1 00:00:00,080 --> 00:00:06,400 be proud about it, man. What is this? 2 00:00:03,200 --> 00:00:09,920 Wait, what is this? Okay, wait. This is 3 00:00:06,400 --> 00:00:12,559 evil. This is This is Donald 4 00:00:09,920 --> 00:00:16,320 from Ireland from here in Canada. Good old USA. 5 00:00:14,480 --> 00:00:19,320 This is the whole room water cooling project. 6 00:00:20,800 --> 00:00:24,199 This is crazy. 7 00:00:24,720 --> 00:00:34,079 Day four. Day four. This was not supposed to take 4 days. 8 00:00:30,880 --> 00:00:37,200 So, what's the plan? Okay, the plan is 9 00:00:34,079 --> 00:00:40,800 to get these fittings to stop leaking 10 00:00:37,200 --> 00:00:43,280 first. So, I have come armed with the 11 00:00:40,800 --> 00:00:52,320 Uber wrench, which is kind of like the Uber mench, but wrench 12 00:00:46,960 --> 00:00:55,440 here. Um, this one is almost big enough 13 00:00:52,320 --> 00:00:58,000 for this, but not quite. But that's okay 14 00:00:55,440 --> 00:01:02,039 because I have an even uber wrench. We'll have a plumbers's crack. 15 00:01:07,600 --> 00:01:13,799 Okay, these are not going to leak this 16 00:01:10,799 --> 00:01:13,799 time. 17 00:01:17,600 --> 00:01:24,439 Gordon Freeman should have carried one of these. It's a lot heavier than a 18 00:01:21,439 --> 00:01:24,439 crowbar. 19 00:01:24,799 --> 00:01:30,880 Vice grip. Yeah. 20 00:01:28,960 --> 00:01:37,439 the compression fan doing it the right way. So, we're doing a bit of a longer 21 00:01:34,640 --> 00:01:44,600 tubing run this time so that we can make sure that the pump 22 00:01:39,759 --> 00:01:44,600 is nice and below the reservoir. 23 00:01:47,520 --> 00:01:52,799 Isn't there like a better way to see if it 24 00:01:50,799 --> 00:01:55,840 uh yeah, we don't have one more than you think of 25 00:01:54,079 --> 00:01:58,000 it. There we go. 26 00:01:58,000 --> 00:02:02,960 In theory, 27 00:02:01,200 --> 00:02:06,360 in theory, it should work. Let's fill this bad boy. 28 00:02:08,560 --> 00:02:14,419 Okay, head stop. 29 00:02:18,959 --> 00:02:24,080 That's not leaking, which is a good sign. 30 00:02:22,800 --> 00:02:28,400 So, at this point, we're testing the loop to find out if this whole thing is 31 00:02:26,000 --> 00:02:32,080 actually even working. And even though it would have been wiser to do this 32 00:02:30,480 --> 00:02:36,480 before we hooked everything up to the whole room, I'm actually testing to make 33 00:02:34,160 --> 00:02:41,920 sure that each of the individual systems is not leaking. So, checking fittings, 34 00:02:38,800 --> 00:02:44,560 checking blocks, everything looks to be 35 00:02:41,920 --> 00:02:49,599 okay. But if a leak were to be sprung at this point, it would be pretty crummy. 36 00:02:47,519 --> 00:02:54,080 With the systems powered on, it looked like everything was working fine. CPU 37 00:02:52,239 --> 00:02:59,040 temperatures looked normal. I could see water within the blocks, but then 38 00:02:56,480 --> 00:03:03,840 temperatures started to creep up on some of the PCs and not others. And then they 39 00:03:01,920 --> 00:03:07,360 would go up up up up and then they'd settle right back down to what looks 40 00:03:05,440 --> 00:03:11,760 like a normal water cooled idle temperature. So, not having a whole lot 41 00:03:10,319 --> 00:03:16,800 of time to figure out what the problem was, I had to do a little bit of running 42 00:03:14,080 --> 00:03:22,159 around diagnosing what exactly is going on with these CPU temps. 