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Waste oil burner inline pre heater

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Kind: captions
Language: en

00:00:00.269
what's up guys today we're gonna be
00:00:02.659 00:00:02.669 testing out something really cool here
00:00:04.490 00:00:04.500 basically what I've built is a test
00:00:07.550 00:00:07.560 device it's a waste oil inline heater I
00:00:11.540 00:00:11.550 want to see if the concept works before
00:00:13.549 00:00:13.559 I go get it too crazy so this is just
00:00:15.379 00:00:15.389 something I slapped together last night
00:00:17.300 00:00:17.310 I'm gonna show you how it works
00:00:22.420 00:00:22.430 check that out
00:00:27.390 00:00:27.400 mad not mad whoo that's nothing to talk
00:00:33.510 00:00:33.520 to notes a nice little burst of heat so
00:00:38.910 00:00:38.920 basically the idea is I'm gonna connect
00:00:41.369 00:00:41.379 a thermocouple up to this bad boy and we
00:00:44.130 00:00:44.140 are going to build an in-line heater
00:00:45.630 00:00:45.640 that can be calibrated fairly and
00:00:47.790 00:00:47.800 accurately by using this router speed
00:00:51.930 00:00:51.940 controller that's been modified with a
00:00:53.400 00:00:53.410 massive heatsink on the back connected
00:00:55.380 00:00:55.390 to the triac inside and a 500 watt
00:00:59.359 00:00:59.369 halogen light bulb which I did touch
00:01:03.689 00:01:03.699 with my fingers unfortunately when I
00:01:07.320 00:01:07.330 threw this together it's in such a way
00:01:10.020 00:01:10.030 you can't give the light bulb out of
00:01:11.520 00:01:11.530 there so if it blows I gotta tear this
00:01:14.730 00:01:14.740 pet foot apart this is epoxy beginner
00:01:17.280 00:01:17.290 with porcelain and jb weld for the
00:01:19.800 00:01:19.810 dielectric purposes of the mounting
00:01:22.289 00:01:22.299 because I have a metal frame here so I
00:01:26.249 00:01:26.259 went ahead and painted it gray because I
00:01:30.770 00:01:30.780 wanted to be able to see the temperature
00:01:34.320 00:01:34.330 with thermal gun man that thing got hot
00:01:36.450 00:01:36.460 from just that little burst can imagine
00:01:39.270 00:01:39.280 I'm not that inner tube is so this is
00:01:41.880 00:01:41.890 gonna be a pretty cool we're gonna hook
00:01:43.649 00:01:43.659 up my calibrated oil pump
00:01:48.719 00:01:48.729 and we're gonna get some temperature
00:01:50.609 00:01:50.619 readings and I want to try to make a
00:01:52.230 00:01:52.240 device that can produce oil at 300
00:01:56.910 00:01:56.920 degrees right around four liters per
00:01:59.249 00:01:59.259 hour or about a gallon per hour that's
00:02:01.760 00:02:01.770 kind of like the right right around the
00:02:04.740 00:02:04.750 area I've been burning a lot of my waste
00:02:06.240 00:02:06.250 little burners at so it'd be cool to see
00:02:08.940 00:02:08.950 it in other operating parameters
00:02:11.040 00:02:11.050 obviously but I want to see if this
00:02:13.410 00:02:13.420 particular design can fit those
00:02:16.470 00:02:16.480 specifications basically what we have
00:02:19.650 00:02:19.660 here is a miniature heat exchange you
00:02:22.199 00:02:22.209 have an inside tube there that goes
00:02:23.940 00:02:23.950 through this outer cowling that has an
00:02:29.270 00:02:29.280 intake and a discharge this discharge is
00:02:33.750 00:02:33.760 a needle valve that will have a
00:02:35.490 00:02:35.500 thermocouple weed in place of the needle
00:02:38.640 00:02:38.650 valve stuff down inside there so we can
