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03796cam a2200421 4500 |
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0-1758725990 |
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DE-627 |
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20231025182245.0 |
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|a 621.31/26
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| 245 |
1 |
0 |
|a Advances in energy storage
|b latest developments from R&D to the market
|c edited by Andreas Hauer (ZAE-Bayern, Garching, Germany)
|
| 264 |
|
1 |
|a Hoboken, NJ
|a Chichester, West Sussex
|b Wiley
|c 2022
|
| 300 |
|
|
|a xxviii, 899 Seiten
|b Illustrationen, Diagramme, Karten
|
| 336 |
|
|
|a Text
|b txt
|2 rdacontent
|
| 337 |
|
|
|a ohne Hilfsmittel zu benutzen
|b n
|2 rdamedia
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| 338 |
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|
|a Band
|b nc
|2 rdacarrier
|
| 500 |
|
|
|a Literaturangaben
|
| 520 |
|
|
|a "Wherever energy is available but not immediately used, energy storage can be utilized. Energy storage technologies help to absorb energy and release it at a later time (or in a different place) when it is needed. Hence, energy storage makes surplus energy usable, and is, therefore, equivalent to energy sources like fossil fuels and their market competion. Conventional energy resources - crude oil, natural gas and coal, for example - share many energy storage qualities while not being renewable. They allow for a wide variety of storage methods at high energy densities, for example 40 GJ/m℗đ for crude oil and coal. Considering these facts, energy storage technologies need to have either simi-lar technical characteristics or different advantages of an economic or ecologic nature. Electric mobility - may it be cars, public transportation or any other kind of vehicle - is a prime example of direct competition between a storage system and fossil fuels. The storage, i.e. the battery, is supposed to take in energy from, for ecological reasons, re-newable sources and deliver it whenever the consumer deems fit. At the same time, the storage needs to make the consumer physically independent of these energy sources. Besides a purely economic comparison of vehicles fitted with combustion and electric engines, environmental issues like air quality might cause a crucial bias toward the ener-gy storage. The cost of storage usually adds to the total energy cost. The cost for stored energy must not be significantly higher than the cost of energy supplied directly to the consumer. Prices, however, fluctuate with actual demand. Storages are economically most attractive when energy can be obtained at low cost and provided at a higher price during a peak in demand. With an increasing share of renewable energy, future energy systems will also have an increased need for balancing of supply and demand. Fluctuating renewable energy sources combined with energy storage systems are able to provide demand adapted en-ergy. This application will become the most relevant one in the next years."--
|
| 650 |
|
0 |
|a Energy storage
|
| 700 |
1 |
|
|a Hauer, Andreas
|e HerausgeberIn
|0 (DE-588)1038386233
|0 (DE-627)757228461
|0 (DE-576)392378477
|4 edt
|
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1 |
|
|z 9781119760146
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| 776 |
1 |
|
|z 9781119239390
|c (ebook)
|
| 776 |
0 |
8 |
|i Erscheint auch als
|n Online-Ausgabe
|t Advances in energy storage
|d Hoboken, NJ : John Wiley & Sons, 2022
|h 1 Online-Ressource (xxviii, 899 Seiten)
|w (DE-627)1824455879
|z 9781119760146
|z 9781119239390
|
| 856 |
4 |
2 |
|u https://www.gbv.de/dms/tib-ub-hannover/1758725990.pdf
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|m B:DE-89
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|v 2023-10-25
|3 Inhaltsverzeichnis
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1795385461433171968 |
| author2 |
Hauer, Andreas |
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edt |
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a h ah |
| author_facet |
Hauer, Andreas |
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Zittau |
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(DE-Zi4)FH |
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T - Technology |
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TJ165 |
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TJ165 |
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TJ165 |
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TJ 3165 |
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TJ - Mechanical Engineering and Machinery |
| callnumber_dezi4 |
ZP 4100 H368 |
| collcode_dezi4 |
Freihand |
| contents |
