Miniproposals

Miniproposal: Date Filed: Title: First Author: Session Leader: Ian Hutchinson (shots 1-10)

Miniproposal: 113 Date Filed: 4/13/1995 Title: Impurity Puffing to Induce the Detached Divertor Condition in First Author: Steve Golovato Session Leader: Bruce Lipschultz (shots 11-34)

Engineering Operator Run Comment

goetz

Session Leader Plans

Physics Operators Plans

Session Leader Summaries

Entered: Jul 7 2004 03:49:15:150PM

Author: To Be Determined

Run # 960209 Engineering Operator:V. Bertolino Physics Operator: J. Goetz Session leaders: B. Lipschultz/I. Hutchinson The aim of today's run is to achieve dissipative divertor operation in H-mode RF-heated plasmas. Over the past month we have gotten very good central confinement results with RF-heating. At the same time the divertor radiation has been low with respect to the power flowing into the SOL. Typically P rad_div ~ .6 MW while P_SOL ~ 2 MW or greater. We are investigating ways to increase the divertor radiation. The specific goal today was to increase the divertor radiation initially by D2 puffing in the divertor. We then tried neon puffing at B_side_lower in addition to the D2 puff in the divertor. The major results of this initial experiment are: 1) We were successful in puffing large amounts of neon (100 V pulse for .12 s at 4PSIA) without disrupting the plasma. This is in contrast to our previous attempts at neon injection into an UNBORONIZED machine. However, 2) the divertor radiation was NOT increased with D_2 or with neon puffing. 3) Partial detachment may have been observed after neon puffing, but not at the strike point. The SOL region from ~3 mm to ~5 mm shows a pressure loss of only about a factor of two on shot 027, the shot with most neon. 4) The puffed neon created a "radiating mantle", thus decreasing the power flowing across the LCFS. The neon "radiating mantle" is documented by noting that the main plasma edge radation increased by a factor of ~2. The main plasma radiation profile also broadened with the neon puff. 5) Other evidence supporting the observations that neon is mostly radiating inside the LCFS comes from the ratio of Li-like lines measured in the X-pt region and the same lines measured along a midplane chord. For neon the ratio is 3. This is in contrast to Li-like oxygen which had a ratio (Xpt-to-midplane) of 8 to 30 (measured in a different run). This difference is probably a result of the fact that Li-like O exists at a T_e which is ~50 eV lower than Li-like Ne. 6) The quality of the H-mode did not seem to have been affected by the neon puff. The evidence is from shot 18 (no neon) where W_efit was 110 kJ at 0.93 s. On the shot with the maximum neon (shot 27), the stored energy at 0.93 s was also 110 kJ. The H-factor for both of these shots was not large at this time in any case, hence if the no-neon H-mode had been better, it is unknown whether the neon would have changed things. Detailed shot by shot account: Shots 1-10: tests because of problems with the hybrid. TWF and Wolfe have fixed it. Shot 11: fiducial and H-mode all fine, proceed. shot #12: Just over 2 MW RF. H-mode. nl04=1.4 before RF going to 2.3. Stored energy -> 140 KJ. Strike point between probe 3&4. Divertor density near 1e21 and Te 10 eV and lower. Very good start to begin from! shot #13: Rf tripped. We lost this shot. shot #14: RF back, H-mode with stored energy -> 120 kJ. Repeat with FSP shot #15: FSP scans just fine. Huge Mo injection at .7 seconds but the plasma recovers. The H_alpha does its usual drop after H-mode starts but after 20 ms is back up to its usual value - the 'H-alpha bump'. Next shot we will add the NINJA puff of D2 at .6 seconds (trigger) for .3 seconds. The plenum fill is 414 torr. The stored energy increase is again not very significant. shot #16: Better stored energy (150 kJ) but still had an enormous Mo injection. FSP scan ok. We got 14.21 torr pulsed. No density rise due to pulse in the core but the divertor pressure rises (45-70 mTorr) and the divertor Isats appear to rise. Density on probes 3 & 4 over 1e21 and Te lt 10 eV. Looks good. Move the gas earlier and try again. shot #17: magnet resistance problem. no plasma (or TF). shot #18: Problems with the RF. We got 100 mTorr in the divertor although the midplane pressure rises as well. nl04 still rises to 1.4. We are pulsing through the 4 toroidal valves located at the floor ->> B-K30-012. This shot the amount pulsed was 23 torr with 570 torr fill in plenum. Next shot lower the fill to and add 2 more valves in the outer divertor -> A31-038, B31-038 which should be near the strike point. shot #19: no shot, another power supply problem shot #20: power supply problem again - good gage calibration data. shot #21: back from power supply problems. Plasma drops out of H-mode during notch in RF power. This may be caused by the Mo injection which is simultaneous with the notch in the RF. The stored energy is pretty poor. The delta pressure in the Ninja plenum was 20 torr. Next shot go back to the 4 floor puffing locations for D2 (same pressure) but we will add Ne through B-side lower (4 PSi fill) starting at .8 seconds. shot #22: disruption at .7 seconds before Ne goes in (.8 sec)? shot #23: Neon arrives at .85 seconds and appears to have an effect on the divertor - Te down to about 6 eV. No detachment. Next shot make the Ne earlier and longer (20 - 40 ms). shot #24: The Ne pulse length doubled and the amount into the plasma doubled according to the McP from 3 to 7 x 10^14 brightness (this is viewing the x-point!). The Isat peak has been dropping but the Te and ne in the divertor has not. shot #25: Ne brightness from the McP doubled again to 13 e14. Core radiated power still climbing and stored energy about the same. shot #26: Core radiated power now significant. P_sol drops about 0.5MW to 1.6mW, during the second RF phase. Ne brightness 18e14. Looks as if probe 3 detaches at about 0.93s. shot #27: Disruption at 1.16s, in ramp down. H-mode starts to dither. P_sol still 1.6MW. Neon 35e14. Probe 3 detaches at 0.9s. shot #28: ELM free after notch (during Neon puff). P_sol ramps down to 1MW at 1s. Neon brightness 19e14. Probe 3 detaches at about .95s. Disruption at 1.24s. shot #29: RF Notch removed. ELM-free/Small elms phase starts at .83s anyway. P_sol ramps down to 1.4MW. Not clearly detached. Perhaps we are seeing elms because the probe-3 temperature is bouncing around. Neon 22e14. shot #30: Extra D2 reduced the elm amplitude in the lower Dalphs phase. P_sol ramps down to 1.2MW. Probe 3 detaches at 0.93 s. Neon 19e14. shot #31: Disrupts at 0.8s. Mo brick. shot #32: Similar to 30. Neon 21e14. Probe 3 looks more elmy than 30. shot #33: Clearer detachment of probe 3 at .83s. An elmy episode at about 0.93s show as a rise on probe 3 Te. shot #34: Long RF notch off allows return to L-mode. When H-mode returns as the second transmitter comes backon, Probe 3 pressure jumps for a while but then detaches at .95s.