00:02:40.620 00:02:40.630 get an exact discharge temperature the
00:02:43.890 00:02:43.900 man is that freaking cool or what
00:02:50.390 00:02:50.400 seems like just touching it a little bit
00:02:52.640 00:02:52.650 though loose I'm gonna have to adjust my
00:02:57.380 00:02:57.390 Springs I forgot I have these screws
00:02:59.059 00:02:59.069 tightened didn't have it set up right
00:03:03.730 00:03:03.740 but at any rate we're gonna check this
00:03:06.350 00:03:06.360 thing out still tweaking it around on
00:03:09.170 00:03:09.180 the electrical side of it making a
00:03:11.270 00:03:11.280 higher temperature contact it's not
00:03:13.010 00:03:13.020 gonna be easy we're gonna see how this
00:03:15.350 00:03:15.360 goes
00:03:16.190 00:03:16.200 this is probably gonna burn itself up
00:03:18.380 00:03:18.390 and eventually what I'm gonna do is most
00:03:20.570 00:03:20.580 likely just go out and buy a halogen
00:03:23.600 00:03:23.610 lamp and use their setup and put this
00:03:27.820 00:03:27.830 heat exchange in there because building
00:03:31.910 00:03:31.920 this mount was a real pain in the neck
00:03:36.070 00:03:36.080 basically what this is going to do is
00:03:38.000 00:03:38.010 preheat the waste oil and I'm gonna do
00:03:40.309 00:03:40.319 it using a 500 watt halogen light bulb
00:03:45.800 00:03:45.810 so this ought to be a pretty cool build
00:03:48.620 00:03:48.630 I'm going to control this light bulb
00:03:51.740 00:03:51.750 using a router speed controller so we're
00:03:54.319 00:03:54.329 gonna be able to get a pretty good
00:03:56.420 00:03:56.430 temperature control I figured this
00:03:58.069 00:03:58.079 electric one would be a lot better than
00:04:00.830 00:04:00.840 a propane powered one I don't know how
00:04:03.680 00:04:03.690 much build-up is gonna get inside of
00:04:05.509 00:04:05.519 this thing
00:04:06.140 00:04:06.150 but it can always be taken apart so
00:04:08.620 00:04:08.630 essentially what we're going to do is
00:04:11.740 00:04:11.750 hook this bad boy up so let's get to it
00:04:15.170 00:04:15.180 I just want to be able to pass oil
00:04:18.289 00:04:18.299 through it and warm it up in the process
00:04:28.910 00:04:28.920 you
00:04:50.280 00:04:50.290 definitely too cool
00:05:01.430 00:05:01.440 do a quick experiment here with this
00:05:04.730 00:05:04.740 inline heater ability it uses a 500 watt
00:05:08.480 00:05:08.490 halogen light bulb inside of a miniature
00:05:11.780 00:05:11.790 copper heat exchange we're going to be
00:05:15.500 00:05:15.510 using this router speed controller to
00:05:17.300 00:05:17.310 adjust the power and in addition to that
00:05:22.390 00:05:22.400 we're going to be checking the
00:05:24.200 00:05:24.210 temperature of the discharge now my goal
00:05:26.990 00:05:27.000 here is to set this thing up to put out
00:05:30.830 00:05:30.840 300 degree oil at 4 liters in an hour
00:05:38.080 00:05:38.090 however I just realized I'm probably
00:05:40.160 00:05:40.170 about to melt this bowl I'm going to
00:05:45.770 00:05:45.780 test it on low first just to see how hot
00:05:47.840 00:05:47.850 it'll get the oil okay so I'm going to
00:05:51.830 00:05:51.840 turn the oil wall into a flow but I'm
00:05:53.750 00:05:53.760 accustomed to see in the siphon pull
00:05:56.570 00:05:56.580 this at we're gonna observe the
00:06:01.430 00:06:01.440 temperature
00:06:11.770 00:06:11.780 that's a pretty common looking flow
00:06:13.720 00:06:13.730 there okay so that's
00:06:17.639 00:06:17.649 pretty slow drizzle