"Wherever energy is available but not immediately used, energy storage can be utilized. Energy storage technologies help to absorb energy and release it at a later time (or in a different place) when it is needed. Hence, energy storage makes surplus energy usable, and is, therefore, equivalent to energy sources like fossil fuels and their market competion. Conventional energy resources - crude oil, natural gas and coal, for example - share many energy storage qualities while not being renewable. They allow for a wide variety of storage methods at high energy densities, for example 40 GJ/m℗đ for crude oil and coal. Considering these facts, energy storage technologies need to have either simi-lar technical characteristics or different advantages of an economic or ecologic nature. Electric mobility - may it be cars, public transportation or any other kind of vehicle - is a prime example of direct competition between a storage system and fossil fuels. The storage, i.e. the battery, is supposed to take in energy from, for ecological reasons, re-newable sources and deliver it whenever the consumer deems fit. At the same time, the storage needs to make the consumer physically independent of these energy sources. Besides a purely economic comparison of vehicles fitted with combustion and electric engines, environmental issues like air quality might cause a crucial bias toward the ener-gy storage. The cost of storage usually adds to the total energy cost. The cost for stored energy must not be significantly higher than the cost of energy supplied directly to the consumer. Prices, however, fluctuate with actual demand. Storages are economically most attractive when energy can be obtained at low cost and provided at a higher price during a peak in demand. With an increasing share of renewable energy, future energy systems will also have an increased need for balancing of supply and demand. Fluctuating renewable energy sources combined with energy storage systems are able to provide demand adapted en-ergy. This application will become the most relevant one in the next years."-- |
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(DE-627)1758725990, (DE-599)KXP1758725990, (OCoLC)1351621787 |
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621.31/26 |
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600 - Technology (Applied sciences) |
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621 - Applied physics |
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621.31/26 |
| dewey-search |
621.31/26 |
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3621.31 226 |
| dewey-tens |
620 - Engineering and allied operations |
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Local |
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Technik |
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engineering-electrical, engineering-process, technology |
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Literaturangaben |
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Book |
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Book, E-Book |
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Book, E-Book |
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Book |
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Hoboken, NJ, Chichester, West Sussex, Wiley, 2022 |
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Hoboken, NJ; Chichester, West Sussex: Wiley, 2022 |
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Energy storage |
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xxviii, 899 Seiten; Illustrationen, Diagramme, Karten |
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2022 |
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Hoboken, NJ |
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Wiley |
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Advances in energy storage latest developments from R&D to the market edited by Andreas Hauer (ZAE-Bayern, Garching, Germany), Hoboken, NJ Chichester, West Sussex Wiley 2022, xxviii, 899 Seiten Illustrationen, Diagramme, Karten, Text txt rdacontent, ohne Hilfsmittel zu benutzen n rdamedia, Band nc rdacarrier, Literaturangaben, "Wherever energy is available but not immediately used, energy storage can be utilized. Energy storage technologies help to absorb energy and release it at a later time (or in a different place) when it is needed. Hence, energy storage makes surplus energy usable, and is, therefore, equivalent to energy sources like fossil fuels and their market competion. Conventional energy resources - crude oil, natural gas and coal, for example - share many energy storage qualities while not being renewable. They allow for a wide variety of storage methods at high energy densities, for example 40 GJ/m℗đ for crude oil and coal. Considering these facts, energy storage technologies need to have either simi-lar technical characteristics or different advantages of an economic or ecologic nature. Electric mobility - may it be cars, public transportation or any other kind of vehicle - is a prime example of direct competition between a storage system and fossil fuels. The storage, i.e. the