Peter Savrukhin scite author profile

Peter Savrukhin

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10Citation Statements Received

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JET results with the new pumped divertor and implications for ITER

Adams¹,

Ageladarakis²,

Alper³

et al. 1995

Plasma Phys. Control. Fusion

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This paperpresents an overview of results of the 1994/95 experimental campaign on JET with the new pumped divertor and draws implications for ITERin the areas of detached and radiative divertorplasmas, theuseofberyllium as a divertor target tile malerial, the confmement properties of discharges with the same dimensionless parameters (exceptforthedimensionless Larmorradius) as lT!3R and the effect of varying the toroidal magnetic field ripple in the FTER relevant range.Discbarges withhigh fusionpe~ormance athighcurrentjn steadystate with ELMS and in the ELM-free hot -ion H-mode, are also reported. Limits to operations are discussed and projections to D-T performance are made.

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First results with the modified JET

Adams¹,

Agarici²,

Ageladarakis³

et al. 1994

Plasma Phys. Control. Fusion

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JET was extensively modified in the 1992/93 shutdown. The new pumped divertor and many new systems were brought into operation early in 1994. Operations have progressed to 4 MA plasma current and, with substantial additional heating, H-mode confinement results confirm the expected scaling. The high power handling capability of the pumped divertor with sweeping is estimated at 20 MW for 20 s. H-mode plasmas have large Type I ELMs. With lower hybrid heating alone, 2 MA full current drive has been achieved with good efficiency, and with ICRF power, effective heating and direct electron heating have been demonstrated.

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Restoration of the Plasma Stability During Density Limit Disruption in T-10 Tokamak Using Ecrh and Ohmic Power Suply Systems

Savrukhin¹,

Шестаков²,

Borshegovskij³

et al. 2017

PAST-TF

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Эксперименты на токамаке T-10 продемонстрировали возможность восстановления устойчивых режимов разряда и предотвращения формирования пучков ускоренных электронов (E  ~ 150 кэВ) после теплового коллапса в срыве при высокой плотности с использованием СВЧ-нагрева и программируемой работы системы омического поддержания тока. Плазменный разряд может быть восстановлен после теплового коллапса при достаточно высокой мощности дополнительного нагрева плазмы P EC /P OH > 2-5 и при кратковременном использовании повышенной мощности системы электропитания (P ps > 10-20 P OH). Восстановление разряда сопровождается стабилизацией вспышек магнитогидродинамических (МГД) мод и предотвращением развития пучков надтепловых электронов. Численное моделирование показало, что подавление надтепловых электронов в этих условиях может быть связано с устранением повышенных электрических полей, индуцированных при перезамыкании магнитных силовых линий, и с уменьшением «равновесного» электрического поля за счёт увеличения температуры плазмы при дополнительном нагреве. Обсуждается возможность безопасного гашения плазменного разряда после срыва энергии в токамакереакторе с использованием дополнительного нагрева и управляемого снижения тока плазмы. Ключевые слова: токамак Т-10, срыв плазмы, убегающие электроны.

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Peter Savrukhin

JET results with the new pumped divertor and implications for ITER

First results with the modified JET

Restoration of the Plasma Stability During Density Limit Disruption in T-10 Tokamak Using Ecrh and Ohmic Power Suply Systems

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