Physics Operator Summaries

Entered: Jul 7 2004 04:36:56:083PM

Author: To Be Determined

Physics operator summary for 960209 EO: Bertolino / Daigle / Silva PO: Goetz SL: Lipschultz / Hutchinson Run 960209 was in support of Mini-Proposal #113 - Impurity Puffing to Induce the Detached Divertor Condition in High Power RF Heated Discharges. The goals of this Mini-Proposal are (1) to determine the amount and type of puffed impurities required for divertor detachment at high RF powers and (2) to survey the conditions under which H-modes and divertor detachment exist to see if they can be made compatible. Plan: fiducial setup plasma with high SOL power - preferably ELMy H-mode puff deuterium through the floor tiles to try and detach the divertor if successful then characterize the SOL and divertor with the FSP, McPherson, and Chromex if not successful then puff neon, argon, and nitrogen through B_SIDE until the divertor detaches, then characterize the FSP, McPherson, and Chromex. puff neon, argon, and nitrogen through the floor tiles to try and detach the divertor. Characterize the SOL and divertor plasmas with the FSP, McPherson, and Chromex. if a completely detached H-mode (CDH) is achieved, attempt to optimize The plan was not carried out completely as this was the first run of a scheduled three-parter. Only the neon sections was done. See the Session Leader's report for a detailed discussion of the physics results. Some things discovered today: 1) All attempts that had fields had plasma. 2) Very fast current rises today. Most shots had 0.1MA / .02sec. These rises caused wiggles in the current at segment switch or shortly thereafter. 3) Two discharges were terminated early from molybdenum injections. As increasing amounts of neon were puffed in, the discharges disrupted earlier in the ramp down. Discharges without neon puffing ran to completion. Engineering, computing, and diagnostics today: Run started at 1100 hrs today due to a bad cable in the hybrid computer. Shots 001 - 010 were test shots for diagnosing the problem. Duds caused by a magnet resistance fault, a EF1L IOC fault, and a EF4 IOC fault. No DAQ problems today and no diagnostics troubles. Scorecard: 34 shots = 21 plasmas + 0 fizzles + 10 tests + 3 duds Shot summary for Run 960209: Load 960125025 Shorten waveforms to 1.1sec IP = -1000000 NL04 = 1.5e20 and PG3 = 40V coldstart hybrid - all matrices respond Shot change result ____ _____ ______ 1 - 10 test of hybrid determined problem with hybrid 11 load 960202040 for fiducial acceptable fiducial; load database 12 see above plasma - all the way down; nl04=1.5e20 at H-mode; FSP target moving slightly 13 ZXL=-.007 @ 0.8s (-.01 @ 0.6 plasma - disr. @ 1.52; no RF power; and 1.1sec) FSP target acceptable 14 no changes plasma - all the way down; very good FSP target; nl04=1.5e20 at H-mode 15 no changes plasma - all the way down; 3 FSP shots 16 NL04=1.4e20; puff D in B30-012, plasma - all the way down; 3 FSP scans D30-012, H30-012, and K30-012 from 0.6 to 0.9sec with 412Torr 17 move puff to 0.5sec; Pdiv=563T dud - magnet resistance fault 18 try again plasma - disr. @ 1.52; FSP target not acceptable at 1.05sec 19 ZXL=-.012sec @ 1.1; NL04=1.3e20;dud - PF breaker pulled before the shot LOWER_DIVERTOR=425Torr; enable B31-038 and A31-038, enable B_SIDE_LOWER 20 try again dud - PF breaker pulled before the shot 21 try again plasma - disr. @ 1.36; deuterium puffing alone won't detach this H-mode 22 4 PSIA of Ne in B_SIDE; PG1 plasma - disr. @ 0.72; Mo inj. @ 0.70 = (100V x .02sec) @ 0.8sec; only four floor valves 23 no changes plasma - all the way down; possible detachment away from the strike point 24 move neon puff to 0.75 and plasma - disr. @ 1.32; Jsat dropping lengthen to .04sec; NL04=1.2e20 25 neon puff @ 0.8sec and .06sec plasma - disr. @ 1.28; 26 neon puff for 0.09sec plasma - disr. @ 1.23; Psol=2MW finally detached 27 neon puff for 0.12sec plasma - disr. @ 1.15; Psol=1.5MW detaches @ .89sec 28 neon puff @ 0.7sec for .09sec plasma - disr. @ 1.25; Psol=1.MW; detaches @ 0.95 29 remove RF notch; prefill puff plasma - disr. @ 1.23; maybe a ELMy 13msec; div. puff @ 0.4sec CDH but difficult to diagnose 30 add A31-038 and B31-038 to plasma - disr. @ 1.22; detached H-mode divertor puff for a total of 6 @ 0.82 31 prefill puff = 15msec; LOWER_ plasma - disr. @ 0.80; injection @ 0.78 DIVERTOR=585Torr 32 LOWER_DIVERTOR=270Torr plasma - disr. @ 1.25; detaches @ 0.82 33 no changes plasma - disr. @ 1.25; detaches @ 0.82 nice repeat 34 LOWER_DIVERTOR=410Torr (6 plasma - disr. @ 1.22; detaches @ 0.82 valves); prefill puff=16msec; RF notch knocks it out of H-mode RF notch back in

