LAMPIRAN A

Suhu air pada saat hidrolisa aquadest menjadi hidrogen murni tanggal 25 Mei 2012

Time Suhu Air(oC)

05/25/2012 11:11:15:305 27.92 05/25/2012 11:13:15:300 27.79 05/25/2012 11:15:15:335 27.76 05/25/2012 11:17:15:290 27.73 05/25/2012 11:19:15:328 27.76 05/25/2012 11:21:15:306 27.77 05/25/2012 11:23:15:330 28.46 05/25/2012 11:25:15:332 29.09 05/25/2012 11:27:15:322 29.39 05/25/2012 11:29:15:290 29.59 05/25/2012 11:31:15:298 29.92 05/25/2012 11:33:15:290 30.28 05/25/2012 11:35:15:305 30.51 05/25/2012 11:37:15:319 30.84 05/25/2012 11:39:15:320 31.19 05/25/2012 11:41:15:312 31.42 05/25/2012 11:43:15:328 31.60 05/25/2012 11:45:15:290 31.81 05/25/2012 11:47:15:324 32.02 05/25/2012 11:49:15:290 32.20 05/25/2012 11:51:15:337 32.41 05/25/2012 11:53:15:290 32.58 05/25/2012 11:55:15:320 32.70 05/25/2012 11:57:15:343 32.88 05/25/2012 11:59:15:339 33.05 05/25/2012 12:01:15:306 33.11 05/25/2012 12:03:15:337 33.29 05/25/2012 12:05:15:290 33.36 05/25/2012 12:07:15:311 33.49 05/25/2012 12:09:15:292 33.65 05/25/2012 12:11:15:334 33.81 05/25/2012 12:13:15:300 33.89 05/25/2012 12:15:15:346 33.89 05/25/2012 12:17:15:329 33.98 05/25/2012 12:19:15:348 34.11 05/25/2012 12:21:15:333 34.24 05/25/2012 12:23:15:301 34.41

05/25/2012 12:25:15:291 34.51 05/25/2012 12:27:15:341 34.53 05/25/2012 12:29:15:316 34.72 05/25/2012 12:31:15:340 34.81 05/25/2012 12:33:15:302 34.81 05/25/2012 12:35:15:322 34.96 05/25/2012 12:37:15:328 35.12 05/25/2012 12:39:15:322 35.15 05/25/2012 12:41:15:347 35.22 05/25/2012 12:43:15:297 35.26 05/25/2012 12:45:15:347 35.33 05/25/2012 12:47:15:343 35.50 05/25/2012 12:49:15:309 35.67 05/25/2012 12:51:15:323 35.48 05/25/2012 12:53:15:294 35.79 05/25/2012 12:55:15:334 36.24 05/25/2012 12:57:15:306 35.94 05/25/2012 12:59:15:290 35.70 05/25/2012 13:01:15:330 35.41 05/25/2012 13:03:15:302 35.24 05/25/2012 13:05:15:292 35.08 05/25/2012 13:07:15:323 35.02 05/25/2012 13:09:15:348 34.86 05/25/2012 13:11:15:318 34.76 05/25/2012 13:13:15:292 34.53 05/25/2012 13:15:15:338 34.57 05/25/2012 13:17:15:290 34.56 05/25/2012 13:19:15:290 34.48 05/25/2012 13:21:15:346 34.41 05/25/2012 13:23:15:327 34.39 05/25/2012 13:25:15:327 34.26 05/25/2012 13:27:15:323 34.25 05/25/2012 13:29:15:334 34.18 05/25/2012 13:31:15:311 34.07 05/25/2012 13:33:15:290 34.05 05/25/2012 13:35:15:329 34.00 05/25/2012 13:37:15:311 33.88 05/25/2012 13:39:15:334 33.62

