Not a truck. Not a GM. Supercharged & Nitrous BMW V8 T-bucket build.
Hey Guys, I want to share a few pics & details of my current project. After I sold my Carb'd Gen1 SBC swapped 2004 NBS RCSB I picked up a mid 90's BMW 5 series with a V8 & 6 spd manual trans. The BMW was my daily driver project for 4 years. I had really grown attached to the Euro DOHC V8 & manual platform but was never really sold on the boxy mid 90's sedan it came in. As far as 90's sedan it wasn't as bad as many, but still 90's nerdy.
I had started putting together the 5 series next heart transplant and then decided to go left at Albuquerque and build an entirely different car around the drivetrain. An old school inspired type hot rod that I've wanted since I was a kid. A T-Bucket. In my defense T-bucket guys do put tiny truck beds on them, so it's kind of a truck...? These days my daily is a '09 Sierra 5.3L/4L60E, Tuned speed density converted GM E38 PCM, borla exhaust and minor appearance mods. Not going off the deep end on that truck...for now. Back to the bucket, lets start with the engine: Late 90's BMW 4.4L V8 short block, shown here with RaceWare head studs. This version of the 4.4L engine is called "non-vanos" it's a two year run just before BMW introduced variable cam timing in the V8's. The variable cam version of this engine has valve reliefs in the pistons. https://preview.ibb.co/cQ7bSm/2017-11-25-14-03-25.jpg Also, a dismantler take out early 90's 4.0L V8 from a 7 series. This engine will sacrifice it's heads, cams, timing set up, timing covers & OBD1 front mount crank sensor & damper 60-2 crank trigger wheel. It is claimed that the earlier 4.0L v8 have slightly bigger valves & bigger cams then the native 4.4L variants. I can not confirm this as I didn't get my hands on a set of 4.4L heads & cams https://preview.ibb.co/btQWrG/2017-10-05-07-14-45.jpg https://preview.ibb.co/c884vb/2017-10-08-15-56-24.jpg Measuring the 4.4L piston height above deck. I was getting a different reading depending where on the piston I measured and found that they were slightly dished https://preview.ibb.co/iiWeqG/2017-12-03-12-15-34.jpg https://preview.ibb.co/hVcKqG/2017-12-03-12-15-05.jpg Earlier 4.0L heads back from the machine shop: https://preview.ibb.co/inYRCH/2018-04-10-17-32-24.jpg https://preview.ibb.co/fWawgc/2018-04-11-18-08-51.jpg Measured roughly 52cc of volume in each chamber: https://preview.ibb.co/bsVfeH/2018-04-23-12-55-30.jpg The readily available MLS head gasket for the application comes in a 1.74mm compressed thickness. By my calc this lands static compression at 9.6:1, in stock trim they are 10:1. Out of curiosity I measured the earlier 4.0L piston height @TDC and found a +.035" with a flat top (non dished) piston. I believe the 4.4L to be taller deck then the 4.0L allowing the 4.4L piston height to be .010" lower then the earlier 4.0L, this along with cylinder volume explains the static compression difference. Heads on and adapters for the belt driven intake manifold. https://preview.ibb.co/kVudYc/2018-04-23-12-56-20.jpg The earlier 4.0L engine uses a double row timing chain and a gear idler in the center, the native 4.4L uses a single row chain and a plastic U-guide in the middle that always shatters causing engine failure. The earlier 4.0L double chain, idler & guides are a bolt on to the 4.4L block but it 's a tight fit due to deck height differences. https://preview.ibb.co/dbKHTc/2018-04-24-12-13-39.jpg The belt driven intake manifold is an Eaton M112 from a late 90's Jaguar. The Jag 4.0L V8 and BMW V8 share no similarities except for cylinder spacing. The adapters on the BMW heads allow the Jaguar supercharger, water-to-air intercoolers and injection manifolds to bolt down. https://preview.ibb.co/gaXD8y/2018-05-16-16-37-50.jpg Dialing in cam timing: https://preview.ibb.co/eEDLFy/2018-05-29-21-40-59.jpg https://preview.ibb.co/m3Uuay/2018-05-29-21-44-15.jpg https://preview.ibb.co/cDPo2d/2018-05-29-21-43-38.jpg https://preview.ibb.co/gKBU8J/2018-05-29-21-43-07.jpg Using aftermarket cam alignment tools the valve timing events landed at: @.1mm lift: Intake opens 12° BTDC / Intake closes 48° ABDC Exhaust opens 48° ABDC / Exhaust closes 