Minimizing drag was a primary consideration throughout the design of the XF-12. Many features came from Republic's experience with fighter aircraft. Unusually, no compromises to the aerodynamics were made in the shape of its
fuselage.
Aviation Week was quoted as saying "the sharp nose and cylindrical cigar shape of the XF-12 fulfils a designer's dream of a no compromise design with aerodynamic considerations." For its reconnaissance role, the XF-12 had three photographic compartments aft of the wing. One vertical, one split vertical, and one
trimetrogon each using a
Fairchild K-17 camera. For night reconnaissance, the XF-12 had a belly hold which accommodated 18 high-intensity photo-flash bombs to be ejected over the target. All bays were equipped with electrically operated, inward retracting doors designed for minimum drag and camera lenses were electrically heated to prevent frost build-up. The XF-12 also carried complete darkroom facilities to permit developing and printing the film while still airborne augmented by adjustable storage racks to handle any size of film container and additional photo equipment. This allowed immediate access to the intelligence after landing without the usual processing delay. Its wing had a straight taper with a high
aspect ratio for maximum efficiency and squared tips. The engines used a sliding
cowl to facilitate engine cooling instead of cowling flaps, which caused too much drag. There was also a two-stage impeller fan directly behind the
propeller hub. These refinements allowed the engines to be tightly cowled for aerodynamic efficiency, while still keeping the engines adequately cooled. When the sliding cowl ring was closed during flight, the cooling air was ducted through the
nacelle to the rear exhaust orifice increasing thrust, rather than adding drag as is usually the case. Air for engine intakes, oil coolers and intercoolers was drawn through the
leading edge of each wing between the inboard and outboard engines. This reduced drag compared to using individual intakes for each component. In addition, because the air was taken from a high-pressure area at the front of the wing, this provided a
ram air boost for increased power at high speeds, and more effective cooling of the oil and intercoolers. The intakes made up 25% of the total wingspan and were extensively wind tunnel tested. After being used, the air was ducted toward the rear of the nacelle, to provide thrust. The entire engine nacelle was nearly as long as a
Republic P-47 Thunderbolt. Research showed that a force roughly equivalent to was generated by each engine exhaust during high speed cruise while at altitude. Each engine featured twin General Electric
turbochargers at the rear of the nacelle and for brief bursts of additional power,
water-methanol injection. The XF-12 was originally intended to use
contra-rotating propellers similar to those used on the XF-11, However, due to delivery delays and reliability issues, they were never installed. They would have been twinned three-bladed propellers (rotating in opposite directions). As it was, the aircraft used standard four-bladed
Curtiss Electric propellers. The only visible external difference between the first and second prototypes was the addition of cooling gills on the upper engine cowlings. The second prototype was fitted with the full reconnaissance equipment suite. ==Operational history==