LAMPIRAN B

Suhu hydrostick, stack inlet, dan stack outlet pengoperasian tanggal 26 Mei 2012 Time Hidrostik (oC) Inlet(oC) Outlet(oC) 05/26/2012 13:53:35:700 31.71 29.69 29.60 05/26/2012 13:54:05:685 28.42 29.48 29.42 05/26/2012 13:54:35:711 24.36 29.37 29.57 05/26/2012 13:55:05:687 21.84 29.51 29.63 05/26/2012 13:55:35:691 20.26 29.70 29.72 05/26/2012 13:56:05:720 19.37 29.87 30.01 05/26/2012 13:56:35:685 18.71 30.04 30.25 05/26/2012 13:57:05:685 18.35 30.23 30.48 05/26/2012 13:57:35:730 18.03 30.42 30.50 05/26/2012 13:58:05:724 17.82 30.58 30.70 05/26/2012 13:58:35:706 17.73 30.64 30.95 05/26/2012 13:59:05:685 17.83 30.67 31.02 05/26/2012 13:59:35:716 17.96 30.69 31.01 05/26/2012 14:00:05:698 18.12 30.70 31.16 05/26/2012 14:00:35:700 18.21 30.94 31.30 05/26/2012 14:01:05:696 18.46 30.89 31.32 05/26/2012 14:01:35:719 18.71 31.01 31.39 05/26/2012 14:02:05:711 18.61 31.22 31.46 05/26/2012 14:02:35:691 18.73 31.19 31.60 05/26/2012 14:03:05:685 18.99 31.17 31.66 05/26/2012 14:03:35:720 19.17 31.39 31.64 05/26/2012 14:04:05:689 19.47 31.35 31.66 05/26/2012 14:04:35:685 19.65 31.40 31.76 05/26/2012 14:05:05:685 19.80 31.59 31.92 05/26/2012 14:05:35:725 20.06 31.57 31.83 05/26/2012 14:06:05:728 20.20 31.71 31.95 05/26/2012 14:06:35:709 20.31 31.78 31.95 05/26/2012 14:07:05:685 20.53 31.67 31.91 05/26/2012 14:07:35:685 20.77 31.77 32.01 05/26/2012 14:08:05:719 21.25 31.54 31.76 05/26/2012 14:08:35:701 21.42 31.64 31.91 05/26/2012 14:09:05:721 21.74 31.69 32.04 05/26/2012 14:09:35:701 21.93 31.86 32.17 05/26/2012 14:10:05:695 22.11 31.80 32.20 05/26/2012 14:10:35:719 22.48 32.07 32.28 05/26/2012 14:11:05:695 22.83 32.16 32.39 05/26/2012 14:11:35:727 23.87 31.86 32.46 05/26/2012 14:12:05:704 23.67 31.98 32.42

LAMPIRAN C

Suhu air pada saat hidrolisa aquadest menjadi hidrogen murni tanggal 29 Mei 2012

Time Suhu Air (oC)

05/29/2012 14:14:43:062 32.72 05/29/2012 14:15:43:059 32.87 05/29/2012 14:16:43:100 32.83 05/29/2012 14:17:43:084 32.77 05/29/2012 14:18:43:067 32.73 05/29/2012 14:19:43:056 32.65 05/29/2012 14:20:43:094 32.72 05/29/2012 14:21:43:084 32.85 05/29/2012 14:22:43:080 32.80 05/29/2012 14:23:43:066 32.94 05/29/2012 14:24:43:078 33.09 05/29/2012 14:25:43:103 33.22 05/29/2012 14:26:43:089 33.30 05/29/2012 14:27:43:080 33.37 05/29/2012 14:28:43:084 33.45 05/29/2012 14:29:43:064 33.57 05/29/2012 14:30:43:055 33.67 05/29/2012 14:31:43:047 33.73 05/29/2012 14:32:43:104 33.80 05/29/2012 14:33:43:072 33.83 05/29/2012 14:34:43:055 33.91 05/29/2012 14:35:43:049 33.91 05/29/2012 14:36:43:054 34.05 05/29/2012 14:37:43:047 34.19 05/29/2012 14:38:43:047 34.22 05/29/2012 14:39:43:104 34.28 05/29/2012 14:40:43:088 34.34 05/29/2012 14:41:43:074 34.42 05/29/2012 14:42:43:066 34.45 05/29/2012 14:43:43:047 34.52 05/29/2012 14:44:43:101 34.58 05/29/2012 14:45:43:094 34.63 05/29/2012 14:46:43:086 34.58 05/29/2012 14:47:43:063 34.64 05/29/2012 14:48:43:103 34.78 05/29/2012 14:49:43:093 34.87 05/29/2012 14:50:43:085 34.88

05/29/2012 14:51:43:075 34.95 05/29/2012 14:52:43:064 34.97 05/29/2012 14:53:43:047 35.04 05/29/2012 14:54:43:101 35.07 05/29/2012 14:55:43:047 35.15 05/29/2012 14:56:43:088 35.18 05/29/2012 14:57:43:065 35.30 05/29/2012 14:58:43:058 35.35 05/29/2012 14:59:43:054 35.16 05/29/2012 15:00:43:062 35.16 05/29/2012 15:01:43:057 35.01 05/29/2012 15:02:43:060 35.02 05/29/2012 15:03:43:059 34.96 05/29/2012 15:04:43:047 34.89 05/29/2012 15:05:43:091 34.74 05/29/2012 15:06:43:060 34.80 05/29/2012 15:07:43:047 34.80