Session Leader Comments
Feb 9 1996 10:51:04:460AM		Bruce Lipschultz	Run # 960209 Engineering Operator: V. Bertolino Physics Operator J. Goetz Session leader B. Lipschultz The aim of today's run is to achieve dissipative divertor operation with H-mode RF-heated plasmas. Over the past month we have gotten very good central confinement results with RF-heating. At the same time the divertor radiation has been low with respect to the power flowing into the SOL. Typically Prda+div ~ .6 MW while P_SOL ~ 2 MW or greater. We would like to increase the divertor radiation. The specific goal today os to increase the divertor radiation through use first of D2 puffing in the divertor. We will then try Neon puffingat various locations. The third gas on the agenda is Ar. Assuming that we succeed with a given gas we will take a wavelength scan with the McP looking at the x-point and then a quick look at the main plasma to determine participating species (in radiation).
Feb 9 1996 10:52:26:130AM	960209011	Bruce Lipschultz	shot #11: fiducial H-mode all fine.
Feb 9 1996 11:20:06:330AM	960209012	Bruce Lipschultz	shot #12: Just over 2 MW RF. H-mode. nl04=1.4 before RF going to 2.3. Stored energy -> 140 MJ. Strike point between probe 3&4. Divertor density near 1e21 and Te 10 eV and lower. Very good start to begin from!
Feb 9 1996 11:30:26:550AM	960209013	Bruce Lipschultz	shot #13: RF didn't go, lost this shot.
Feb 9 1996 11:51:19:630AM	960209014	Bruce Lipschultz	shot #14: RF back, H-mode with stored energy -> 120 kJ. Repeat with FSP
Feb 9 1996 12:05:41:610PM	960209015	Bruce Lipschultz	shot #15: FSP scans just fine. Huge Mo injection at .7 seconds but the plasma recovers. The H_alpha does its usual drop after H-mode starts but after 20 ms is back up to its usual value - the 'H-alpha bump'. Next shot we will add the NINJA puff of D2 at .6 seconds (trigger) for .3 seconds. The plenum fill is 414 torr. The stored energy increase is again not very significant.
Feb 9 1996 12:21:22:830PM	960209016	Bruce Lipschultz	shot #16: Better stored energy (150 kJ) but still had an enormous Mo injection. FSP scan ok. We got 14.21 torr pulsed. No density rise due to pulse in the core but the divertor pressure rises (45-70 mTorr) and the divertor Isats appear to rise. Density on probes 3 & 4 over 1e21 and Te lt 10 eV. Looks good. Move the gas earlier and try again.
Feb 9 1996 12:22:29:990PM	960209017	Bruce Lipschultz	shot #17: magnet resistance problem. no plasma
Feb 9 1996 12:53:28:310PM	960209019	Bruce Lipschultz	shot #19: no shot, another power supply problem
Feb 9 1996 02:05:23:550PM	960209022	Bruce Lipschultz	shot #22: disruption at .7 seconds before Ne goes in (.8 sec)?
Feb 9 1996 02:11:37:940PM	960209023	Bruce Lipschultz	shot #23: Neon arrives at .85 seconds and appears to have an effect on the divertor - Te down to about 6 eV. No detachment. Next shot make the Ne earlier and longer (20 - 40 ms).
Feb 9 1996 02:28:41:250PM	960209024	Bruce Lipschultz	shot #24: The Ne pulse length doubled and the amount into the plasma doubled according to the McP from 3 to 7 x 10^14 brightness (this is viewing the x-point!). The Isat peak has been dropping but the Te and ne in the divertor has not.
Feb 9 1996 02:40:00:050PM	960209025	Bruce Lipschultz	shot #25: Ne brightness from the McP doubled again to 13 e14. Core radiated power still climbing and stored energy about the same.