43 00:03:20,239 --> 00:03:27,120 So, the issue ended up being that some of the systems were getting some water 44 00:03:24,640 --> 00:03:32,080 flow and others weren't due to air bubbles being stuck in some of the pipes 45 00:03:29,360 --> 00:03:37,599 and not others. And essentially, well, our pump not having not head pressure 46 00:03:35,760 --> 00:03:41,840 because we were actually getting reasonable flow out of the system once 47 00:03:39,599 --> 00:03:47,040 we got the whole thing filled, but not a high enough flow rate in order to get 48 00:03:44,080 --> 00:03:52,560 the water moving fast enough in order to force the bubbles down the downside of 49 00:03:50,239 --> 00:03:57,090 their tubes through the systems and then back up the other side into our 50 00:03:54,879 --> 00:04:02,810 reservoir. 51 00:04:11,519 --> 00:04:16,920 Okay, CPU temps are 28°, 52 00:04:18,239 --> 00:04:28,120 not rising. Oh, that pump just grabbed. 53 00:04:24,080 --> 00:04:28,120 Can hear all the air bubbles going. 54 00:04:28,400 --> 00:04:31,440 Okay. 55 00:04:31,440 --> 00:04:36,560 What you mean the pump just to scratch? Uh, when it's got air bubbles stuck in 56 00:04:34,720 --> 00:04:40,680 it, it spins, but not very It doesn't really pump water effectively. 57 00:04:42,160 --> 00:04:45,160 Okay. 58 00:04:51,199 --> 00:04:54,199 6°. 59 00:04:55,840 --> 00:05:01,840 So, you're 12. Uh, the whole thing will quiet down once 60 00:04:59,840 --> 00:05:04,840 the air bleeds out of the room. Here we go. 61 00:05:10,880 --> 00:05:14,520 That seems to be 62 00:05:16,240 --> 00:05:23,280 Okay, let's get some boot drives, shall we? All right. You know where they are. 63 00:05:20,639 --> 00:05:29,039 Uh, probably in our old systems. I took them. You took them out. You took 64 00:05:26,240 --> 00:05:35,120 them out and gave them to Luke. That is what you did. Are they down? 65 00:05:31,440 --> 00:05:38,080 Okay. Okay. 66 00:05:35,120 --> 00:05:45,160 All right. Okay. Let's do this. This is minus 67 00:05:41,440 --> 00:05:45,160 because it says L. 68 00:05:50,720 --> 00:05:56,360 No. What is problem? 69 00:05:56,479 --> 00:06:04,720 Because the first time we bled the loop 70 00:06:01,039 --> 00:06:08,319 on every one of these Mhm. we connected 71 00:06:04,720 --> 00:06:12,080 them. So, right now, it's going to be 72 00:06:08,319 --> 00:06:16,080 really hard to bleed the system because 73 00:06:12,080 --> 00:06:19,360 these ones that we're not using 74 00:06:16,080 --> 00:06:21,039 have no water flow. 75 00:06:19,360 --> 00:06:27,479 disconnect, right? Yeah, we may have to drain this bad boy. God damn it. 76 00:06:24,479 --> 00:06:27,479 Okay. 77 00:06:27,840 --> 00:06:34,800 Okay, it's not so bad. We just have to do 78 00:06:32,960 --> 00:06:39,680 what? One, two, three. Right. 79 00:06:37,919 --> 00:06:45,440 Okay. Okay. Did I get Paragon working or we 80 00:06:42,319 --> 00:06:47,280 get on that? Um, 81 00:06:45,440 --> 00:06:50,400 might as well fire up Paragon if you want. Might as well get your system 82 00:06:49,120 --> 00:06:54,720 clone so you're ready to go when the time comes. 83 00:06:54,720 --> 00:06:58,039 Okay, that one. 84 00:07:11,599 --> 00:07:16,919 I wish we'd planned for a more graceful way to do that. 85 00:07:17,199 --> 00:07:24,479 Can I have that rag back at her? Yep. 86 00:07:20,720 --> 00:07:27,199 So, what we have to do is 87 00:07:24,479 --> 00:07:32,400 What do we have to do? Just put the opposite ends on them. 88 00:07:29,199 --> 00:07:33,599 Yeah. Compression fittings from Yeah. 89 00:07:32,400 --> 00:07:39,440 Okay. Yeah, that makes sense. Compression fittings onto here connected 90 00:07:36,800 --> 00:07:42,479 to the pipe. So, what do you do now? Do you put the 91 00:07:40,960 --> 00:07:48,720 compression fitting on before you attach it to the wall? Yeah. I'll try that and 92 00:07:45,680 --> 00:07:53,280 use that. 93 00:07:48,720 --> 00:07:55,520 Which one? This thing. Oh, 94 00:07:53,280 --> 00:08:00,720 what I do to get this thing close to that, just yank 95 00:07:57,759 --> 00:08:04,440 like on the tubing. Yeah, I guess that could work. 96 00:08:07,840 --> 00:08:16,160 I want this pump as low as it can be. 97 00:08:11,919 --> 00:08:20,199 And