LAMPIRAN D

Suhu hydrostick, stack inlet, dan stack outlet pengoperasian tanggal 30 Mei 2012 Time hidrostik(oC) input(oC) output(oC) 05/30/2012 12:21:28:976 31.77 28.04 28.03 05/30/2012 12:22:28:974 25.33 28.30 28.19 05/30/2012 12:23:28:961 21.40 28.63 28.56 05/30/2012 12:24:28:960 21.14 29.03 28.97 05/30/2012 12:25:29:011 21.54 29.48 29.67 05/30/2012 12:26:28:991 21.06 30.14 30.20 05/30/2012 12:27:29:017 19.99 30.40 30.43 05/30/2012 12:28:29:010 19.77 30.58 30.78 05/30/2012 12:29:29:011 19.60 30.69 30.89 05/30/2012 12:30:29:009 19.70 30.80 31.06 05/30/2012 12:31:28:998 24.63 30.71 31.08 05/30/2012 12:32:28:988 27.55 30.75 31.07 05/30/2012 12:33:28:988 28.00 30.78 30.96

LAMPIRAN E

Suhu air pada saat hidrolisa aquadest menjadi hidrogen murni tanggal 30 Mei 2012

Time Suhu Air

05/30/2012 10:42:27:313 31.02 05/30/2012 10:43:27:314 31.00 05/30/2012 10:44:27:304 30.96 05/30/2012 10:45:27:348 30.91 05/30/2012 10:46:27:334 30.99 05/30/2012 10:47:27:318 31.10 05/30/2012 10:48:27:302 31.18 05/30/2012 10:49:27:340 31.26 05/30/2012 10:50:27:322 31.39 05/30/2012 10:51:27:317 31.53 05/30/2012 10:52:27:304 31.55 05/30/2012 10:53:27:344 31.36 05/30/2012 10:54:27:340 31.40 05/30/2012 10:55:27:324 31.44 05/30/2012 10:56:27:304 31.46 05/30/2012 10:57:27:297 31.53 05/30/2012 10:58:27:342 31.58 05/30/2012 10:59:27:316 31.59 05/30/2012 11:00:27:348 31.68 05/30/2012 11:01:27:323 31.77 05/30/2012 11:02:27:307 31.85 05/30/2012 11:03:27:297 31.82 05/30/2012 11:04:27:349 32.01 05/30/2012 11:05:27:348 32.03 05/30/2012 11:06:27:332 32.07 05/30/2012 11:07:27:318 32.11 05/30/2012 11:08:27:321 32.19 05/30/2012 11:09:27:309 32.28 05/30/2012 11:10:27:313 32.36 05/30/2012 11:11:27:297 32.52 05/30/2012 11:12:27:337 32.43 05/30/2012 11:13:27:321 32.49 05/30/2012 11:14:27:297 32.48 05/30/2012 11:15:27:342 32.43 05/30/2012 11:16:27:326 32.51 05/30/2012 11:17:27:313 32.56 05/30/2012 11:18:27:297 32.68

05/30/2012 11:19:27:349 32.74 05/30/2012 11:20:27:327 32.85 05/30/2012 11:21:27:319 32.85 05/30/2012 11:22:27:309 32.94 05/30/2012 11:23:27:299 32.98 05/30/2012 11:24:27:346 33.02 05/30/2012 11:25:27:339 33.13 05/30/2012 11:26:27:352 33.15 05/30/2012 11:27:27:341 33.17 05/30/2012 11:28:27:339 33.22 05/30/2012 11:29:27:327 33.21 05/30/2012 11:30:27:330 33.42 05/30/2012 11:31:27:319 33.34 05/30/2012 11:32:27:329 33.29 05/30/2012 11:33:27:327 33.42 05/30/2012 11:34:27:354 33.52 05/30/2012 11:35:27:346 33.51 05/30/2012 11:36:27:349 33.59 05/30/2012 11:37:27:335 33.64 05/30/2012 11:38:27:317 33.70 05/30/2012 11:39:27:305 33.69 05/30/2012 11:40:27:345 33.76 05/30/2012 11:41:27:351 33.86 05/30/2012 11:42:27:325 33.86 05/30/2012 11:43:27:314 34.02 05/30/2012 11:44:27:299 33.95 05/30/2012 11:45:27:297 33.99 05/30/2012 11:46:27:297 34.03 05/30/2012 11:47:27:327 34.07 05/30/2012 11:48:27:320 34.07 05/30/2012 11:49:27:305 34.13 05/30/2012 11:50:27:298 34.20 05/30/2012 11:51:27:335 34.23 05/30/2012 11:52:27:331 33.83 05/30/2012 11:53:27:311 34.07 05/30/2012 11:54:27:298 34.16 05/30/2012 11:55:27:347 34.18 05/30/2012 11:56:27:344 34.26 05/30/2012 11:57:27:330 34.23 05/30/2012 11:58:27:314 34.38 05/30/2012 11:59:27:312 34.44 05/30/2012 12:00:27:305 34.41 05/30/2012 12:01:27:346 34.36

