PARTcloud - air storage tank
Explanation by Hotspot Model
壓縮空氣儲能技術
壓縮空氣儲能技術
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壓縮空氣儲能技術(英语:compressed air energy storage),簡稱CAES,是一種利用壓縮空氣來儲能的技術。民生上,離峰時段的能量得以儲存,並於尖峰時段釋放使用[1]。小型系統長期以來一直用於礦山機車之推進等應用。由於散熱會降低存儲系統的能源效率,因此放大應用必須針對壓縮空氣進行熱量守恆控制。
種類
氣體壓縮會產生熱,因此壓縮後的空氣溫度較高。相反地,氣體膨脹會釋放熱。如果沒有額外的熱量進入系統,空氣溫度在膨脹後會顯著下降。如果能將壓縮所產生的熱儲存起來,並於膨脹時釋放,則儲能效率便能顯著提升[2]。CAES系統控制熱量的方式主要分為絕熱、非絕熱或恆溫等三類。
儲存
恆溫儲存
恆壓儲存
熱力學
為了提升儲存與釋放過程的效率,因此一般採用近似可逆的等溫或等熵過程[2]。
另見
參考資料
- ^ Wild, Matthew, L. Wind Drives Growing Use of Batteries, New York Times, July 28, 2010, pp.B1.
- ^ 2.0 2.1 Gies, Erica. Global Clean Energy: A Storage Solution Is in the Air, International Herald Tribune, October 1, 2012. Retrieved from NYTimes.com website, March 19, 2013.
外部連結
| 维基共享资源中相关的多媒体资源:壓縮空氣儲能技術 |
- Compressed Air System of Paris – technical notes Part 1 Part 2 Part 3 Part 4 Part 5 Part 6 (Special supplement, Scientific American, 1921)
- Solution to some of country’s energy woes might be little more than hot air (Sandia National Labs, DoE).
- MSNBC article, Cities to Store Wind Power for Later Use, January 4, 2006
- Power storage: Trapped wind
- Catching The Wind In A Bottle A group of Midwest utilities is building a plant that will store excess wind power underground
- New York Times Article: Technology; Using Compressed Air To Store Up Electricity
- Compressed Air Energy Storage, Entropy and Efficiency
This article uses material from the Wikipedia article "壓縮空氣儲能技術", which is released under the Creative Commons Attribution-Share-Alike License 3.0. There is a list of all authors in Wikipedia