Physics Operator Comments
Feb 9 1996 10:32:57:790AM		John Goetz	Run 960209 was in support of Mini-Proposal #113 - Impurity Puffing to Induce the Detached Divertor Condition in High Power RF Heated Discharges. The goals of this Mini-Proposal are (1) to determine the amount and type of puffed impurities required for divertor detachment at high RF powers and (2) to survey the conditions under which H-modes and divertor detachment exist to see if they can be made compatible. Plan: fiducial setup plasma with high SOL power - preferably ELMy H-mode puff deuterium through the floor tiles to try and detach the divertor if successful then characterize the SOL and divertor with the FSP, McPherson, and Chromex if not successful then puff neon, argon, and nitrogen through B_SIDE until the divertor detaches, then characterize the FSP, McPherson, and Chromex. puff neon, argon, and nitrogen through the floor tiles to try and detach the divertor. Characterize the SOL and divertor plasmas with the FSP, McPherson, and Chromex. if a completely detached H-mode (CDH) is achieved, attempt to optimize
Feb 9 1996 10:34:00:030AM		John Goetz	Run 960209: The first ten shots (960209001 - 960209010) were used to diagnose a problem with cabling in the hybrid computer.
Feb 9 1996 10:51:08:360AM	960209011	John Goetz	Shot 960209011: Load 960202040 for a fiducial Results: acceptable fiducial clean ohmic phase some ELMfree H-mode
Feb 9 1996 11:22:35:590AM	960209012	John Goetz	Shot 960209012: Load 960125025 Shorten waveforms to 1.1sec IP = -1000000 NL04 = 1.5e20 and PG3 = 40V Results: plasma - all the way down nl04 = 1.5e20 at H-mode transition FSP target moving slightly - drifting down until 0.8sec then back up
Feb 9 1996 11:35:35:110AM	960209013	John Goetz	Shot 960209013: ZXL = -.007 @ 0.8sec; -.010 @ 0.6sec and 1.1sec Results: Plasma - disrupts @ 1.52 - big 'shark-fin' no RF pulse FSP target acceptable
Feb 9 1996 11:49:49:710AM	960209014	John Goetz	Shot 960209014: no changes Results: plasma - all the way down H-mode from 0.62 to 1.22 very good FSP target
Feb 9 1996 12:06:46:280PM	960209015	John Goetz	Shot 960209015: no changes Results: plasma - all the way down large Mo injection @ 0.7sec nl04 = 1.5e20 at RF turn-on 3 FSP scans
Feb 9 1996 12:18:24:540PM	960209016	John Goetz	Shot 960209016: NL04 = 1.4e20 enable B30-012, D30-012, H30-012, and K30-012 from 0.6 to 0.9sec with 412 Torr of deuterium Results: Plasma - all the way down large Mo injection @ 0.86 3 successful FSP scans
Feb 9 1996 12:32:04:220PM	960209017	John Goetz	Shot 960209017: move puff to 0.5sec and increase pressure in LOWER_DIVERTOR to 563 Torr Results: dud - magnet resistance fault
Feb 9 1996 12:39:27:930PM	960209018	John Goetz	Shot 960209018: move puff to 0.5sec and increase pressure in LOWER_DIVERTOR to 563 Torr Results: plasma - disrupts @ 1.52sec FSP target too high @ 1.05sec RF doesn't stay at full power
Feb 9 1996 12:54:13:590PM	960209019	John Goetz	Shot 960209019: NL04 = 1.3e20 ZXL = -.012 at 1.1sec LOWER_DIVERTOR = 425 Torr enable A31-038 and B31-038 in addition enable B_SIDE_LOWER Results: dud - EF1L IOC fault pulled the PF breaker before the shot
Feb 9 1996 01:07:18:980PM	960209020	John Goetz	Shot 960209020: NL04 = 1.3e20 ZXL = -.012 at 1.1sec LOWER_DIVERTOR = 425 Torr enable A31-038 and B31-038 in addition enable B_SIDE_LOWER Results: EF4 IOC fault pulled the PF breaker before the shot