05/30/2012 12:02:27:324 34.34 05/30/2012 12:03:27:300 34.31 05/30/2012 12:04:27:347 34.14 05/30/2012 12:05:27:350 34.17 05/30/2012 12:06:27:342 34.14 05/30/2012 12:07:27:311 34.13 05/30/2012 12:08:27:312 34.05 05/30/2012 12:09:27:308 34.00 05/30/2012 12:10:27:297 33.94 05/30/2012 12:11:27:303 33.94 05/30/2012 12:12:27:297 33.87 05/30/2012 12:13:27:297 33.76 05/30/2012 12:14:27:306 33.72 05/30/2012 12:15:27:297 33.69

LAMPIRAN F

Suhu hydrostick, stack inlet, dan stack outlet pengoperasian tanggal 4 Juni 2012

Time hidrostik input output

06/04/2012 12:10:20:240 29.07 27.89 27.75 06/04/2012 12:10:50:249 22.79 27.87 27.81 06/04/2012 12:11:20:225 19.78 28.18 27.86 06/04/2012 12:11:50:250 17.24 28.24 28.14 06/04/2012 12:12:20:251 17.15 28.38 28.35 06/04/2012 12:12:50:274 20.01 28.72 28.38 06/04/2012 12:13:20:273 19.92 28.86 28.58 06/04/2012 12:13:50:256 17.89 29.31 28.80 06/04/2012 12:14:20:266 21.19 29.46 29.00 06/04/2012 12:14:50:269 23.21 29.67 29.01 06/04/2012 12:15:20:231 22.95 29.87 29.16 06/04/2012 12:15:50:246 21.30 30.08 29.31 06/04/2012 12:16:20:234 21.67 30.18 29.37 06/04/2012 12:16:50:226 20.61 30.32 29.60 06/04/2012 12:17:20:277 20.71 30.42 29.70 06/04/2012 12:17:50:260 20.19 30.54 29.67 06/04/2012 12:18:20:259 19.89 30.67 29.74 06/04/2012 12:18:50:234 19.54 30.66 29.95 06/04/2012 12:19:20:262 20.06 30.78 29.99 06/04/2012 12:19:50:249 19.10 30.80 30.00 06/04/2012 12:20:20:275 19.80 30.97 30.03 06/04/2012 12:20:50:260 20.81 31.04 30.04 06/04/2012 12:21:20:248 20.31 31.02 30.23 06/04/2012 12:21:50:243 20.34 31.10 30.22 06/04/2012 12:22:20:271 20.82 31.19 30.20 06/04/2012 12:22:50:260 21.66 31.24 30.25 06/04/2012 12:23:20:228 22.28 31.18 30.23 06/04/2012 12:23:50:260 21.74 31.23 30.23 06/04/2012 12:24:20:252 22.42 31.24 30.29 06/04/2012 12:24:50:234 22.24 31.26 30.26 06/04/2012 12:25:20:260 22.34 31.29 30.31 06/04/2012 12:25:50:255 21.47 31.25 30.48 06/04/2012 12:26:20:236 22.34 31.26 30.40 06/04/2012 12:26:50:227 22.77 31.23 30.49 06/04/2012 12:27:20:277 22.11 31.26 30.51 06/04/2012 12:27:50:259 21.65 31.27 30.44 06/04/2012 12:28:20:229 21.95 31.16 30.38 06/04/2012 12:28:50:273 22.03 31.06 30.30

LAMPIRAN G

Suhu air pada saat hidrolisa aquadest menjadi hidrogen murni tanggal 11 Juni 2012

Time Suhu Air

06/11/2012 09:39:57:697 27.61 06/11/2012 09:40:57:715 27.48 06/11/2012 09:41:57:723 27.54 06/11/2012 09:42:57:707 27.53 06/11/2012 09:43:57:682 27.48 06/11/2012 09:44:57:719 27.75 06/11/2012 09:45:57:699 28.04 06/11/2012 09:46:57:682 28.26 06/11/2012 09:47:57:682 28.38 06/11/2012 09:48:57:700 28.47 06/11/2012 09:49:57:682 28.62 06/11/2012 09:50:57:720 28.88 06/11/2012 09:51:57:710 28.93 06/11/2012 09:52:57:691 29.05 06/11/2012 09:53:57:703 29.25 06/11/2012 09:54:57:726 29.40 06/11/2012 09:55:57:682 29.51 06/11/2012 09:56:57:729 29.64 06/11/2012 09:57:57:726 29.82 06/11/2012 09:58:57:693 29.94 06/11/2012 09:59:57:705 30.11 06/11/2012 10:00:57:715 30.25 06/11/2012 10:01:57:694 30.38 06/11/2012 10:02:57:721 30.38 06/11/2012 10:03:57:725 30.60 06/11/2012 10:04:57:731 30.72 06/11/2012 10:05:57:711 30.84 06/11/2012 10:06:57:692 31.10 06/11/2012 10:07:57:723 31.12 06/11/2012 10:08:57:698 31.20 06/11/2012 10:09:57:725 31.35 06/11/2012 10:10:57:689 31.44 06/11/2012 10:11:57:720 31.43 06/11/2012 10:12:57:698 31.58 06/11/2012 10:13:57:687 31.70 06/11/2012 10:14:57:704 31.97 06/11/2012 10:15:57:686 31.92 06/11/2012 10:16:57:695 32.05

