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V2 Blizzard25 Goblin V2 (#19) - 2015 Golf GTI 2.0T DSG

Not certain fom the photos or your description and don't want this to sound condescending, but the black 'head' on the engine stand is designed to come out of the red rotation head piece on its frame to bolt onto the engine first, then slide this back into the stand. Sorry if this is the way you did it, but maybe I missed your meaning stating you had to lift the engine stand to mount it. This seems confusing, as I don't recall ever having to lift an engine stand previously to mount an engine to it.

BTW, like your nice and shiney HF crane and engine stand.

No you're good, I often do incredibly stupid things the more difficult way so talk to me however you want lol in this instance i did connect the stand head first and attempt to do it on the ground, but the HF load leveler doesn't let you adjust level in the air very easily so I got tired of lowering it to the ground, re-levelling, and raising it again. Finally had an "F it" moment and just put the head on the stand, lifted the entire stand up and set it back down. Intended way? No. If it works though....
 
I can understand your frustration. Weird that the leveler will not adjust under load???

If it had a proper handle it would, but for some reason HF opted with a plastic screw on POS that feels like it's going to break off if you put any sort of force on it. Screw on something beefier any it'd be fine, I just didn't have anything available
 
Engine accessories are mostly stripped except for the turbo and water pump, I finally broke a bolt after making it this entire time without breaking one on the turbo support bracket, so I'll have to borrow a welder from someone and get a nut welded on to get it off. Not in a rush though. Got the engine harness off and prepped to strip the original tape for a re-wrap, looks like VW is just using a simple cloth tesa tape so that's something I don't have to order at least, got plenty of that at home. More parts on order for both maintenance and stupid reasons:

New OEM upper timing cover+gasket+single use bolts, saw a bit of oil leakage around the area so might as well do some preventative maintenance
034 billet rear main seal, originally was not in the plan but I AM AN IDIOT and in sticking the pry bars through the trans trying to get it off, i damaged the RMS. So...let's say I was gonna do this anyway for my own ego.
LPFP lock ring, the fuel pump assembly came out fine, but the rusty lock ring didn't even attempt to come off normally. It shattered. Rust belt for the win.
PRW SAI block off plate

I'm kind of toying with the idea of DIY anodizing the valve cover a blue-ish tint but I haven't settled on it yet, I've done it on smaller parts before but the results have been all over the place.
 
I like the look of freshly anodized parts, but all the anodized bling I have owned, fades under UV light... it only lasts a few years. Garage kept motorcycles and some goblin parts... only exposed to sunlight when in use, but still it fades.
 
After hours and hours and hours with the wire brush and degreaser, finally made it to the derusting point. Doing one side at a time, soaking a bunch of shop towels in evapo-rust, wrapping it up with saran wrap to keep it from evaporating too quickly and then leaving it a day or two. Hopefully that will be enough to hit it with the wire brush one more time and be good enough for a coat of primer. The more exposed stuff i was able to get pretty well with just brush/degreaser, but these bottom sections are so crusty i had to soak it with something.
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Before Evaporust:

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After Evaporust:

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I think that's about as good as i could have hoped for. It doesn't have to look good, it just has to be prepped for paint. Some little nooks i need to clean up but overall I think it did pretty well. Excuse me if I'm sounding like an infomercial I just appreciate the amount of work that it saved me.

The delete bracket, new idler pulley and belt got in so i did a really quick test fit up to see how it looked. Delete bracket fits great, I need some bolts that are the proper size since i couldn't bolt it in all the way, but I can't complain about anything.

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I was really hoping with all the other weird issues I was going to be spared from having to buy a water pump. I should have known better. It's the most common issue, I already mentally prepared for it, but man it would have been nice to have turned this thing over and not seen a bunch of coolant crust.

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More maintenance night, decided to attack the intake valves and do a valve cleaning. I meant to do this earlier in the week, but I got a bit distracted by some fun parts that came (more on that soon). For 106k engine and based on the rest of the car I know the previous owner didn't take car of this thing well at all, it really wasn't that bad, but I wanted to at least get some of the carbon removed. A Liqui Moly valve clean soak, some zipties in a drill, followed by a couple hours of manually scraping, and it's about as good as I'm going to get it.

