J. Mishra, P. Panchal, S. Mukherjee, Vishal Gupta, H. Agravat, P. Nayak, R. Gangradey
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引用次数: 0
摘要
等离子体加注和中断缓解(DM)是高温聚变装置成功运行的两个关键方面。不同气体的颗粒,如氢、其同位素、氖和氩,在低温下凝固,用于燃料和DM研究。研制了一种基于气枪的球团喷射器,用于大粒径球团的形成和破碎研究。为了取代传统的快速阀式喷射机构,开发并试验了一种新型的机械弹丸发射系统(MPL)。MPL是一种快速阀驱动气动冲床。与传统技术相比,使用它的优点是,可以在较低的推进剂压力下实现所需的冲量。在应用于低温球团之前,MPL在试验台上进行了4 MPa压力下的试验,在0.2 ~ 4 MPa压力下实现了2 ~ 12 m / s的冲孔速度。所研制的MPL已成功应用于6.2 mm l p × 4.2 mm d p圆柱形氢气球团。本文详细介绍了颗粒形成装置、MPL系统和实验结果。
Development of a Fast Valve Assisted Mechanical Launcher for Cryogenic Pellets
Plasma fueling and disruption mitigation (DM) are two of the many key aspects in the successful operation of high-temperature fusion devices. Pellets of di ff erent gases like hydrogen, its isotopes, neon, and argon solid-ified at cryogenic temperature are used for fuelling and DM studies. A gas gun-based pellet injector has been developed for the large-size pellet formation and shattering study. Instead of the conventional fast valve injection mechanism, a new technique called mechanical pellet launching system (MPL) has been developed and tested for pellet launching. The MPL is a fast valve-driven pneumatic punch. The advantage of using it over the conventional technique is, the required impulse to dislodge the pellet can be achieved at lower propellant pressure. Before applying to the cryogenic pellets, the MPL has been tested up to 4 MPa pressure on a test bench, and a punch speed of 2 - 12 m / s has been achieved for 0.2 - 4 MPa pressure. The developed MPL has been successfully applied on 6.2 mm l p × 4.2 mm d p cylindrical hydrogen pellets. Details of the pellet formation device, MPL system, and experimental results are presented in this paper.
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