06/11/2012 10:17:57:704 32.24 06/11/2012 10:18:57:717 32.26 06/11/2012 10:19:57:682 32.50 06/11/2012 10:20:57:734 32.42 06/11/2012 10:21:57:708 32.56 06/11/2012 10:22:57:732 32.57 06/11/2012 10:23:57:685 32.76 06/11/2012 10:24:57:708 32.78 06/11/2012 10:25:57:717 32.82 06/11/2012 10:26:57:712 33.14 06/11/2012 10:27:57:687 33.16 06/11/2012 10:28:57:711 33.17 06/11/2012 10:29:57:726 33.24 06/11/2012 10:30:57:700 33.23 06/11/2012 10:31:57:729 33.42 06/11/2012 10:32:57:690 33.50 06/11/2012 10:33:57:682 33.61 06/11/2012 10:34:57:696 33.67 06/11/2012 10:35:57:717 33.85 06/11/2012 10:36:57:703 33.79 06/11/2012 10:37:57:682 34.05 06/11/2012 10:38:57:732 33.94 06/11/2012 10:39:57:709 34.05 06/11/2012 10:40:57:730 34.14 06/11/2012 10:41:57:708 34.31 06/11/2012 10:42:57:696 34.25 06/11/2012 10:43:57:691 34.32 06/11/2012 10:44:57:704 34.53 06/11/2012 10:45:57:688 34.56 06/11/2012 10:46:57:721 34.58 06/11/2012 10:47:57:693 34.74 06/11/2012 10:48:57:682 34.63 06/11/2012 10:49:57:688 34.72 06/11/2012 10:50:57:727 34.88 06/11/2012 10:51:57:732 34.91 06/11/2012 10:52:57:682 35.06 06/11/2012 10:53:57:713 35.10 06/11/2012 10:54:57:730 35.20 06/11/2012 10:55:57:732 35.28 06/11/2012 10:56:57:711 35.26 06/11/2012 10:57:57:715 35.35 06/11/2012 10:58:57:685 35.43 06/11/2012 10:59:57:717 35.49 06/11/2012 11:00:57:702 35.53

06/11/2012 11:01:57:682 35.63 06/11/2012 11:02:57:692 35.68 06/11/2012 11:03:57:703 35.76 06/11/2012 11:04:57:691 35.79 06/11/2012 11:05:57:723 35.84 06/11/2012 11:06:57:724 35.87 06/11/2012 11:07:57:716 35.96 06/11/2012 11:08:57:700 36.03 06/11/2012 11:09:57:682 36.08 06/11/2012 11:10:57:717 36.13 06/11/2012 11:11:57:692 36.19 06/11/2012 11:12:57:724 36.23 06/11/2012 11:13:57:710 36.22 06/11/2012 11:14:57:727 36.36 06/11/2012 11:15:57:716 36.56 06/11/2012 11:16:57:714 36.46 06/11/2012 11:17:57:727 36.42 06/11/2012 11:18:57:701 36.57 06/11/2012 11:19:57:682 36.58 06/11/2012 11:20:57:725 36.58 06/11/2012 11:21:57:706 36.64 06/11/2012 11:22:57:732 36.77 06/11/2012 11:23:57:682 36.74 06/11/2012 11:24:57:689 36.88 06/11/2012 11:25:57:682 36.85 06/11/2012 11:26:57:704 36.95 06/11/2012 11:27:57:705 36.96 06/11/2012 11:28:57:683 37.03 06/11/2012 11:29:57:700 37.07 06/11/2012 11:30:57:690 37.13 06/11/2012 11:31:57:682 36.94 06/11/2012 11:32:57:729 36.78 06/11/2012 11:33:57:682 36.70 06/11/2012 11:34:57:702 36.60 06/11/2012 11:35:57:724 36.53 06/11/2012 11:36:57:715 36.45 06/11/2012 11:37:57:722 36.43 06/11/2012 11:38:57:703 36.36 06/11/2012 11:39:57:682 36.28 06/11/2012 11:40:57:684 36.25 06/11/2012 11:41:57:706 36.04 06/11/2012 11:42:57:696 36.13 06/11/2012 11:43:57:708 36.07 06/11/2012 11:44:57:682 35.91