00:06:22.280 00:06:22.290 might kick it up to above that as you
00:06:25.010 00:06:25.020 can see it's showing a temperature of 72
00:06:26.960 00:06:26.970 degrees on the thermocoupler
00:06:28.640 00:06:28.650 what's this mounted inside that teeth
00:06:30.400 00:06:30.410 let's turn this unit on the lowest
00:06:32.810 00:06:32.820 setting
00:06:37.950 00:06:37.960 check that out no it's too cool
00:06:43.530 00:06:43.540 that is 82 watts of heating power which
00:06:46.650 00:06:46.660 might not sound like much to you the
00:06:48.240 00:06:48.250 bear mine I own a 25 watt soldering iron
00:06:52.370 00:06:52.380 so there's a substantial amount of heat
00:06:55.520 00:06:55.530 gonna be cranked into this thing and you
00:06:57.630 00:06:57.640 can see the temperature of the discharge
00:06:59.010 00:06:59.020 of oil is already going up it's a pretty
00:07:02.160 00:07:02.170 pretty cool
00:07:09.080 00:07:09.090 I might want to turn that up just a
00:07:10.850 00:07:10.860 little bit I don't know that that's a
00:07:15.290 00:07:15.300 good enough flow rate when it's me just
00:07:19.400 00:07:19.410 a little bit more temperature is rising
00:07:24.800 00:07:24.810 rapidly I only need 300 degrees
00:07:35.650 00:07:35.660 he's a very unstable rig throw them
00:07:39.310 00:07:39.320 together Murray hurry just to test the
00:07:42.910 00:07:42.920 concept
00:07:47.700 00:07:47.710 now if this goes up to 500 milliliters
00:07:50.249 00:07:50.259 in 7 minutes we know we're right at
00:07:53.040 00:07:53.050 about 7 or 4 liters per hour which is
00:07:57.360 00:07:57.370 the target for the burner I'm working on
00:08:02.480 00:08:02.490 that it's too cool
00:08:07.440 00:08:07.450 okay that's fancy and all but it's just
00:08:09.510 00:08:09.520 not enough it's actually very hot to the
00:08:14.130 00:08:14.140 touch
00:08:16.010 00:08:16.020 very hot
00:08:25.570 00:08:25.580 she won that a little discharged 126
00:08:36.570 00:08:36.580 that's just too cool or how hot those
00:08:40.440 00:08:40.450 terminal leaves are getting
00:08:44.960 00:08:44.970 not too bad worried about these
00:08:46.790 00:08:46.800 terminals
00:08:55.280 00:08:55.290 they're placing warm oil coming out of
00:08:57.140 00:08:57.150 that
00:09:06.800 00:09:06.810 eating lots
00:09:09.130 00:09:09.140 of heating power now the cool thing
00:09:11.769 00:09:11.779 about this little device is I'm also
00:09:13.630 00:09:13.640 going to be using it to preheat water on
00:09:17.889 00:09:17.899 a steam cleaner I'm gonna build so this
00:09:23.019 00:09:23.029 should be able to let us calibrate
00:09:24.220 00:09:24.230 fairly closely
00:09:34.590 00:09:34.600 and mind you this may be too fast of a
00:09:37.140 00:09:37.150 flow rate I still have a calibrate of
00:09:39.000 00:09:39.010 this pump
00:09:39.840 00:09:39.850 we're gonna build a dial so I know what
00:09:42.180 00:09:42.190 the flow rate is at a particular setting
00:09:46.460 00:09:46.470 or put like a round disk up here
00:09:49.670 00:09:49.680 if we hit five hundred and seven minute
00:09:53.070 00:09:53.080 mark we're right around that area
00:09:55.320 00:09:55.330 problem is we are at the 1 minute and 35
00:09:58.170 00:09:58.180 seconds long temperatures are still
00:10:01.140 00:10:01.150 rising just think probably too hot to
00:10:04.260 00:10:04.270 the touch here it's very hot getting
00:10:09.360 00:10:09.370 very hot working very gated we have a
00:10:12.360 00:10:12.370 lot of power to work with here on the
