1.4.2. Latent thermal energy storage -- 1.5. Mechanical -- 1.5.1. Pumped hydroelectric storage -- 1.5.2. Flywheel -- 1.5.3. Compressed air energy storage -- 1.5.4. Pumped heat electricity storage -- 1.5.5. New emerging storages -- 1.5.5.1. High-temperature heat and power storage -- 1.5.5.2. Subcooled CAES -- 1.5.5.3. Gravitational storage -- References -- Chapter Two: Thermal energy systems -- 2.1. Fundamentals -- 2.1.1. STES systems -- 2.1.2. LTES systems -- 2.1.3. TCTES systems -- 2.1.4. SeTES systems -- 2.1.5. CTES systems -- 2.2. Mathematical model -- 2.2.1. STES systems -- 2.2.2. LTES systems -- 2.2.3. TCTES systems -- 2.2.4. SeTES systems -- 2.2.4.1. Hydraulics of groundwater -- 2.2.4.2. Hydraulics of pipes -- 2.2.4.3. Governing equations of the heat transfer -- 2.2.4.4. Heat transfer in groundwater -- 2.2.4.5. Heat transfer in pipes -- 2.3. Future perspective -- References -- Chapter Three: Compressed air energy storage system -- 3.1. Fundamentals -- 3.2. State-of-the-art and practice -- 3.2.1. State-of-practice -- 3.2.2. State-of-the-art -- 3.3. Mathematical model -- 3.3.1. General principles -- 3.3.2. Thermodynamic model -- 3.4. Future perspective -- References -- Chapter Four: Pumped hydropower storage -- 4.1. Fundamentals -- 4.2. State-of-the-art and practice -- 4.3. Mathematical model -- 4.3.1. Pipelines -- 4.3.2. Water reservoir 4.3.3. Hydro turbine and pump -- 4.3.4. Generator -- 4.4. Perspective model -- References -- Chapter Five: Flywheel energy storage -- 5.1. Fundamentals -- 5.1.1. The FES system -- 5.1.2. Pros and cons -- 5.1.3. Applications -- 5.2. State-of-the-art -- 5.3. Mathematical model -- 5.3.1. Fundamental equations -- 5.3.2. The formulation for optimum design of flywheel -- 5.4. Future perspective -- References -- Chapter Six: Pumped heat storage system -- 6.1. Fundamentals -- 6.2. State-of-the-art -- 6.3. Mathematical model -- 6.4. Future perspective -- References -- Chapter Seven: New emerging energy storage systems -- 7.1. Introduction of the technologies -- 7.1.1. Subcooled compressed air energy storage (SCAES) technology -- 7.1.2. High-temperature heat and power storage technology -- 7.1.2.1. Air-based HTHPS -- 7.1.2.2. Steam-based HTHPS -- 7.1.3. Gravity energy storage technology -- 7.2. Mathematical model -- 7.2.1. SCAES technology -- 7.2.2. HTHPS technology -- 7.2.2.1. Air-based -- 7.2.2.2. Steam-based -- 7.2.3. GES technology -- 7.3. Future perspective -- References -- Chapter Eight: Conclusion -- 8.1. Discussion of mechanical energy storage (MES) systems -- 8.1.1. Thermal energy storage (TES) systems -- 8.1.2. Pumped hyrdropower storage (PHS) systems -- 8.1.3. Flywheel energy storage (FES) systems -- 8.1.4. Compressed air energy storage (CAES) systems -- 8.1.5. Pumped heat electricity storage (PHES) systems -- 8.1.6. New emerging technologies -- 8.2. Final remarks -- References -- Index
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discipline	Elektrotechnik / Elektronik / Nachrichtentechnik
discipline_str_mv	Elektrotechnik / Elektronik / Nachrichtentechnik
doi_str_mv	10.1016/C2019-0-01241-1