06/11/2012 11:45:57:707 35.98 06/11/2012 11:46:57:688 35.74 06/11/2012 11:47:57:715 35.67 06/11/2012 11:48:57:682 35.64 06/11/2012 11:49:57:684 35.68 06/11/2012 11:50:57:707 35.62 06/11/2012 11:51:57:703 35.65 06/11/2012 11:52:57:682 35.59

LAMPIRAN H

Suhu hydrostick, stack inlet, dan stack outlet pengoperasian tanggal 12 Juni 2012

Time hidrostik input output

06/12/2012 12:29:50:263 21.85 30.87 30.26 06/12/2012 12:30:20:254 21.41 30.77 30.25 06/12/2012 12:30:50:229 21.78 30.67 30.18 06/12/2012 12:31:20:236 22.43 30.63 30.07 06/12/2012 12:31:50:233 22.27 30.44 29.95 06/12/2012 12:32:20:251 22.33 30.44 29.93 06/12/2012 12:32:50:247 22.39 30.35 29.91 06/12/2012 12:33:20:233 22.61 30.34 30.05 06/12/2012 12:33:50:263 22.75 30.28 29.96 06/12/2012 12:34:20:229 22.69 30.36 29.78 06/12/2012 12:34:50:259 22.66 30.31 29.96 06/12/2012 12:35:20:242 23.26 30.35 29.87 06/12/2012 12:35:50:276 23.39 30.31 29.98 06/12/2012 12:36:20:236 23.39 30.40 29.98 06/12/2012 12:36:50:274 23.32 30.56 30.05 06/12/2012 12:37:20:246 23.21 30.68 30.31 06/12/2012 12:37:50:230 23.33 30.92 30.53 06/12/2012 12:38:20:225 23.59 31.11 30.54 06/12/2012 12:38:50:275 23.63 31.36 30.77 06/12/2012 12:39:20:243 23.38 31.48 30.94 06/12/2012 12:39:50:230 23.69 31.72 30.89 06/12/2012 12:40:20:239 23.69 31.79 31.00 06/12/2012 12:40:50:225 23.92 31.99 31.04 06/12/2012 12:41:20:242 23.73 31.99 31.31 06/12/2012 12:41:50:225 24.03 32.18 31.31 06/12/2012 12:42:20:267 24.22 32.31 31.36 06/12/2012 12:42:50:273 24.24 32.33 31.40 06/12/2012 12:43:20:276 24.17 32.43 31.51 06/12/2012 12:43:50:251 24.37 32.47 31.47 06/12/2012 12:44:20:242 24.35 32.51 31.53 06/12/2012 12:44:50:275 24.21 32.52 31.55 06/12/2012 12:45:20:254 24.29 32.47 31.58 06/12/2012 12:45:50:239 24.36 32.53 31.66 06/12/2012 12:46:20:273 24.55 32.61 31.61 06/12/2012 12:46:50:225 24.27 32.51 31.77 06/12/2012 12:47:20:265 24.48 32.44 31.61 06/12/2012 12:47:50:252 24.76 32.49 31.48 06/12/2012 12:48:20:231 24.42 32.42 31.69

LAMPIRAN I

Perintah - perintah untuk penyelesaian permasalahan permodelan temperatur pada lapisan dalam GDL.

% Define the parameters

eps = 0.2; % Perturbation Parameter

% Define the number of grid points in x and y direction % nx = number of grid points in x direction

% ny = number of grid points in y direction nx = 201;

ny = 201;

% Define the dimension of the domain

Lx = 1.6; % Length in x of the computation region Ly = 1.0; % Length in y of the computation region % Calculate the mesh size

hx = Lx/(nx-1); % Grid spacing in x hy = Ly/(ny-1); % Grid spacing in y % Generate the mesh/grid

x(1) = -1.8; y(1) = 0.0; for k = 2:nx x(k)=x(k-1)+hx; end for j = 2:ny y(j)=y(j-1)+hy; end z = (x+1.0)/eps; [Z,Y] = meshgrid(z,y);

% Now determine the functions f1 = complex(Z,Y); f2 = exp((pi ∗ f1)); f3 = (f2-1.0)./(f2+1.0); f4 = (1.0/2.0)-(1.0/pi) ∗ (asin(f3)); % Inner Variable Ti = real(f4);

% Make a 3D plot of Ti fi gure surf(Z,Y,Ti,‘EdgeColor’,‘none’) set(gca,‘DataAspectRatio’,[1 1 1]) axis([-4.0 4.0 0 1 0 1]) view(-35,32) xlabel(‘ z ’) ylabel(‘ y ’) zlabel(‘ Ti(z,y) ’)

LAMPIRAN J

Perintah - perintah untuk penyelesaian permasalahan permodelan temperatur pada GDL.