00:10:13.860 00:10:13.870 lowest setting people it will go down
00:10:15.630 00:10:15.640 any more than this
00:10:21.740 00:10:21.750 now I'm heating a substantial America
00:10:25.360 00:10:25.370 still it's very warm very very warm to
00:10:28.309 00:10:28.319 the touch it would be very conducive to
00:10:31.910 00:10:31.920 the waste of a burning process I didn't
00:10:36.079 00:10:36.089 spend a dime on this by the way this is
00:10:38.600 00:10:38.610 all stuff I had already a little worried
00:10:45.110 00:10:45.120 about my electrode setup it wasn't
00:10:47.629 00:10:47.639 cooking like that earlier the glass is
00:10:50.780 00:10:50.790 just touching the inner coil I regret
00:10:54.590 00:10:54.600 not painting that copper tube to reduce
00:10:58.970 00:10:58.980 the reflection rate I would imagine a
00:11:01.670 00:11:01.680 lot of the infrared radiation is getting
00:11:03.170 00:11:03.180 reflected from that shiny copper but you
00:11:06.379 00:11:06.389 never know steadily getting Cotter
00:11:13.790 00:11:13.800 nope I can get a
00:11:17.260 00:11:17.270 well basically 72 degrees on the input
00:11:19.750 00:11:19.760 oil
00:11:23.660 00:11:23.670 seems to be stabilizing 154 degrees
00:11:39.450 00:11:39.460 there's just two meet
00:11:43.890 00:11:43.900 I was trying to think of a way I could
00:11:45.630 00:11:45.640 do this and just don't know me man the
00:11:48.600 00:11:48.610 lightbulb would be awesome for this and
00:11:51.480 00:11:51.490 I have to 500 watt halogen bulbs doing
00:11:53.970 00:11:53.980 nothing coming up on three minutes and
00:11:57.480 00:11:57.490 we're halfway there so you know oh god
00:11:59.850 00:11:59.860 we might be right around four liters per
00:12:02.910 00:12:02.920 minute here with this needle valve
00:12:05.750 00:12:05.760 oriented just as we see here I don't
00:12:11.940 00:12:11.950 know how many turns out that is I'm
00:12:15.240 00:12:15.250 afraid to touch it oh okay
00:12:21.790 00:12:21.800 so that right there is looking like real
00:12:24.220 00:12:24.230 close to four liters per minute worth to
00:12:27.879 00:12:27.889 160 degrees on that discharge something
00:12:30.340 00:12:30.350 sir
00:12:31.710 00:12:31.720 now tried to build this in a high flow
00:12:35.530 00:12:35.540 configuration so that it didn't and give
00:12:40.119 00:12:40.129 it the siphon so it should be able to
00:12:43.479 00:12:43.489 work with a siphon just fine without a
00:12:45.369 00:12:45.379 pivoting flow big-time I mean there's a
00:12:47.229 00:12:47.239 little bit of 12 existence but weird
00:12:53.229 00:12:53.239 about four minutes coming up on three
00:12:57.369 00:12:57.379 hundred milliliter and it seems to be
00:13:02.710 00:13:02.720 stabilizing here and it is very very hot
00:13:07.689 00:13:07.699 to the touch like screaming hot to the
00:13:09.789 00:13:09.799 00:13:10.059 00:13:10.069 I hope the JB will holds on my terminals
00:13:13.600 00:13:13.610 it could fail at any moment like I said
00:13:16.359 00:13:16.369 guys this is just a test apparatus to
00:13:18.429 00:13:18.439 determine the plausibility of the
00:13:19.869 00:13:19.879 concept if it wasn't able to produce
00:13:21.519 00:13:21.529 good temperatures I wasn't gonna bother
00:13:24.340 00:13:24.350 them this is totally worth doing you
00:13:28.269 00:13:28.279 know an extensive build this alone took
00:13:30.280 00:13:30.290 me all night
00:13:30.879 00:13:30.889 this cobbled together crap it took me
00:13:35.799 00:13:35.809 about six main hours you know you got to
00:13:39.249 00:13:39.259 find all the pieces you got to think
