|
|
1949 Chevy Cooling System Install - Jus' Chillin'Ensuring The Purple Pig's Engine Stays Cool From the April, 2010 issue of Rod & Custom By Kev Elliot
|
|
As is almost always the case when fitting a larger engine than stock, the cooling system of the project '49 Chevy required upgrading to cope with the Smeding 383 that replaced the old 235ci inline-six. Luckily, a number of companies offer bolt-in radiators for such situations, and doubly lucky for me, U.S. Radiator had supplied one of their Desert Cooler triple flow radiators for our sister magazine, STREET RODDER's Road Tour Project '52 Chevy last year. Unfortunately for SRM, the use of an Art Morrison chassis meant this radiator did not fit, so it found a grateful home here at Rod & Custom for use in the Purple Pig! With the new U.S. Radiator... With the new U.S. Radiator mounted in the stock location, there was slightly over 2 inches between the core and the front of the water pump pulley. I required just over 4 inches to clear the fan motor I wanted to use and the depth of the shroud. The solution was to move the radiator forward; the problem being the top had to remain where it was or it would interfere with the hood. I decided to move the bottom of the radiator and mount it at an angle. Again, as is often the case, though the radiator is designed as a direct bolt-in replacement for the original, I found myself in familiar "two steps forward and one step back" territory. Sure it would bolt in, and left sufficient room for an engine-driven mechanical fan, but I wanted to use an electric fan; as I'm painfully aware of how often I sit in stationary traffic on the freeway. Additionally, the 2 5/8-inch-thick core of the new radiator, plus the addition of an A/C condenser mounted in front, meant I wanted to ensure sufficient air would flow through the radiator core. Not wanting to go to the trouble of moving the motor and trans mounts rearward-and anyway, it would only be able to move a 1/2 inch or so before the right head-to-firewall clearance would become virtually non-existent, and I wasn't about to alter the firewall-I opted to move the radiator forward to attain the necessary clearance. All well and good you might say, but the top radiator tank couldn't be moved forward as it would then hit the inner hood structure. The solution was to move the bottom of the radiator forward and mount it at an angle, which required a little fabrication and manipulation of the stock core support and surrounding sheetmetal. Once I'd figured out the easiest and neatest way to accomplish my goal, it took less than a day to make the changes. The mounting flange on the... The mounting flange on the radiator sits inside the core support, also bolted to sheetmetal, which supports the front fenders. To move the radiator forward at all would mean mounting it forward of the core support, or more specifically, through the support. Both the front edge of the support and the sheetmetal required trimming, as the side-to-side gap between them was less than the width of the lower radiator tank. Seeing as I was moving the radiator anyway, I discussed my fan requirements with the folks at SPAL USA, the manufacturer of choice for U.S. Radiator, and whose fans their shrouds are designed to accept. SPAL offers a range of electric fans with varying diameters, thicknesses, and airflow cfm ratings. While originally planning to use their 16-inch medium profile fan, rated at 1,610 cfm, as it would require minimal radiator relocation, it was decided that with the 383 motor, the core thickness, plus the A/C condenser, as well as the small grille area, this may not offer optimum airflow, and the high-performance 2,070-cfm fan would be more suitable. The same fan is available with 2,360 cfm, but with straight blades, and I opted for the curved blades, which are quieter. The drawback was the thickness of the fan and motor increased from 2 1/2 inches to just over 3 1/2 inches, meaning though I had the space, the A/C condenser would be very close to the hood latch panel support, with a 1/2 inch of clearance between the fan motor and the water pump pulley. Of course I could have moved the latch panel support too, but why make more work for myself? With the radiator, shroud, and fan mounted in their new location, my next problem was routing a top hose from the water neck on the intake manifold to the radiator top tank. Seeing as this would have to work its way around the alternator, rather than spend valuable time sourcing a hose at my local auto parts store, I called Speedway Motors for an adjustable 45-degree water neck, a 90-degree steel tube, and a couple lengths of suitable diameter silicone hose. Once the hoses are trimmed to length and the tube is painted, it'll look neater than a long rubber hose. The lower hose I'll source at the parts store, though that will be a regular GM part. Better get a radiator cap too, while I'm there!  The lower body panel behind...  The lower body panel behind the grille also had to be trimmed in order for the lower radiator tank to clear. Using a couple lengths of 2-inch masking tape ensured a straight cut, square with the edge.  This small lip on each side...  This small lip on each side of the core support was removed before...  ...each side was trimmed using...  ...each side was trimmed using a softpad on a 4-inch grinder. Again, masking tape was used to provide a guide. Approximately 3/16 of an inch was trimmed from each side to allow the radiator to pass through the gap.  