% Define the parameters

eps = 0.2; % Perturbation Parameter

% Define the number of grid points in x and y direction % nx = number of grid points in x direction

% ny = number of grid points in y direction nx = 101;

ny = 65;

% SOR parameters

omega = 1.4; % SOR parameter t = (2.0 * cos(pi/(nx * ny)))^2;

% Calculate a optimum value of SOR parameter omega1 = (16.0+sqrt((256.0-(64.0 * t))))/(2.0 * t); omega2 = (16.0-sqrt((256.0-(64.0 * t))))/(2.0 * t); oopt = min(omega1,omega2) if ( (oopt <= 1.0) || (oopt >= 2.0 )) oopt = 1.0; end omega = oopt;

% Define the dimension of the domain

Lx = 2.0; % Length in x of the computation region Ly = 1.0; % Length in y of the computation region % Calculate the mesh size

hx = Lx/(nx-1); % Grid spacing in x hy = Ly/(ny-1); % Grid spacing in y % Generate the mesh/grid

x(1) = -1.0; y(1) = 0.0; for i = 2:nx x(i)=x(i-1)+hx;

end

for j = 2:ny y(j)=y(j-1)+hy; end

% Solve the Temperature equation

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % Initialize the temperature field as zero

T = zeros(nx,ny);

% Max-Norm on Error {L-inf Error) Initialized Linf = 1.0;

iteration = 0;

while (Linf > 1.0e-5) iteration = iteration+1;

% Store the old values of T in Told Told = T;

% Apply the boundary conditions for i = 1:nx

% BC for the bottom boundary T(i,1)=T(i,2)+hy;

% BC for the top boundary if ( x(i) <= 0 ) T(i,ny) = 1; else T(i,ny) = 0; end end for j = 1:ny

% BC for the Left boundary T(1,j)=T(2,j);

% BC for the Left boundary T(nx,j)=T(nx-1,j);

End

% Now compute the interior domain using 2nd order finite difference for i = 2:nx-1

for j = 2:ny-1

term1 = ((eps/hx)^2) * (T(i-1,j)+T(i+1,j)); term2 = ((1.0/hy)^2) * (T(i,j-1)+T(i,j+1)); num = term1+term2;

den = 2.0 * (((eps/hx)^2)+((1.0/hy)^2)); Tgs = num/den;

end end

% Calculate the error Terr = abs(T-Told); Linf = norm(Terr,2); % Plot the solutions figure [X,Y] = meshgrid(x,y); clevel = [-1 -0.005 0 0.053 0.152 0.252 0.352 0.451 0.551 0.65 0.75 0.949 1.049 1.148 1.248 1.348 1.447 1.547 1.646 1.746 1.848 1.945 2.0 3.0]; contourf(X’,Y’,T,clevel) colorbar axis([-1.2 1.2 -0.8 1.8]) xlabel(‘ x ’) ylabel(‘ y ’) zlabel(‘ T(x,y) ’) hold on yi = [0:0.01:1]; xi = zeros(length(yi)); plot(xi,yi,‘black’)

LAMPIRAN K

Perintah - perintah untuk penyelesaian permasalahan permodelan konsentrasi oksigen pada GDL.

% Define the parameters

eps = 0.2; % Perturbation Parameter

% Define the number of grid points in x and y direction % nx = number of grid points in x direction

% ny = number of grid points in y direction nx = 101;

ny = 65;

% SOR parameters

omega = 1.4; % SOR parameter t = (2.0 * cos(pi/(nx * ny)))^2;

% Calculate a optimum value of SOR parameter omega1 = (16.0+sqrt((256.0-(64.0 * t))))/(2.0 * t); omega2 = (16.0-sqrt((256.0-(64.0 * t))))/(2.0 * t); oopt = min(omega1,omega2) if ( (oopt <= 1.0) || (oopt >= 2.0 )) oopt = 1.0; end omega = oopt;

% Define the dimension of the domain

Lx = 2.0; % Length in x of the computation region Ly = 1.0; % Length in y of the computation region % Calculate the mesh size

hx = Lx/(nx-1); % Grid spacing in x hy = Ly/(ny-1); % Grid spacing in y % Generate the mesh/grid

x(1) = -1.0; y(1) = 0.0; for i = 2:nx x(i)=x(i-1)+hx;

end

for j = 2:ny y(j)=y(j-1)+hy; end

% Solve the Oxygen concentration equation

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %omega = 1.0; % SOR parameter

% Initialize the oxygen concentration field as zero u = zeros(nx,ny);

% Max-Norm on Error {L-inf Error) Initialized Linf = 1.0;

iteration = 0;

while (Linf > 1.0e-5) iteration = iteration+1;

% Store the old values of T in Told uold = u;