00:13:40.569 00:13:40.579 about how you're gonna do it you know
00:13:42.100 00:13:42.110 there was a lot of thought took the few
00:13:45.850 00:13:45.860 breaks
00:13:51.139 00:13:51.149 I need my brakes man they use them
00:13:54.410 00:13:54.420 wisely so I think we've seen enough get
00:14:00.739 00:14:00.749 this 150 degree crap I'm gonna turn this
00:14:03.439 00:14:03.449 thing up to a hundred watts and let's
00:14:05.989 00:14:05.999 observe the temperature output that rate
00:14:15.390 00:14:15.400 obviously gonna get brighter of course
00:14:18.020 00:14:18.030 we're gonna leave it right there it's
00:14:21.900 00:14:21.910 probably just gonna jump fall over
00:14:23.960 00:14:23.970 definitely lifting the brighter is so
00:14:29.160 00:14:29.170 freakin cool it's not often I tickle
00:14:33.690 00:14:33.700 myself but the coolest thing about this
00:14:37.650 00:14:37.660 is this is gonna work so great on my
00:14:40.770 00:14:40.780 steam degreaser tool that I'm building
00:14:42.630 00:14:42.640 if you guys have seen any of my steam
00:14:44.940 00:14:44.950 tools or my propane torch stain coil
00:14:50.570 00:14:50.580 this thing is going to be so awesome for
00:14:53.070 00:14:53.080 a free eater I'll be able to preheat the
00:14:55.470 00:14:55.480 water to 200 degrees and barely put any
00:14:59.250 00:14:59.260 propane flame on and it's been a blast
00:15:01.560 00:15:01.570 steam okay hunter watts is do one
00:15:05.010 00:15:05.020 hundred and sixty-five degrees but it
00:15:08.700 00:15:08.710 may get hotter than that we haven't
00:15:10.050 00:15:10.060 stabilized out this is definitely a hot
00:15:13.080 00:15:13.090 buck of wool it's like getting right up
00:15:16.040 00:15:16.050 okay we're coming up on seven minutes
00:15:18.300 00:15:18.310 here we're at 400 milliliters there's
00:15:22.440 00:15:22.450 seven minutes right there guys so it
00:15:25.740 00:15:25.750 appears
00:15:28.579 00:15:28.589 we know next time to start the test I'd
00:15:31.040 00:15:31.050 leave it at this a test
00:15:32.210 00:15:32.220 I did some gem one around to gauge
00:15:33.920 00:15:33.930 fiddling so you're real close to a four
00:15:38.689 00:15:38.699 liter for our bond it looks like I need
00:15:42.920 00:15:42.930 to turn it up just it here to reach that
00:15:46.400 00:15:46.410 mark so we're gonna say we'll try that
00:15:52.670 00:15:52.680 what's right five degrees there's
00:15:57.860 00:15:57.870 probably a little more than five degrees
00:15:58.970 00:15:58.980 but we're gonna try five degrees off the
00:16:03.799 00:16:03.809 temperature is gonna be altered now that
00:16:07.369 00:16:07.379 we change the flow rate
00:16:11.639 00:16:11.649 I want ahead the solder descends off
00:16:13.499 00:16:13.509 because the leak would mean catastrophe
00:16:16.139 00:16:16.149 Hitler totally destroy the rig so those
00:16:19.920 00:16:19.930 I started those off anyway
00:16:21.600 00:16:21.610 we've talked about this they have a
00:16:23.519 00:16:23.529 little worried about that bad when we
00:16:24.720 00:16:24.730 can all be but so far so good
00:16:26.759 00:16:26.769 it's not under a lot of pressure however
00:16:30.509 00:16:30.519 I don't know how I trust this on a
00:16:31.559 00:16:31.569 pressurized system
00:16:36.040 00:16:36.050 okay
00:16:37.980 00:16:37.990 bird eight minutes we're coming up on
00:16:39.750 00:16:39.760 the 500 milliliters March
00:16:48.410 00:16:48.420 shoot pressure that view this say they
