| Stellarator of Costa Rica 1 | |
|---|---|
 SCR-1 vacuum vessel and coil structure | |
| Device type | Stellarator |
| Location | Cartago, Costa Rica |
| Affiliation | Costa Rica Institute of Technology |
| Technical specifications | |
| Major radius | 238.1
mm (device) 140 mm (plasma) |
| Minor radius | 100 mm (device) 42.2 mm (plasma) |
| Magnetic field | 0.0438 T (438 G) |
| Discharge duration | 3 ms |
| Plasma current | 40 kA |
| History | |
| Year(s) of operation | 2016–present |
The Stellarator of Costa Rica 1 (or SCR-1) is a small modular stellarator for the magnetic confinement of plasma located at Cartago, Costa Rica. It is developed by the plasmaTEC group of the Plasma Laboratory for Fusion Energy and Applications at Costa Rica Institute of Technology. [1] [2] It began operation as Latin America's first stellarator on 29 June 2016. [3] [4]
SCR-1 is of a compact design and has the distinction of having the smallest aspect ratio of any operating stellarator device (>4.4). Its design is influenced by the small Spanish stellarator UST-1. [5]
History
In 2010, SCR-1 was originally proposed to be much bigger in size (major radius of 460.33 mm, plasma radius of 42.2 mm) and scale (aspect ratio of 5.7, magnetic field of 0.0878 Tesla), and was expected to complete in 2011. [5]
However, the development of SCR-1 took five years (between 2011 and 2015) to complete. [6]
References
- ^ Mora, J.; Vargas, V. I.; Otarola, C.; Piedra, C.; Jimenez, W.; Esquivel, L.; Esquivel, R.; Sanchez, K.; Gonzalez, J. (2015). "Engineering of the Stellarator of Costa Rica: SCR-1". Journal of Physics: Conference Series. 591 (1): 012017. Bibcode: 2015JPhCS.591a2017M. doi: 10.1088/1742-6596/591/1/012017. hdl: 2238/7213. ISSN 1742-6596.
- ^ Vargas, V.I.; Mora, J.; Otarola, C.; Zamora, E.; Asenjo, J.; Mora, A.; Villalobos, E. (2015-05-31). "Implementation of stellarator of Costa Rica 1 SCR-1". 2015 IEEE 26th Symposium on Fusion Engineering (SOFE). IEEE. pp. 1–6. doi: 10.1109/sofe.2015.7482321. hdl: 2238/9819. ISBN 9781479982646. S2CID 24317018.
- ^ "SCR-1 stellarator in Costa Rica produces its first plasma". www.ipp.mpg.de. Retrieved 2018-08-03.
- ^ "Costa Rica makes nuclear fusion history with plasma discharge". The Tico Times Costa Rica. Retrieved 2018-08-03.
- ^ a b Barillas, L.; Vargas, V. I.; Alpizar, A.; Asenjo, J.; Carranza, J. M.; Cerdas, F.; Gutiérrez, R.; Monge, J. I.; Mora, J. (2014). "SCR-1: Design and Construction of a Small Modular Stellarator for Magnetic Confinement of Plasma". Journal of Physics: Conference Series. 511 (1): 012037. Bibcode: 2014JPhCS.511a2037B. doi: 10.1088/1742-6596/511/1/012037. ISSN 1742-6596.
- ^ "Stellarator". plasma.ietec.org. Archived from the original on 2018-04-30. Retrieved 2018-08-03.
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| Stellarator of Costa Rica 1 | |
|---|---|
|
SCR-1 vacuum vessel and coil structure | |
| Device type | Stellarator |
| Location | Cartago, Costa Rica |
| Affiliation | Costa Rica Institute of Technology |
| Technical specifications | |
| Major radius | 238.1
mm (device) 140 mm (plasma) |
| Minor radius | 100 mm (device) 42.2 mm (plasma) |
| Magnetic field | 0.0438 T (438 G) |
| Discharge duration | 3 ms |
| Plasma current | 40 kA |
| History | |
| Year(s) of operation | 2016–present |
The Stellarator of Costa Rica 1 (or SCR-1) is a small modular stellarator for the magnetic confinement of plasma located at Cartago, Costa Rica. It is developed by the plasmaTEC group of the Plasma Laboratory for Fusion Energy and Applications at Costa Rica Institute of Technology. [1] [2] It began operation as Latin America's first stellarator on 29 June 2016. [3] [4]
SCR-1 is of a compact design and has the distinction of having the smallest aspect ratio of any operating stellarator device (>4.4). Its design is influenced by the small Spanish stellarator UST-1. [5]
History
In 2010, SCR-1 was originally proposed to be much bigger in size (major radius of 460.33 mm, plasma radius of 42.2 mm) and scale (aspect ratio of 5.7, magnetic field of 0.0878 Tesla), and was expected to complete in 2011. [5]
However, the development of SCR-1 took five years (between 2011 and 2015) to complete. [6]
References
- ^ Mora, J.; Vargas, V. I.; Otarola, C.; Piedra, C.; Jimenez, W.; Esquivel, L.; Esquivel, R.; Sanchez, K.; Gonzalez, J. (2015). "Engineering of the Stellarator of Costa Rica: SCR-1". Journal of Physics: Conference Series. 591 (1): 012017. Bibcode: 2015JPhCS.591a2017M. doi: 10.1088/1742-6596/591/1/012017. hdl: 2238/7213. ISSN 1742-6596.
- ^ Vargas, V.I.; Mora, J.; Otarola, C.; Zamora, E.; Asenjo, J.; Mora, A.; Villalobos, E. (2015-05-31). "Implementation of stellarator of Costa Rica 1 SCR-1". 2015 IEEE 26th Symposium on Fusion Engineering (SOFE). IEEE. pp. 1–6. doi: 10.1109/sofe.2015.7482321. hdl: 2238/9819. ISBN 9781479982646. S2CID 24317018.
- ^ "SCR-1 stellarator in Costa Rica produces its first plasma". www.ipp.mpg.de. Retrieved 2018-08-03.
- ^ "Costa Rica makes nuclear fusion history with plasma discharge". The Tico Times Costa Rica. Retrieved 2018-08-03.
- ^ a b Barillas, L.; Vargas, V. I.; Alpizar, A.; Asenjo, J.; Carranza, J. M.; Cerdas, F.; Gutiérrez, R.; Monge, J. I.; Mora, J. (2014). "SCR-1: Design and Construction of a Small Modular Stellarator for Magnetic Confinement of Plasma". Journal of Physics: Conference Series. 511 (1): 012037. Bibcode: 2014JPhCS.511a2037B. doi: 10.1088/1742-6596/511/1/012037. ISSN 1742-6596.
- ^ "Stellarator". plasma.ietec.org. Archived from the original on 2018-04-30. Retrieved 2018-08-03.
Fusion power, processes and devices | |||||||||||||||||||||||||||||||||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Core topics |
| ||||||||||||||||||||||||||||||||||||||||||||||||
| Processes, methods |
| ||||||||||||||||||||||||||||||||||||||||||||||||
|
Devices, experiments |
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