% Apply the boundary conditions for i = 1:nx

% BC for the bottom boundary u(i,1)=u(i,2)-(1.81 * (eps^2) *hy); % BC for the top boundary

if ( x(i) <= 0 ) u(i,ny) = 1; else u(i,ny) = u(i,ny-1); end end for j = 1:ny

% BC for the Left boundary u(1,j)=u(2,j);

% BC for the Left boundary u(nx,j)=u(nx-1,j);

end

% Now compute the interior domain using 2nd order finite difference for i = 2:nx-1

for j = 2:ny-1

term1 = ((eps/hx)^2) *(u(i-1,j)+u(i+1,j)); term2 = ((1.0/hy)^2) *(u(i,j-1)+u(i,j+1)); num = term1+term2;

den = 2.0 * (((eps/hx)^2)+((1.0/hy)^2)); ugs = num/den;

u(i,j) = (omega * ugs)+((1.0-omega) * uold(i,j)); end

end

% Calculate the error uerr = abs(u-uold); Linf = norm(uerr,2); % Plot the solutions figure [X,Y] = meshgrid(x,y); clevel = [-1 -0.5 -0.087 -0.031 0 0.025 0.08 0.136 0.192 0.247 0.303 0.359 0.415 0.47 0.526 0.582 0.638 0.693 0.749 0.805 0.86 0.916 0.972 1 3.0]; contourf(X’,Y’,u,clevel) colorbar axis([-1.2 1.2 -0.8 1.8]) xlabel(‘ x ’) ylabel(‘ y ’) zlabel(‘ u(x,y) ’) hold on yi = [0:0.01:1]; xi = zeros(length(yi)); plot(xi,yi,’black’)

CARA PEMAKAIAN AGILIENT 34972A (Sustainable Energy Research Centre)

Untuk pengukuran temperatur di Sustainable Energy Research Centre, mengunakan 2 perangkat yaitu Agilient 34972A dan thermocouple

1. Thermocouple

Kabel yang digunakan mengukur temperatur, biasanya dilekatkan/ditempel pada titik yang akan diukur temperaturnya

2. Agilient 34972A

Perangkat ini lebih berfungsi kepada sebagai alat baca temperatur.

thermocouple yang telah ditempel sudah tersambung dengan agilient, bisa

langsung di baca .

Cara pengoperasian Agilient 34972A :

1. Pasang thermocouple pada titik-titik yang akan di baca temperaturnya 2. Agilient 34972A : Power On, terlihat pada gambar :

3. Tunggu Loading…

4. Setelah dibuka, akan langsung terbaca suhu pada setiap titik , dapat dilihat pada gambar :

Power ON

Jika thermocouple yang dipasang ada 20 titik, maka yang terbaca juga akan ada 20(dua puluh) titik. Tulisan daripada Channel adalah

101,102,…..110,111…….120. Namun yang dibaca adalah satuan dan

puluhannya. Jika mau membaca titik 1, maka channel yang dibuka adalah

channel 101 dst, jika mau membaca titik 11, maka channel yang dibuka

adalah 111 dan seterusnya.

Putar ke kanan dan putar ke kiri buat mengganti channel.

5. Setelah mengerti cara membaca masing-masing titik, sekarang kita akan mencoba menyimpan data yang telah dibaca (otomatis), Siapka n Flash disk , Colokkan dibelakang agilient . Setelah itu kita mengeset agilientnya. Yang perlu kita ketahui adalah :

• Berapa selang waktu yang kita mau untuk 1 x scan?

• Berapa lama waktu yang mao kita suruh si agilent menyimpan data? Contoh

Saya mau 1 menit 1 x scan, dan dari jam 9 pagi ampe jam 3 siang. Berarti Interval = 1menit, lama scan= 6 jam, total scan = 6 jam x 60 menit = 360 scan

Tombol Putar

Tombol Interval

6. Tekan tombol Interval, Masukkan interval nya 1 menit , Format pada layar adalah HH:MM:SS

(Hour:Minutes:Second) karena tadi kita mau 1 menit, format menjadi 00:01:00 . Jika mau diubah tekan tombol kanan kiri, kemudian putar

sampai dapat interval yang diinginkan . Untuk mengkonfirmasi tekan tombol interval beberapa kali.

7. Setelah itu tekan tombol scan ini dimaksudkan untuk memulai proses penyimpanan dengan interval dan waktu yang telah anda tentukan tadi.

8. Scan telah dimulai , silahkan tunggu.

9. Setelah selesai, shutdown saja dengan tekan Power On . Ambil flashdisk.

NB:

• Jika terjadi kerusakan(temperatur naik turun secara drastis),

ujung thermocouple yang ditempelkan pada titik harus dicouplekan lagi. Bisa dengan cara menyolder atau yang lainnya.

• Untuk menghentikan scan, tekan lagi tombol scan dan ditahan

beberapa detik.

• Jaga dan rawatlah peralatan-nya

Tombol Scan