Drag Illustrated Issue 114, October 2016 | Page 66

PRODUCTS & PRESS KINSLER K-140 PRESSURE RELIEF VALVE OFFERS EXTREMELY PRECISE FUEL PRESSURE CONTROL Kinsler’s new K-140 pressure relief valve has less pressure rise (less slope) because of its large efficiently-flowing pintle and seat. As the flow is decreased, the pressure decreases. Ideally, this would form one slightly slanted straight line (see graph below), but friction in the valve makes the closing pressures slightly less than the opening ones. This result is called a hysteresis loop. Pressure relief valves (PRV) have a diaphragm assembly with a pintle or ball, with spring(s) above it to force it down onto the seat. Fuel pressure from the pump must rise to the set point to exert enough force on the diaphragm to lift the sealing device off the seat, allowing fuel to pass through the valve. To bypass more fuel, the spring(s) have to be compressed slightly more to open the valve a bit further, causing a rise in pressure. The new K-140 valve has the tightest loop of any valve Kinsler has tested: the closing pressures are just .2 (2/10) psi lower than the opening pressures. The swivel pintle valve is self-centering as it closes. The piston that carries the diaphragms and swivel pintle on its nose prevents any spring end angle from cocking the pintle carrier, but even if it could cock, the swivel pintle would cancel it out. Kinsler uses two thin diaphragms, installed with the weave at a 45 degree angle to each other, so if a thread were broken in one, it is backed up by the other diaphragm. The two diaphragms are crushed a total of .0044”, which forces some of the elastomer from them into the four retainer grooves in the tower and the body, clamping them very securely. The diaphragm material is quite special: The fabric is premium quality, vacuum coated with a primer, then two different elastomer coatings to be compatible with gasoline, alcohol, ethanol, and blends thereof. All the components, including the springs, are carefully measured for each valve build, recorded, and kept for future service. The flow performance and hysteresis loop are also recorded. If the 3AN side-of-thetower breather port is connected below the throttles in the intake manifold, the PRV will lower the fuel pressure when it sees vacuum. If it sees boost, the PRV will raise the fuel pressure. This broadens the useable range of the injectors. It is critical that any PRV has a maximum of 66 | D r a g I l l u s t r a t e d | DragIllustrated.com 10 micron (.39 thousandths of an inch particles) to it, as any dirt that gets between the valve and the seat will prevent the valve from closing fully. Much better would be the 10/3 filter, which Kinsler developed for NASCAR cup cars. It has a top layer of 10 micron paper to take out 90% of the dirt, to protect a 3 micron (.12 thousandths) absolute fiberglass bottom layer. It is also best to supply the injectors with 3 micron filtration, so placing this filter before the fuel rails will protect the injectors and the PRV better. For more details check out the Kinsler. com home page. Weighing in at just .45 lbs, the K-140 valve components are premium hard coated and sealed, then the moving parts are micro lapped to a high polish. For use with Gasoline, Methanol (alcohol), Ethanol, and E85. Kinsler designed this valve in 1996 for General Motors, as they were getting ready to field Oldsmobile Aurora engines at the Indy 500. Kinsler has made 8,000 of the valves since then and have not had one failure in the field except for dirt problems from teams using inadequate filters. Issue 114