00:16:50.420 00:16:50.430 don't want to do turn it off
00:16:55.240 00:16:55.250 vishuddhi will fall down
00:17:02.470 00:17:02.480 I'm gonna move in a pot they can handle
00:17:04.899 00:17:04.909 the heat and we're gonna see what this
00:17:14.710 00:17:14.720 thing to do you're gonna go back to the
00:17:18.990 00:17:19.000 five degrees location which should give
00:17:24.039 00:17:24.049 us right about the operating range we're
00:17:26.169 00:17:26.179 gonna be running that turn on the triac
00:17:31.529 00:17:31.539 sometimes you got to jump
00:17:34.230 00:17:34.240 didn't one just fire right up on low
00:17:37.190 00:17:37.200 let's do a hundred and fifty screaming
00:17:40.289 00:17:40.299 watts here just get this show on the
00:17:41.909 00:17:41.919 road guys
00:17:48.500 00:17:48.510 get that's pretty close
00:17:52.530 00:17:52.540 not super bright then again I've got
00:17:56.010 00:17:56.020 some serious lighting going on in this
00:17:57.930 00:17:57.940 place
00:17:58.560 00:17:58.570 I actually turn to Allah for you wanted
00:18:05.310 00:18:05.320 to get the effect that the illumination
00:18:07.130 00:18:07.140 to show don't see any bubbling come out
00:18:12.210 00:18:12.220 but I am starting to see little bubbles
00:18:13.500 00:18:13.510 actually take that back we risk roasting
00:18:16.680 00:18:16.690 the oil in there it's gonna take some
00:18:22.200 00:18:22.210 time to eat up to
00:18:33.160 00:18:33.170 terminal area is fairly decent
00:18:38.950 00:18:38.960 I'm kind of stuck here
00:18:46.080 00:18:46.090 I'm getting some boiling inside the unit
00:18:48.330 00:18:48.340 I think guys
00:18:57.780 00:18:57.790 definitely really hot
00:19:01.080 00:19:01.090 yeah it's boiling inside the unit
00:19:09.090 00:19:09.100 should be
00:19:11.959 00:19:11.969 it's 305 degree flashpoint but something
00:19:15.589 00:19:15.599 is obviously going on
00:19:16.789 00:19:16.799 I couldn't just be out of oil it might
00:19:20.809 00:19:20.819 be about running low I don't know how
00:19:22.039 00:19:22.049 much was in this thing and just
00:19:25.430 00:19:25.440 fly-by-night right now something's
00:19:28.699 00:19:28.709 happening
00:19:34.440 00:19:34.450 we're about 147 watts
00:19:39.560 00:19:39.570 some kind of POD they're going which is
00:19:41.840 00:19:41.850 indicating to me that that interior tube
00:19:44.660 00:19:44.670 is getting so hot that we're getting
00:19:46.370 00:19:46.380 some gaseous oil
00:19:52.710 00:19:52.720 now if I ever did do a really nice build
00:19:54.989 00:19:54.999 on one of these I would make it where
00:19:56.219 00:19:56.229 you can take the park cleaning that's
00:19:59.339 00:19:59.349 important
00:20:02.920 00:20:02.930 it smells like wool
00:20:05.440 00:20:05.450 it's not you know extravagantly hot
00:20:07.960 00:20:07.970 though or about them
00:20:13.239 00:20:13.249 I'm inclined to turn it up I don't know
00:20:16.749 00:20:16.759 what all this gargling business is about
00:20:20.070 00:20:20.080 it's definitely super hot the touch okay
00:20:24.729 00:20:24.739 we're going 200 watts fellas I got stuff
00:20:30.909 00:20:30.919 to do today I need that time to be
00:20:32.229 00:20:32.239 hanging around this is gonna get a
00:20:36.190 00:20:36.200 little Wilder
00:20:37.089 00:20:37.099 this is where things can go bad
00:20:42.150 00:20:42.160 it's definitely bright and it definitely
00:20:45.419 00:20:45.429 appears to be boiling oil or something
00:20:50.340 00:20:50.350 they're certainly gonna tempt getting a
00:20:52.259 00:20:52.269 temperature increase
