VP44 pressure pulses explained
I've been lurking a while and have read many threads addressing the VP44 pressure pulses or fuel pressure spikes. These spikes have been attributed to both the Carter P4601HP lift pump (LP) and the Bosch VP44. They cause problems such as early failure of fuel pressure gauges and fatigue/failure of the LP spillover ball valve (apparently the spring fatigues or breaks), which can lead to starving the VP44 injection pump for fuel thus affecting it's lifespan.
These pressure spikes are most noticeable at idle. Here's a typical post: "there is annoying vibration coming from the fuel pressure-gauge. It is loudest at idle and gets quieter as you add pedal. "
Like many others, I installed a mechanical pressure gauge (US Gauge, no snubber, not glycerine filled, a cheapie... ) on the the output side of the fuel filter on my '99, and the pressure spikes caused the Bourdon tube in this gauge fatigued and ruptured after about 3 weeks, dumping fuel at about 1 gpm; fortunately it ruptured in the final 1/4 mile of my 30 mile one-way commute, so I didn't lose much fuel. But I've fixed the problem for good now!
Here's my theory on these pulses: they are "water hammer" pressure pulses returning upstream from the VP44 as the vanes in its four-vane pump section pass the fuel intake port at low RPM; this stop/starts fuel flow in the supply line, leading to shockwaves propagating upstream through the filter housing and getting absorbed by the little bitty ball and spring spillover valve in the Carter LP. All you need to do is install an accumulator (hydraulic shock absorber) between the LP and the VP44 to absorb/dissipate the "water hammer" pressure spikes, and you should see much longer service life from the lift pump.
Theory development:
The Carter 4601 "lift pump" (LP) is a constant volume rotary vane type (four vanes) and develops 16 psi as limited by a spill-over bypass valve (a ball-check return to intake) to regulate pressure gain to 16 psi. The four vanes spin continuously at a ~ 5000 rpm (20,000 pulses/min, 333 Hz), producing about 80 gph under no load.
The Bosch VP44 (high pressure injection pump) also has a four vane rotary pump in its first stage, but much larger and more robust, reportedly making about 300 psi, most of which is returned to the tank via spillover valve presumably set to around 300 psi (similar to but much heavier duty than the mechanism in the Carter LP). The VP44 is rotating at 1/2 engine rpm, or about 400 rpm at idle (where the pressure spike/vibration problem is most evident), thus with four vanes it has 4*400=1600 pulses per minute, or 26 pulses per second (26 Hz).
The amount of fuel that passes through the VP44 is not determined by the lift pump at all. The internal vane pump in the VP both feeds the high pressure stage and circulates fuel as coolant/lubricant; it also limits throughput to its displacement volume which I estimated to be about 2. 5 cc per revolution, or about 0. 6 cc of inter-vane displacment. So at idle at 800 rpm the VP is spinning (at 1/2 engine speed) at 400 rpm, with 1600 vane swipes per minute, and about 1600*0. 6=960 cc/minute or about 0. 25 gpm (15 gph). At highway cruising speeds, at say 2000 engine rpm, the VP is running at 1000 rpm, with 4000 vane swipes per minute, and about 4000*0. 6=2400 cc/min = 0. 63 gpm (38 gph). So the Carter lift pump may be capable of pushing 80 gph, but the (stock) VP only accepts between 15 to 38 gph under idle to cruising conditions.
Because of its internal rotary vane pump, the VP44 fuel intake rate is variable: as a vane slides past the intake port flow from the lift pump starts filling the inter-vane volume with Q (flow) rising from zero to some peak rate determined by volute shape/eccentricity and rpm. However, inflow briefly stops as the next vane passes the intake port. So the fuel delivery rate changes from zero to some peak rate as the inter-vane area fills up, and this rate change (delta Q) is occurring at about 26 Hz at idle, and causes fuel in the delivering line to stop and start, causing the notorious "VP vibration" or upstream pulsation ('water hammer' effect), most noticeable under low rpm conditions.
A high quality, high durability accumulator installed in the fuel line just upstream from the VP44 would attenuate these shock waves. The best available small accumulator is the Hydropad pulsation dampener by
Flexicraft Industries (
http://www.flexicraft.com/hydrop1.asp?catid=6), but their smallest unit (16 cubic inch) runs about $650. However, I installed the Watts 150A "water hammer arrester" with butyl membrane (
http://www.watts-intelliflow.com/hammer.htm); this is plenty big enough, and costs $15 to $30 depending on where you find it. I have a a second 4601 pump back by the tank, so my two pumps in series make about 24-26 psi at the fuel filter, and the Watts 150A installed in the short rubber hose connector between the filter and the VP (on my '99) absorbs the vibrations. I'll let you know if I have any problems, but I think this setup will work for a long time. I have a diPricol FP gauge on the downstream side of the filter reading ~25 at idle, 23 at WOT.
--
Brian
Reno, Nevada
Attention: TDR Forum Junkies 