battery, is supposed to take in energy from, for ecological reasons, re-newable sources and deliver it whenever the consumer deems fit. At the same time, the storage needs to make the consumer physically independent of these energy sources. Besides a purely economic comparison of vehicles fitted with combustion and electric engines, environmental issues like air quality might cause a crucial bias toward the ener-gy storage. The cost of storage usually adds to the total energy cost. The cost for stored energy must not be significantly higher than the cost of energy supplied directly to the consumer. Prices, however, fluctuate with actual demand. Storages are economically most attractive when energy can be obtained at low cost and provided at a higher price during a peak in demand. With an increasing share of renewable energy, future energy systems will also have an increased need for balancing of supply and demand. Fluctuating renewable energy sources combined with energy storage systems are able to provide demand adapted en-ergy. This application will become the most relevant one in the next years."--, Energy storage, Hauer, Andreas HerausgeberIn (DE-588)1038386233 (DE-627)757228461 (DE-576)392378477 edt, 9781119760146 (pdf), 9781119760108 (epub), 9781119239390 (ebook), Erscheint auch als Online-Ausgabe Advances in energy storage Hoboken, NJ : John Wiley & Sons, 2022 1 Online-Ressource (xxviii, 899 Seiten) (DE-627)1824455879 9781119760146 9781119239390, https://www.gbv.de/dms/tib-ub-hannover/1758725990.pdf V:DE-601 B:DE-89 pdf/application 2023-10-25 Inhaltsverzeichnis, DE-Zi4 epn:4219095780 2022-11-24T09:51:16Z |
| spellingShingle |
Advances in energy storage: latest developments from R&D to the market, "Wherever energy is available but not immediately used, energy storage can be utilized. Energy storage technologies help to absorb energy and release it at a later time (or in a different place) when it is needed. Hence, energy storage makes surplus energy usable, and is, therefore, equivalent to energy sources like fossil fuels and their market competion. Conventional energy resources - crude oil, natural gas and coal, for example - share many energy storage qualities while not being renewable. They allow for a wide variety of storage methods at high energy densities, for example 40 GJ/m℗đ for crude oil and coal. Considering these facts, energy storage technologies need to have either simi-lar technical characteristics or different advantages of an economic or ecologic nature. Electric mobility - may it be cars, public transportation or any other kind of vehicle - is a prime example of direct competition between a storage system and fossil fuels. The storage, i.e. the battery, is supposed to take in energy from, for ecological reasons, re-newable sources and deliver it whenever the consumer deems fit. At the same time, the storage needs to make the consumer physically independent of these energy sources. Besides a purely economic comparison of vehicles fitted with combustion and electric engines, environmental issues like air quality might cause a crucial bias toward the ener-gy storage. The cost of storage usually adds to the total energy cost. The cost for stored energy must not be significantly higher than the cost of energy supplied directly to the consumer. Prices, however, fluctuate with actual demand. Storages are economically most attractive when energy can be obtained at low cost and provided at a higher price during a peak in demand. With an increasing share of renewable energy, future energy systems will also have an increased need for balancing of supply and demand. Fluctuating renewable energy sources combined with energy storage systems are able to provide demand adapted en-ergy. This application will become the most relevant one in the next years."--, Energy storage |
| title |
Advances in energy storage: latest developments from R&D to the market |
| title_auth |
Advances in energy storage latest developments from R&D to the market |
| title_full |
Advances in energy storage latest developments from R&D to the market edited by Andreas Hauer (ZAE-Bayern, Garching, Germany) |
| title_fullStr |
Advances in energy storage latest developments from R&D to the market edited by Andreas Hauer (ZAE-Bayern, Garching, Germany) |
| title_full_unstemmed |
Advances in energy storage latest developments from R&D to the market edited by Andreas Hauer (ZAE-Bayern, Garching, Germany) |
| title_short |
Advances in energy storage |
| title_sort |
advances in energy storage latest developments from r&d to the market |
| title_sub |
latest developments from R&D to the market |
| title_unstemmed |
Advances in energy storage: latest developments from R&D to the market |
| topic |
Energy storage |
| topic_facet |
Energy storage |
| url |
https://www.gbv.de/dms/tib-ub-hannover/1758725990.pdf |
| work_keys_str_mv |
AT hauerandreas advancesinenergystoragelatestdevelopmentsfromrdtothemarket |
