Divertor impurity seeding with a new feedback control scheme for maintaining good core confinement in grassy-ELM H-mode regime with tungsten monoblock divertor in EAST

• Published in: Nuclear fusion Vol. 60; no. 8; pp. 86001 - 86014
• Main Authors: Xu, G.S., Yuan, Q.P., Li, K.D., Wang, L., Xu, J.C., Yang, Q.Q., Duan, Y.M., Meng, L.Y., Yang, Z.S., Ding, F., Liu, J.B., Guo, H.Y., Wang, H.Q., Eldon, D., Tao, Y.Q., Wu, K., Yan, N., Ding, R., Wang, Y.F., Ye, Y., Zhang, L., Zhang, T., Zang, Q., Li, Y.Y., Liu, H.Q., Jia, G.Z., Liu, X.J., Si, H., Li, E.Z., Zeng, L., Qian, J.P., Lin, S.Y., Xu, L.Q., Wang, H.H., Gong, X.Z., Wan, B.N.
• Format: Journal Article
• Language: English
• Published: IOP Publishing 01.08.2020
• Subjects: divertor impurity seeding; grassy-ELM H-mode regime; partial detachment; radiative divertor feedback control; tokamak
• ISSN: 0029-5515; 1741-4326
• DOI: 10.1088/1741-4326/ab91fa

Small perturbations and strong impurity exhaust capability associated with the small grassy ELMs render the grassy-ELM regime a suitable candidate for achieving steady-state H-mode operation with a radiative divertor, especially in a metal-wall device, such as the Experimental Advanced Superconducting Tokamak (EAST). As the degradation of pedestal performance with excessive divertor impurity seeding or accumulation tends to be accompanied with significantly increased radiation near the divertor X point, feedback control of the absolute extreme ultraviolet (AXUV) radiation near the X point has been employed to maintain the confinement property in EAST. However, the absolute value of the AXUV radiation at the outer target varies with plasma conditions as during the divertor detachment process. Thus, a new feedback-control scheme has been recently developed and applied to grassy-ELM H-mode plasmas in EAST to achieve stationary partial detachment while maintaining good global energy confinement with H98,y2 >1. In this scheme, electron temperatures (Tet) measured by divertor Langmuir probes are used to identify the onset of detachment, and then the plasma control system (PCS) switches to the feedback control of one channel of AXUV radiation near the X point, where a steep gradient in the radiation profile is present. The feedback is performed through pulse-width-modulated duty cycle of a piezo valve to seed impurities with mixed gas (50% Ne and 50% D2) from the outer target plate near the strike point in the upper tungsten monoblock divertor. Tet near the strike point is maintained in the range of 5-8 eV, and peak surface temperature on the outer target plate (TIR,peak) is suppressed and maintained at ∼180 °C, based on infrared camera measurements. The plasma stored energy maintains nearly constant over the entire feedback-control period. It thus offers a highly promising plasma control scenario suitable for long-pulse high-performance H-mode operation in EAST, which is potentially applicable to future steady-state fusion reactors as an integrated solution for the control of both ELM-induced transient and steady-state divertor heat loads while maintaining good core confinement.