12° ATDC 240°/240° duration -108° intake centerline / 108° lobe separation @1mm lift: Intake opens 2° ATDC / Intake closes 33° ABDC Exhaust opens 33° BBDC / Exhaust closes 7° BTDC 211°/206° Duration - 107.5° Intake centerline / 108.75° lobe separation When it was all said and done I set up the cams for a 112° ICL and a 110° LSA, retarding the intake cams a bit to lower dynamic compression and aid in keeping the charge in the cylinder by reducing overlap. Modifying the supercharger to bolt down to it's new home: https://preview.ibb.co/cq4Xho/2018-06-09-20-00-14.jpg https://preview.ibb.co/jDOSL8/2018-06-11-15-11-57.jpg https://preview.ibb.co/kMK4v8/2018-06-09-19-09-32.jpg Pullin off, flipping around and pressing back on the drive pulley allows for belt alignment to the BMW accessories https://preview.ibb.co/dyP4v8/2018-06-09-19-04-25.jpg |
looks cool man
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https://preview.ibb.co/bDHKDA/2018-10-27-11-19-34.jpg
https://preview.ibb.co/iJCaLq/2018-10-27-16-29-31.jpg Went goofy on the headlight mounting, headlight buckets turn with the front wheels: https://preview.ibb.co/iW1kSq/2018-11-06-17-51-50.jpg https://preview.ibb.co/gKDM0A/2018-11-06-17-52-28.jpg https://preview.ibb.co/n3aC7q/2018-11-06-17-53-09.jpg https://preview.ibb.co/bSxi0V/2018-11-22-12-49-47.jpg https://preview.ibb.co/ffAmLV/2018-11-22-12-51-47.jpg https://preview.ibb.co/h2n0fV/2018-11-22-12-57-37.jpg https://preview.ibb.co/nyEVfV/2018-11-22-12-58-13.jpg https://i.ibb.co/mJtchPw/2018-11-30-10-46-10.jpg https://i.ibb.co/fvNTS4V/2018-12-07-11-51-43.jpg https://i.ibb.co/X7gwjqK/2018-12-07-11-33-18.jpg https://i.ibb.co/NnSNpRp/2018-12-07-11-27-25.jpg https://i.ibb.co/25xKVDg/2018-12-07-11-28-24.jpg And that is where I'm currently at, a big pile of parts all in mock up with nothing bolted down. I wanted to get a general idea of layout, spacing and proportion and now I feel I can start making things permanent. Starting from the rear end and working my way forward tackling one piece of the puzzle at a time. My goal is to have it running and driving by the end of 2019. Then have it inspected, registered, legal and tuned well enough to take it on a road trip from where I live in Arizona to Los Angeles, join the Hwy1 in Santa Monica and cruise the 1 (where it's possible to stay on Hwy 1) all the way north to where I grew up in San Francisco. https://i.ibb.co/cCX8DtC/2018-11-30-10-31-24.jpg Thanks for checking out my project, be sure to look out for updates. |
Thats super cool! I am all for mixing companies and parts! When do you expect to have it on the road?
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Originally Posted by arthursc2
(Post 5453752)
Thats super cool! I am all for mixing companies and parts! When do you expect to have it on the road?
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Do you plan on building your own harness?
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Originally Posted by bottledls6
(Post 5453755)
Do you plan on building your own harness?
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Very cool!
This thing will be a riot! The 112 is a good rotor pack for this combination. How are these engines with RPM? Retarding the intake cam was definitely a good idea... Hell, I would go even further! You could definitely get away with widening that LSA more to extend top end power and get a flatter torque curve if they can take a few more revs. I see peak horsepower of the 4.4 was only 5400 RPM. Do they make larger exhaust cams for this platform? I think they would go a long way... |
Originally Posted by Vortec350ss
(Post 5453758)
Very cool!
This thing will be a riot! The 112 is a good rotor pack for this combination. How are these engines with RPM? Retarding the intake cam was definitely a good idea... Hell, I would go even further! You could definitely get away with widening that LSA more to extend top end power and get a flatter torque curve if they can take a few more revs. I see peak horsepower of the 4.4 was only 5400 RPM. Do they make larger exhaust cams for this platform? I think they would go a long way... |
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