00:20:57.420 00:20:57.430 this is good here this is really good
00:21:05.210 00:21:05.220 what do you think guys is there some
00:21:07.399 00:21:07.409 boiling going on in there because that
00:21:10.430 00:21:10.440 roads at 190 don't mean we're not
00:21:12.380 00:21:12.390 actually going to degrees right with a
00:21:13.940 00:21:13.950 light bulb that something weird is going
00:21:17.029 00:21:17.039 on with that
00:21:23.299 00:21:23.309 surface area may be too small for the
00:21:25.789 00:21:25.799 amount of heat we're injecting into this
00:21:27.409 00:21:27.419 area which is causing localized boiling
00:21:30.019 00:21:30.029 which is surely going to carburizing eat
00:21:32.570 00:21:32.580 it up concern about that I can feel the
00:21:39.680 00:21:39.690 heat coming off of this little sucker
00:21:44.840 00:21:44.850 so as far as using it for an inline here
00:21:47.800 00:21:47.810 or a preheat on my steam cleaner this is
00:21:53.930 00:21:53.940 definitely going to do the job very well
00:21:58.670 00:21:58.680 so with 200 watts we have preheated our
00:22:02.900 00:22:02.910 oil to 194 degrees Fahrenheit which as a
00:22:09.710 00:22:09.720 result I appeared to be observing some
00:22:15.440 00:22:15.450 boiling going on inside there
00:22:19.060 00:22:19.070 that's definitely boiling guys and I'm
00:22:20.980 00:22:20.990 gonna prove it I'm gonna shut it off the
00:22:24.520 00:22:24.530 system is now off we were a hundred
00:22:26.140 00:22:26.150 ninety nine greens on you thermocouple
00:22:28.660 00:22:28.670 probe validated by the infrared gun and
00:22:36.760 00:22:36.770 we should see that dribbling stop here a
00:22:38.920 00:22:38.930 minute we should cool off the pairs of
00:22:43.000 00:22:43.010 made
00:22:45.060 00:22:45.070 there could also be some debris clogging
00:22:48.419 00:22:48.429 up in there
00:23:05.390 00:23:05.400 still fairly hot
00:23:07.730 00:23:07.740 temperature's going down very quickly
00:23:12.190 00:23:12.200 and as you can see the erratic behavior
00:23:16.360 00:23:16.370 is ceased so
00:23:23.310 00:23:23.320 there may be some gas that was oiled out
00:23:25.950 00:23:25.960 still trapped in there may be some
00:23:29.580 00:23:29.590 dissolved gases some dissolved gasoline
00:23:32.930 00:23:32.940 that's another thing guys this oil has
00:23:35.520 00:23:35.530 gas leaving that some of it did and I
00:23:37.440 00:23:37.450 don't remember which batch so we may
00:23:40.080 00:23:40.090 have just boiled off some gasoline in
00:23:42.120 00:23:42.130 there that's another possibility we
00:23:44.610 00:23:44.620 won't even remember so from what I can
00:23:49.650 00:23:49.660 tell we were in fact observing boiling
00:23:53.850 00:23:53.860 but as I said it could just be from the
00:23:55.650 00:23:55.660 gasoline completely cool to the touch
00:24:05.810 00:24:05.820 and we're going to end this experiment
00:24:08.710 00:24:08.720 which I would be an extreme success in a
00:24:13.669 00:24:13.679 while since I could say that things
00:24:16.969 00:24:16.979 worked out very well fellas we were able
00:24:19.279 00:24:19.289 to keep that oil up we're at 200 watts
00:24:22.729 00:24:22.739 we got it up to 200 degrees ironically
00:24:26.259 00:24:26.269 at the flow rate we're going a pretty
00:24:29.149 00:24:29.159 strange correlation there but we can go
00:24:32.989 00:24:32.999 up to 500 watts however I did not
00:24:34.820 00:24:34.830 believe this rig is robust enough to
00:24:36.799 00:24:36.809 handle that these terminals will die if
