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Both ways are outside of most guys' comfort zone, really: there really isn't a bolt-in kit or a set formula to go either way. With the B20 you've got to build the motor and engineer a carbureted turbo system (don't even try to deal with a draw-through), and with a B230 you've got a ton of fabrication work. I think most people would find the B20 route easier but certainly costlier at first - once you factor in all the conversion pieces and sweat equity, I think you'd find it a wash.
I think the simplest way to do it is to use a B20 with the lowest factory compression ratio (which is 8.5:1 I believe?) and blow through a pair of carbs or a Weber downdraft kit (I have one of these to sell, by the way). Use the stock exhaust manifold and build a downpipe that mounts a turbo down low and back, about where the oil filter used to be, like Craig said earlier. Relocate the oil filter and feed the turbo off that. Blow the turbo up into a box that houses the carbs, tap into the box for boost-referenced fuel pressure regulation, get rid of the mechanical pump and install a cheapo electronic pump capable of 15 psi, and enrich and cool the system with water-meth injection if needed. If you need to rebuild a motor anyway start with a ’75 B20F and pray it’ll take a 92mm bore, install B21FT pistons and deck the block for tight squish. You should still end up with between 8.0 and 8.5:1 compression ratio but more displacement and knock resistance, and tougher pistons. It’s not going to be the most efficient or powerful system around, but it’ll work and won’t break the bank. The caveat being the available room for the turbo in your chosen engine compartment – in a 122 this is probably not an issue, not sure about a 544.
I’m guessing that installing any OHC motor into an early car requires a custom intake manifold or a B21A manifold. The EFI manifold puts the throttle body right into the inner fender / steering shaft, and the K-jet manifold’s plenum probably interferes with brakes. Either way you’ll have to convert the car to cable throttle control. There’s also mixing and matching accessory drives from 240 parts, the reduced clearance at the radiator necessitating an electric pusher fan, installing a B20 pan & pump, and the adaptation of a M41 behind an OHC motor which is particularly unique and challenging. Getting an M46 or T5 into a 544 is going to need a new transmission tunnel and the M46 isn’t meant to lay over at that angle anyway (not to mention the shifter will be hung at a goofy angle), while the T5 requires about $1000 in parts to get working (adapter kit, clutch, driveshaft, speedo cable). EFI requires high pressure fuel and a new return line, and doing the high pressure fuel properly means an in-tank pump or other fanciness in the fuel system, as most fuel pumps need positive head pressure. After all that, I’m still not sure that the OE turbo location will work with the front suspension. Quite a bit of this has probably been worked out by Tbrickers or insane Swedish people, but as always the result will only be as good as the effort put into the execution.
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