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Pros and cons -- 5.1.3. Applications -- 5.2. State-of-the-art -- 5.3. Mathematical model -- 5.3.1. Fundamental equations -- 5.3.2. The formulation for optimum design of flywheel -- 5.4. Future perspective -- References -- Chapter Six: Pumped heat storage system -- 6.1. Fundamentals -- 6.2. State-of-the-art -- 6.3. Mathematical model -- 6.4. Future perspective -- References -- Chapter Seven: New emerging energy storage systems -- 7.1. Introduction of the technologies -- 7.1.1. Subcooled compressed air energy storage (SCAES) technology -- 7.1.2. High-temperature heat and power storage technology -- 7.1.2.1. Air-based HTHPS -- 7.1.2.2. Steam-based HTHPS -- 7.1.3. Gravity energy storage technology -- 7.2. Mathematical model -- 7.2.1. SCAES technology -- 7.2.2. HTHPS technology -- 7.2.2.1. Air-based -- 7.2.2.2. Steam-based -- 7.2.3. GES technology -- 7.3. Future perspective -- References -- Chapter Eight: Conclusion -- 8.1. Discussion of mechanical energy storage (MES) systems -- 8.1.1. Thermal energy storage (TES) systems -- 8.1.2. Pumped hyrdropower storage (PHS) systems -- 8.1.3. Flywheel energy storage (FES) systems -- 8.1.4. Compressed air energy storage (CAES) systems -- 8.1.5. Pumped heat electricity storage (PHES) systems -- 8.1.6. New emerging technologies -- 8.2. 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publisher	Academic Press
record_format	marc
spelling	Arabkoohsar, Ahmad Verfasser aut Mechanical energy storage technologies Ahmad Arabkoohsar London, United Kingdom ; San Diego, CA, United States ; Cambridge, MA, United States ; Kidlington, Oxford, United Kingdom Academic Press [2021] © 2021 1 Online-Ressource Illustrationen txt rdacontent c rdamedia cr rdacarrier Description based on publisher supplied metadata and other sources Intro -- Mechanical Energy Storage Technologies -- Copyright -- Contents -- Chapter One: Classification of energy storage systems -- 1.1. Electrochemical -- 1.1.1. Batteries -- 1.1.1.1. Lead-acid -- 1.1.1.2. NiCad/NiMH -- 1.1.1.3. Metal-air -- 1.1.1.4. Sodium-nickel chloride -- 1.1.1.5. Flow batteries -- 1.1.2. Supercapacitors -- 1.2. Chemical -- 1.3. Electrical -- 1.3.1. Capacitors -- 1.3.2. Superconducting magnetics -- 1.4. Thermal -- 1.4.1. Sensible thermal energy storage -- 1.4.2. Latent thermal energy storage -- 1.5. Mechanical -- 1.5.1. Pumped hydroelectric storage -- 1.5.2. Flywheel -- 1.5.3. Compressed air energy storage -- 1.5.4. Pumped heat electricity storage -- 1.5.5. New emerging storages -- 1.5.5.1. High-temperature heat and power storage -- 1.5.5.2. Subcooled CAES -- 1.5.5.3. Gravitational storage -- References -- Chapter Two: Thermal energy systems -- 2.1. Fundamentals -- 2.1.1. STES systems -- 2.1.2. LTES systems -- 2.1.3. TCTES systems -- 2.1.4. SeTES systems -- 2.1.5. CTES systems -- 2.2. Mathematical model -- 2.2.1. STES systems -- 2.2.2. LTES systems -- 2.2.3. TCTES systems -- 2.2.4. SeTES systems -- 2.2.4.1. Hydraulics of groundwater -- 2.2.4.2. Hydraulics of pipes -- 2.2.4.3. Governing equations of the heat transfer -- 2.2.4.4. Heat transfer in groundwater -- 2.2.4.5. Heat transfer in pipes -- 2.3. Future perspective -- References -- Chapter Three: Compressed air energy storage system -- 3.1. Fundamentals -- 3.2. State-of-the-art and practice -- 3.2.1. State-of-practice -- 3.2.2. State-of-the-art -- 