00:24:40.009 00:24:40.019 I knew that but don't put me past I'll
00:24:46.070 00:24:46.080 turn that sucker up for 600 watts
00:24:49.690 00:24:49.700 shut this off new
00:24:53.529 00:24:53.539 one of the things I need to do I just
00:24:55.840 00:24:55.850 wanted to show you guys what I'm working
00:24:57.399 00:24:57.409 on here cuz it's so frickin cool that uh
00:25:00.340 00:25:00.350 I thought I'd give you a little preview
00:25:03.090 00:25:03.100 I'm going to calibrate this pump and
00:25:06.539 00:25:06.549 figure out certain flow rates will just
00:25:10.810 00:25:10.820 use 60 psi as a benchmark 60 psi is a
00:25:13.509 00:25:13.519 good tank pressure it gives you lots of
00:25:15.879 00:25:15.889 flow without too much pump activity the
00:25:18.789 00:25:18.799 reservoir for that test you're gonna be
00:25:22.570 00:25:22.580 careful turning this
00:25:26.550 00:25:26.560 see what we're at there and that use
00:25:31.040 00:25:31.050 probably nowhere for that test to pump
00:25:33.930 00:25:33.940 that much oil and now you've got to tell
00:25:37.560 00:25:37.570 you man I'm liking this thing however
00:25:39.350 00:25:39.360 we're seeing a problem the surface area
00:25:43.080 00:25:43.090 of the heater is too small too much
00:25:47.220 00:25:47.230 energy it's being introduced into the
00:25:49.170 00:25:49.180 system and too small of an area now when
00:25:50.910 00:25:50.920 I put this together I thought to myself
00:25:53.300 00:25:53.310 you need to put heating fins on that
00:25:58.110 00:25:58.120 interior too and I even got the piece of
00:26:00.600 00:26:00.610 metal out to do it but that's half
00:26:03.510 00:26:03.520 myself out of it I decided to run the
00:26:05.730 00:26:05.740 test to see it would be okay without him
00:26:08.400 00:26:08.410 now and regretting it because it appears
00:26:10.200 00:26:10.210 that indeed if you go to build one of
00:26:12.780 00:26:12.790 these you definitely want to increase
00:26:14.850 00:26:14.860 the surface area of that interior
00:26:16.590 00:26:16.600 heating element that inner copper -
00:26:20.690 00:26:20.700 definitely going to want to put some
00:26:22.230 00:26:22.240 cooling fins on that I regret not doing
00:26:24.540 00:26:24.550 it but I didn't want to over build it
00:26:26.780 00:26:26.790 you know there could have been a chance
00:26:28.890 00:26:28.900 that this wasn't enough heat to do the
00:26:30.510 00:26:30.520 job and then here I place it all
00:26:33.080 00:26:33.090 time so the concept was a success
00:26:37.640 00:26:37.650 screaming successful definitely liking
00:26:39.500 00:26:39.510 this this thing is gonna have a couple
00:26:42.290 00:26:42.300 uses for me and will definitely improve
00:26:45.260 00:26:45.270 any siphon nozzle that I'm building this
00:26:48.470 00:26:48.480 thing will make anything work you heat
00:26:50.390 00:26:50.400 oil up at 300 degrees and it'll burn in
00:26:53.330 00:26:53.340 a bucket so it's gonna make things
00:26:56.300 00:26:56.310 easier definitely an easy build this is
00:27:00.740 00:27:00.750 something just about anyone can do if
00:27:03.920 00:27:03.930 you were paid for all these parts
00:27:06.550 00:27:06.560 probably looked at about $45 worth of
00:27:09.080 00:27:09.090 stuff there maybe the thermocouple was
00:27:11.810 00:27:11.820 14 you know fitting for five hours
00:27:13.910 00:27:13.920 apiece some wiring Springs and all that
00:27:17.810 00:27:17.820 in this book it was free for me

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