I also realized I didn't have anything to vacuum out the carbon, so I figured a little bit of duct tape and a fuel hose on a shop vac would do the trick. And it absolutely did. Pics if you want to follow this 10/10 difficulty DIY.

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Before:

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After:

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Walnut blasting would have done better, but it's good enough.
 
This one is going to be a long and unnecessary update. But it was still fun. If you're reading this, wondering what things you'll need to do for your Goblin to prepare....this one isn't it.

First, aesthetic stuff. I had some heavily corroded/rusted bolts. So after some thinking, I decided to strip the zinc coating off with a nice muriatic acid bath and give the more visual bolts a cold bluing metal treatment. For this I used Birchwood Casey Super Blue, heated up all the stripped bolts in the oven to about 180 degrees, then gave them all 5 coats of the BC metal treatment. FYI this is less resistive by far to rust than the original zinc, but if the bolt is already going bad, why not. I have titanium bolts on back up, but I like the DIY path better. This is also the only thing so far I've gotten to do with my son, who is about to turn 3. He couldn't stop touching the bolts during the process so some of them are smeared, but they're bolts so who cares, those are just memories going in the engine.

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My new water pump also got in. You'd think that's where this post should stop, but no. Spent the better part of 5 hours disassembling and reverse engineering the old part. So much to go through.

Opened up the backside of the thermostat. Immediately you're met with a simple DC motor, a worm gear, and a regular circular gear that has what looked like a black cap on the end of the shaft. The part number for the DC motor is 32ZYT010 if you're curious.

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The DC motor is held in by a simple retaining ring near the bolt hole that you can pop out with a screw driver, then it just lifts out. Once that's out, the worm gear has a little lip on the edge that lets you lift it up and off the rails. Take the black cap off the shaft and you're met with a "half moon" metal piece on the end. We'll talk about that in a second.

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To remove the main gear, there's a retaining clip underneath. Unfortunately the area was too tight to get a photo of it. For all the talk of how complicated the thermostat housing is on the MK7, it's really not. The internal shaft is basically just one rotating cylinder with holes in it for valves, the only thing that makes it "complicated" is the fact it has a PCB. Oh wait, we haven't talked about that yet.

On the cover you removed, flip it over and you'll see a PCB that's held in through plastic pins and solder through holes. If you don't have a solder rework station, don't even try this unless you don't care to damage the PCB. You can either clip or solder off the plastic pins (two large shafts on the board and metal strip, then 5 very small plastic pins on the rest of the board. Sorry my photo taking ability is garbage but i circled them.

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The PCB is also held down through 3 sets of through hole connectors, 2 that surround the metal strip and the 5 pins that go to the external connector. You'll need an SMD rework gun, simple desoldering won't work here, the copper transfers the heat too quickly. Otherwise you can try just snipping but i'm pretty sure you'll damage it that way.

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The board is off, this is the fun bit. If we zoom in close on the MCU we can see it's a 16 pin with some ID numbers and the best part of all....a LOGO. It's the logo for Freescale! Finding the MCU should as simple as starting the search "Freescale SG16". So I'll save you the hassle, the chip your thermostat has on it is an NXP (formerly Freescale) HCS08, 8 bit MCU. If you'd like to get fully technical, the product is:

Freescale SG16 family MCU
S-small pin count package series
W-Lead free (almost everything is lead free now, doesn't tell us much)/RoHS
T-Automotive temperature grade variant
G-RoHS compliant finish (also doesn't tell us much)

The MCU has 16kb of flash, 1kb RAM, no EEPROM, internal RC oscillator, 10 bit ADC, motor PWM control, LIN and SCI. A rough guess of the pinout

VDD - 5V supply
VSS - Ground
RESET - Reset
PTA0- LIN RX/TX
PTA1- Motor PWM A
PTA2- Motor PWM B
ADC0- Encoder wiper
ADC1- Motor current sense
GPIO- configuration/programming?
BDM-debug?