Feb 9 1996 01:53:37:530PM	960209021	John Goetz	Shot 960209021: NL04 = 1.3e20 ZXL = -.012 at 1.1sec LOWER_DIVERTOR = 425 Torr enable A31-038 and B31-038 in addition enable B_SIDE_LOWER Results: plasma - disrupts @ 1.36 deuterium puffing alone won't detach this H-mode plasma
Feb 9 1996 01:55:12:090PM	960209022	John Goetz	Shot 960209022: 4 PSIA of neon in B_SIDE_LOWER (100V X .02sec) pulse @ 0.8sec on PG1 and enable B_SIDE_LOWER only four floor valves puffed in the divertor Results: plasma - disrupts @ 0.72 molybdenum injection beginning @ 0.70sec
Feb 9 1996 02:10:11:640PM	960209023	John Goetz	Shot 960209023: no changes Results: plasma - all the way down molybdenum injection @ 0.87sec possible detachment away from the strike point
Feb 9 1996 02:24:57:030PM	960209024	John Goetz	Shot 960209024: move neon puff to 0.75sec and lengthen pulse to 0.04sec NL04 = 1.2e20 Results: plasma - disrupts @ 1.32sec beginning to see signs of detachment in the divertor
Feb 9 1996 02:41:36:070PM	960209025	John Goetz	Shot 960209025: move neon puff to 0.8sec and lengthen pulse to 0.06sec Results: plasma - disrupts @ 1.28 neon is affecting the core
Feb 9 1996 03:01:39:760PM	960209026	John Goetz	Shot 960209026: lengthen neon pulse to 0.09sec Results: plasma - disrupts @ 1.23sec SOL power = 2MW; finally beginning to fall detaches after 1.0sec; probes, bolometers, etc.
Feb 9 1996 03:18:34:620PM	960209027	John Goetz	Shot 960209027: lengthen neon pulse to 0.12sec Results: plasma - disrupts @ 1.15 current rise: 0.1MA / .02sec SOL power = 1.5MW divertor detaches at 0.89sec
Feb 9 1996 03:36:47:480PM	960209028	John Goetz	Shot 960209028: move neon puff to 0.7sec and shorten pulse to 0.09sec prefill puff = 12msec Results: plasma - disrupts @ 1.25 SOL power falls to 1MW by the end ELM-free H-mode after the RF notch divertor detachment @ 0.95sec
Feb 9 1996 03:54:04:750PM	960209029	John Goetz	Shot 960209029: move divertor puff to 0.4sec prefill puff = 13msec remove RF notch and fire FSP only twice Results: plasma - disrupts @ 1.23 Zeff goes from 1.5 to 2.2 due the neon and other accumulating impurities possible detachment @ 0.85, but ELM's make the divertor difficult to diagnose
Feb 9 1996 04:14:40:590PM	960209030	John Goetz	Shot 960209030: IP = -550000 at segment switch add A31-038 and B31-038 to the divertor puff for a total of six valves Results: plasma - disrupts @ 1.22 detached H-mode @ 0.82sec; ELMs seem to be more ragged with the extra gas
Feb 9 1996 04:20:21:940PM	960209031	John Goetz	Shot 960209031: prefill puff = 15msec LOWER_DIVERTOR = 585Torr Results: plasma - disrupts @ 0.80sec injection @ 0.78sec
Feb 9 1996 04:33:44:430PM	960209032	John Goetz	Shot 960209032: LOWER_DIVERTOR = 270Torr Results: plasma - disrupts @ 1.25 detaches @ 0.82
Feb 9 1996 04:55:01:300PM	960209033	John Goetz	Shot 960209033: no changes McPherson to midplane Results: plasma - disrupts @ 1.25 detaches @ 0.82 only one ELM burst that makes it through to the divertor
Feb 9 1996 05:52:05:180PM	960209034	John Goetz	Shot 960209034: put RF notch back in LOWER_DIVERTOR = 410Torr prefill puff = 16msec Results: plasma - disrupts @ 1.22 detaches @ 0.82 RF notch knocks the plasma out of H-mode