3.3. Mathematical model -- 3.3.1. General principles -- 3.3.2. Thermodynamic model -- 3.4. Future perspective -- References -- Chapter Four: Pumped hydropower storage -- 4.1. Fundamentals -- 4.2. State-of-the-art and practice -- 4.3. Mathematical model -- 4.3.1. Pipelines -- 4.3.2. Water reservoir 4.3.3. Hydro turbine and pump -- 4.3.4. Generator -- 4.4. Perspective model -- References -- Chapter Five: Flywheel energy storage -- 5.1. Fundamentals -- 5.1.1. The FES system -- 5.1.2. Pros and cons -- 5.1.3. Applications -- 5.2. State-of-the-art -- 5.3. Mathematical model -- 5.3.1. Fundamental equations -- 5.3.2. The formulation for optimum design of flywheel -- 5.4. Future perspective -- References -- Chapter Six: Pumped heat storage system -- 6.1. Fundamentals -- 6.2. State-of-the-art -- 6.3. Mathematical model -- 6.4. Future perspective -- References -- Chapter Seven: New emerging energy storage systems -- 7.1. Introduction of the technologies -- 7.1.1. Subcooled compressed air energy storage (SCAES) technology -- 7.1.2. High-temperature heat and power storage technology -- 7.1.2.1. Air-based HTHPS -- 7.1.2.2. Steam-based HTHPS -- 7.1.3. Gravity energy storage technology -- 7.2. Mathematical model -- 7.2.1. SCAES technology -- 7.2.2. HTHPS technology -- 7.2.2.1. Air-based -- 7.2.2.2. Steam-based -- 7.2.3. GES technology -- 7.3. Future perspective -- References -- Chapter Eight: Conclusion -- 8.1. Discussion of mechanical energy storage (MES) systems -- 8.1.1. Thermal energy storage (TES) systems -- 8.1.2. Pumped hyrdropower storage (PHS) systems -- 8.1.3. Flywheel energy storage (FES) systems -- 8.1.4. Compressed air energy storage (CAES) systems -- 8.1.5. Pumped heat electricity storage (PHES) systems -- 8.1.6. New emerging technologies -- 8.2. Final remarks -- References -- Index Energy storage Energiespeicher (DE-588)4152230-8 gnd rswk-swf Energiespeicher (DE-588)4152230-8 s DE-604 Erscheint auch als Arabkoohsar, Ahmad Mechanical Energy Storage Technologies San Diego : Elsevier Science & Technology,c2020 Druck-Ausgabe 978-0-12-820023-0 https://doi.org/10.1016/C2019-0-01241-1 Verlag URL des Erstveröffentlichers Volltext
spellingShingle	Arabkoohsar, Ahmad Mechanical energy storage technologies Intro -- Mechanical Energy Storage Technologies -- Copyright -- Contents -- Chapter One: Classification of energy storage systems -- 1.1. Electrochemical -- 1.1.1. Batteries -- 1.1.1.1. Lead-acid -- 1.1.1.2. NiCad/NiMH -- 1.1.1.3. Metal-air -- 1.1.1.4. Sodium-nickel chloride -- 1.1.1.5. Flow batteries -- 1.1.2. Supercapacitors -- 1.2. Chemical -- 1.3. Electrical -- 1.3.1. Capacitors -- 1.3.2. Superconducting magnetics -- 1.4. Thermal -- 1.4.1. Sensible thermal energy storage -- 1.4.2. Latent thermal energy storage -- 1.5. Mechanical -- 1.5.1. Pumped hydroelectric storage -- 1.5.2. Flywheel -- 1.5.3. Compressed air energy storage -- 1.5.4. Pumped heat electricity storage -- 1.5.5. New emerging storages -- 1.5.5.1. High-temperature heat and power storage -- 1.5.5.2. Subcooled CAES -- 1.5.5.3. Gravitational storage -- References -- Chapter Two: Thermal energy systems -- 2.1. Fundamentals -- 2.1.1. STES systems -- 2.1.2. LTES systems -- 2.1.3. TCTES systems -- 2.1.4. SeTES systems -- 2.1.5. CTES systems -- 2.2. Mathematical model -- 2.2.1. STES systems -- 2.2.2. LTES systems -- 2.2.3. TCTES systems -- 2.2.4. SeTES systems -- 2.2.4.1. Hydraulics of groundwater -- 2.2.4.2. Hydraulics of pipes -- 2.2.4.3. Governing equations of the heat transfer -- 2.2.4.4. Heat transfer in groundwater -- 2.2.4.5. Heat transfer in pipes -- 2.3. Future perspective -- References -- Chapter Three: Compressed air energy storage system -- 3.1. Fundamentals -- 3.2. State-of-the-art and practice -- 3.2.1. State-of-practice -- 3.2.2. State-of-the-art -- 3.3. Mathematical model -- 3.3.1. General principles -- 3.3.2. Thermodynamic model -- 3.4. Future perspective -- References -- Chapter Four: Pumped hydropower storage -- 4.1. Fundamentals -- 4.2. State-of-the-art and practice -- 4.3. Mathematical model -- 4.3.1. Pipelines -- 4.3.2. Water reservoir 4.3.3. Hydro turbine and pump -- 4.3.4. Generator -- 4.4. Perspective model -- References -- Chapter Five: Flywheel energy storage -- 5.1. Fundamentals -- 5.1.1. The FES system -- 5.1.2. Pros and cons -- 5.1.3. Applications -- 5.2. State-of-the-art -- 5.3. Mathematical model -- 5.3.1. Fundamental equations -- 5.3.2. The formulation for optimum design of flywheel -- 5.4. Future perspective -- References -- Chapter Six: Pumped heat storage system -- 6.1. Fundamentals -- 6.2. State-of-the-art -- 6.3. Mathematical model -- 6.4. Future perspective -- References -- Chapter Seven: New emerging energy storage systems -- 7.1. Introduction of the technologies -- 7.1.1. Subcooled compressed air energy storage (SCAES) technology -- 7.1.2. High-temperature heat and power storage technology -- 7.1.2.1. Air-based HTHPS -- 7.1.2.2. Steam-based HTHPS -- 7.1.3. Gravity energy storage technology -- 7.2. Mathematical model -- 7.2.1. SCAES technology -- 7.2.2. HTHPS technology -- 7.2.2.1. Air-based -- 7.2.2.2. Steam-based -- 7.2.3. GES technology -- 7.3. Future perspective -- References -- Chapter Eight: Conclusion -- 8.1. Discussion of mechanical energy storage (MES) systems -- 8.1.1. Thermal energy storage (TES) systems -- 8.1.2. Pumped hyrdropower storage (PHS) systems -- 8.1.3. Flywheel energy storage (FES) systems -- 8.1.4. Compressed air energy storage (CAES) systems -- 8.1.5. Pumped heat electricity storage (PHES) systems -- 8.1.6. New emerging technologies -- 8.2. Final remarks -- References -- Index Energy storage Energiespeicher (DE-588)4152230-8 gnd
subject_GND	(DE-588)4152230-8
title	Mechanical energy storage technologies
title_auth	Mechanical energy storage technologies
title_exact_search	Mechanical energy storage technologies
title_exact_search_txtP	Mechanical energy storage technologies
title_full	Mechanical energy storage technologies Ahmad Arabkoohsar
title_fullStr	Mechanical energy storage technologies Ahmad Arabkoohsar
title_full_unstemmed	Mechanical energy storage technologies Ahmad Arabkoohsar
title_short	Mechanical energy storage technologies
title_sort	mechanical energy storage technologies
topic	Energy storage Energiespeicher (DE-588)4152230-8 gnd
topic_facet	Energy storage Energiespeicher
url	https://doi.org/10.1016/C2019-0-01241-1
work_keys_str_mv	AT arabkoohsarahmad mechanicalenergystoragetechnologies

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