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The top right circular area is a resistive position encoder ring (normally called a contact potentiometric encoder). Underneath the black center cap on the main shaft gear, remember that half moon piece of metal? This circles around the ring as the gear rotates and reads variable resistance based on the position of the half moon piece. The metal strip on the left is a spring wiper contact arm. This is for shaft angle. The rest of the board is a DC controller for the motor.

And now hopefully the demystifies somewhat your water pump/thermostat. Does this help you at all, probably not. Hopefully you learned something.
 
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I didn't know that an electric thermostat existed.
Interesting... but I missed the Why. Why did you spend 5 hours reverse engineering the thermostat?
Congrats on including your son's fingerprints into your build. Gotta start learning cars sometime.
 
I didn't know that an electric thermostat existed.
Interesting... but I missed the Why. Why did you spend 5 hours reverse engineering the thermostat?
Congrats on including your son's fingerprints into your build. Gotta start learning cars sometime.

Why is a good question. One which requires a good answer.

Unfortunately I don't have one. It started with opening the pump up because i was curious what was inside. Then 5 hours had passed.
 
the thermostats are neat but typical german over engineering lol. For example it routs heat from the exhaust manifold to warm up coolant quickly after start. the water pump can continue to run after the engine is shut off-- helping cool the turbo and stuff like that. Neat, but clearly they have a history if failing often. I had to replace mine in my S3 at around 60k miles.
 
I quit BS-ing around with the water pump (not really) but got back to derusting the block, and I think i'm about done. If i combined all the work so far on the block, I'm hitting on maybe 10 hours of chemical work, scraping and sanding to get the rust off and block prepped. And it's almost completely gone now. I would have much rather just gotten a block that wasn't a rusted turd pile but there's been something oddly satisfying about this "restoration" process. I still need to order primer and paint, but it's just going back to the OEM black color, I'm not going crazy with it.

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Oh and if anyone has a part number on this, i need to order a new one, mine is cracking and leaking a bit of oil. Rusted over so i can't see the PN
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All sides of the block have been rust removed. Getting some flash rust near the bolt holes but that comes off with an acetone wipe. No more rust bucket updates people, the next one will be restoration. Probably. One more before an after picture for good measure because i'm pretty proud of it.

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I could use some collective group help. These two turbo feed lines were pretty stuck, the fat one on the left i managed to get free, but the smaller one with the bends in it is now apparently critical to the structural integrity of the block (sarcasm). I broke the retaining tab free, and then the retaining tab just...broke. When I tell you this thing is stuck, it is NOT MOVING. It doesn't twist, bend, kinda jiggle a little bit, there is 0 give whatsoever. The steps I've tried so far, in this order:

Penetrating oil
Micro prybar underneath the tab hammered in
Propane torch to the surrounding block area
Vise grips
Vise grips with vise grips to twist
More heat and larger prybar (tab broke)
More penetrating oil
Small grinding wheel to see if i could make a little indent to pry up on
More heat, why not
Screwdriver, small ice pick, anything that might catch a grip in the metal
Kicked it a little bit

I'm out of ideas. Plan was to paint tomorrow so I'm just gonna go ahead and do that and paint over it, if it's stuck enough to resist all those things it's stuck enough to make a seal to mask the paint.

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What penetrating oil are you using?

It may not matter, seems how stuck it is, but you never know if a different one will work better. Kroil is my penetrating oil of choice, but have used PB Blaster and a few others with good results too.
 
Lonny helped me with a stuck plug in my block.
I learned it is really hard to heat a block... as it is a big heat sink. I switched from propane torch to an oxy-acetylene torch... Probably it was the rosebud torch tip that makes the difference, as it can deliver more heat.

Your block is iron... which won't be quite as bad of a heat sink, as aluminum moves heat about 4x faster than iron. Do you have one of those laser thermometers?
 
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