then I want this red tilted a little 98 00:08:16,160 --> 00:08:20,199 bit. Okay, here we go. 99 00:08:21,039 --> 00:08:29,720 Are you ready? All right. Hit it 100 00:08:26,000 --> 00:08:29,720 for the third time. 101 00:08:33,120 --> 00:08:42,719 Okay. pump them off. Um, 102 00:08:37,039 --> 00:08:47,120 come up. Well, they're not enough to 103 00:08:42,719 --> 00:08:49,760 Something needs to push the air 104 00:08:47,120 --> 00:08:54,720 through this. And that's supposed to be that one. But 105 00:08:52,640 --> 00:08:58,680 that one needs a lot more head pressure in order to make that happen. 106 00:09:03,440 --> 00:09:08,560 So you can see that this is getting 107 00:09:06,880 --> 00:09:13,360 even without all the other systems connected, it's getting like no flow at 108 00:09:11,120 --> 00:09:16,800 all. What's different now? We're not really 109 00:09:15,120 --> 00:09:22,399 getting any Oh, it's going back up. Yeah, we're not really getting any appreciable 110 00:09:19,600 --> 00:09:25,399 flow in here, though. That 111 00:09:25,920 --> 00:09:29,480 is kind of bizarre. 112 00:09:30,000 --> 00:09:35,080 There be a blockage. No 113 00:09:39,600 --> 00:09:44,160 temps now. 114 00:09:42,640 --> 00:09:47,160 39. Yeah. 115 00:09:47,600 --> 00:09:55,080 58 37 116 00:09:52,080 --> 00:09:55,080 56 117 00:09:58,399 --> 00:10:01,399 55 118 00:10:07,519 --> 00:10:21,200 Oh, it's flowing now. 119 00:10:21,200 --> 00:10:27,079 So, wait, the big tube's empty now. Yeah. That's terrific. 120 00:10:28,560 --> 00:10:35,200 hurry. That takes me a long time. Let's have to 121 00:10:32,720 --> 00:10:41,279 see. Uh yeah, but we got a prop land show, too. You don't want the uh the uh 122 00:10:39,440 --> 00:10:45,760 the show where you're the first first time you're on to be terrible, right? Uh 123 00:10:44,160 --> 00:10:50,079 I can come up with the opinions on the spot. 124 00:10:48,480 --> 00:10:56,279 Um what? 125 00:10:52,240 --> 00:10:56,279 I don't know about that deal. 126 00:10:56,880 --> 00:11:01,959 That's what I do anyways. Make 127 00:11:08,079 --> 00:11:17,920 sure to talk about that in there. 128 00:11:17,920 --> 00:11:22,279 All that. Yeah, that's good. 129 00:11:28,720 --> 00:11:32,680 Making the bubbles my [ __ ] 130 00:11:40,480 --> 00:11:47,620 Running another one your way. 131 00:11:47,920 --> 00:11:55,680 Oops. got too enthusiastic about my bubble 132 00:11:52,240 --> 00:11:58,399 slaying. And with the bubbles out, the 133 00:11:55,680 --> 00:12:02,440 pumps can help us. But with the bubbles in there, they can't do anything. 134 00:12:06,240 --> 00:12:13,079 All righty then. Zero cares given. 135 00:12:19,920 --> 00:12:23,920 100%. 136 00:12:23,920 --> 00:12:27,560 It's running. Yeah. 137 00:12:28,079 --> 00:12:33,079 No way, dog. It's running. All right. 138 00:12:34,560 --> 00:12:41,600 The Cooler Master Neptune 240M features an exclusive pump design and their new 139 00:12:38,959 --> 00:12:45,760 Sencio fans to provide impressive near silent performance. Click now to learn 140 00:12:43,600 --> 00:12:50,880 more. again. Wow. Is there even room for that 141 00:12:47,760 --> 00:12:55,680 power supply? 142 00:12:50,880 --> 00:12:57,760 Should be just barely. 143 00:12:55,680 --> 00:13:02,160 Fortunately, these cables are intercompatible, 144 00:12:59,360 --> 00:13:07,920 so we actually only have to swap out the power supply. So, that's it for the 145 00:13:05,680 --> 00:13:12,639 summer portion of this project. We actually did not finish it at all. We 146 00:13:10,720 --> 00:13:17,839 got distracted with a bunch of other things. I mean, it's finished in that it 147 00:13:15,360 --> 00:13:22,240 works some parts of it, but we're going to have at least one more update here 148 00:13:19,920 --> 00:13:30,240 with the finishing touches as well as the final results. Stay tuned for that.