Engineering Operator Comments
Shot	Time	Type	Status	Comment
1	07:42:13:600AM	Test	Ok	hybrid test
2	08:02:51:610AM	Test	Ok
3	08:18:28:350AM	Test	Ok
4	08:44:07:540AM	Test	Ok
5	09:05:41:020AM	Test	Ok
6	09:19:41:770AM	Test	Ok
7	09:32:01:080AM	Test	Ok
8	09:59:11:330AM	Test	Ok
9	10:05:15:210AM	Test	Ok
10	10:11:44:620AM	Test	Ok
11	10:45:55:900AM	Plasma	Ok
12	11:04:33:960AM	Plasma	Ok
13	11:21:32:080AM	Plasma	Ok
14	11:38:49:750AM	Plasma	Ok
15	11:50:34:880AM	Plasma	Ok
16	12:06:17:700PM	Plasma	Ok
17	12:19:12:250PM	Plasma	Bad	mag resist fault in pulse
18	12:26:26:400PM	Plasma	Ok
19	12:45:11:950PM	Plasma	Ok
20	01:03:38:910PM	Plasma	Bad	EF4 IOC
21	01:21:49:920PM	Plasma	Ok
22	01:41:59:490PM	Plasma	Ok
23	01:54:04:950PM	Plasma	Ok
24	02:10:51:350PM	Plasma	Ok
25	02:25:04:100PM	Plasma	Ok
26	02:41:15:770PM	Plasma	Ok
27	03:01:52:980PM	Plasma	Ok
28	03:19:24:000PM	Plasma	Ok
29	03:36:58:000PM	Plasma	Ok
30	03:53:43:600PM	Plasma	Ok
31	04:10:14:230PM	Plasma	Ok
32	04:21:26:030PM	Plasma	Ok
33	04:34:13:540PM	Plasma	Ok
34	04:51:36:550PM	Plasma	Ok