Here's what it looked like...  Here's what it looked like after trimming. I covered the engine and suspension with a fire-retardant blanket, as well as covering the windshield glass. Sparks from a grinder will embed in glass and some aluminum. Plus it saves a bunch of unnecessary clean up!  With the radiator and A/C...  With the radiator and A/C condenser slid into place, I decided to mount them at the same angle as the hood latch panel support, then marked the top of each side of the core support to be cut and re-welded at the same angle (arrow).  With the core support sides...  With the core support sides cut and bent, but not yet welded, I was able to bolt the top of the radiator in place so that I could measure and fabricate brackets for the lower parts of the radiator mounting flanges.  Using cardboard templates,...  Using cardboard templates, I bent up these brackets from sheet steel, the same thickness as the core support.  Though not a complicated job,...  Though not a complicated job, moving the radiator involved repeated installation and removal, made harder owing to the fact that the core support mounts all the front sheetmetal! With the support in a vice I welded the new mounting brackets in place.  I also cut the support for...  I also cut the support for clearance around the lower radiator outlet tube, after marking its position while the support was still in the car, and welded in sheetmetal to retain some strength. Desert Cooler
U.S. Radiator has determined that core design and adequate airflow are the most important aspects for obtaining maximum coolant temperature drop from radiator inlet to outlet. By building internal walls in the radiator, as is the case with the Desert Cooler, the coolant is re-routed to pass through the radiator (top to bottom or side to side depending on design) three times, resulting in three separate exposures to temperature-dropping airflow, with little or no adverse flow restriction. The result is an average 15 percent reduction in radiator outlet temperatures. U.S. Radiator offers this unique flow design on all non-transmission cooler-equipped radiators in their extensive line of high-performance vehicle applications.  With the core support back...  With the core support back in the car, here's what it looked like before the radiator went back in ... again.  It'll have to come out again...  It'll have to come out again for paint, plus I have to repair and modify the inner fenders, which will entail stripping the entire front sheetmetal apart, but here's the radiator in for the "final" time.  From behind, you can see the...  From behind, you can see the core-pulley clearance is much improved. The top tank sits in its stock location, and nothing's too much modified from stock.  While the 1 3/4-inch outlet...  While the 1 3/4-inch outlet tube wasn't touching the core support, modifying it for clearance will ensure fitting and removal of the hose and clamp will be easy, and nothing will rub.  A call to Speedway Motors...  A call to Speedway Motors netted an expansion tank, a pivoting aluminum water neck with 45-degree outlet, a 90-degree 1 1/2-inch steel tube with bead at each end, and two 6-inch silicone hoses.  I also sourced the high-flow...  I also sourced the high-flow thermostat from Speedway Motors. You can see here how the water neck seals with a rubber O-ring rather than a regular gasket.  Though I have yet to add clamps,...  Though I have yet to add clamps, the 90-degree steel tube and silicone hoses make a neat top "hose" to clear the alternator. I'll cut the hoses to length so each clamp will be equidistant from the beads and the ends of the hoses, plus paint the steel tube.  As the filler neck on the...  As the filler neck on the radiator is on the right side, I mounted the expansion tank on this side too, using a couple of the unused brackets that RideTech supplied for the level sensor rods I fitted to the suspension!  SPAL offers a range of electric...  SPAL offers a range of electric fans for the aftermarket, as well as OEM, in varying diameters and profiles. While they offer a medium profile fan measuring 2 1/2 inches deep, I was concerned about airflow through the thick radiator and A/C condenser, so opted for the 16-inch high-performance fan (PN 30102082) with curved blades for reduced noise. SPAL also supplied a fan harness kit, including a thermal switch that will turn the fan on at 185 degrees and off at 165.  The 3/8-inch NPT thermal switch...  The 3/8-inch NPT thermal switch installs directly into the intake manifold, though a 1/2-inch adapter is also included.  The polished aluminum shroud...  The polished aluminum shroud was supplied by U.S. Radiator, the SPAL fan bolting right up. With nuts temporarily doing the job of spacing the radiator from its mounts, which will eventually be replaced with rubber to prevent the radiator side plates from cracking and coming away from the top and bottom tanks, there's approximately an 1/2-inch clearance between the fan motor and water pump pulley.  The fan harness includes a...  The fan harness includes a waterproof 10/40 amp relay and all necessary wiring (printed to ease installation), which I'll mount and connect when I wire the Chevy.  With the radiator relocated,...  With the radiator relocated, and the shroud and fan mounted, I'm one step closer to the road, though I do still have to buy a radiator cap and bottom hose.
|
|
|