Replies to This Discussion

Permalink Reply by Mike Kenyon on January 6, 2014 at 10:42pm

what restrictor plate-this isn't NASCRAP

• ▶ Reply

Permalink Reply by FD REBEL on January 6, 2014 at 10:36pm

Could very well be the fuel, I know the shit they sell us in cali has ethanol and It starts going sour in just a few days if you try and store it.....How about a return line from the fuel rail to the fuel cell with a tiny restriction to just enough to bleed air yet keep the line pressure up??

• ▶ Reply

Permalink Reply by Tim Nation on January 6, 2014 at 10:42pm

yea that's I read other places when I was searching vapor lock that is was not just heat but could be caused by restriction at low temps.....

• ▶ Reply

Permalink Reply by Mike Kenyon on January 6, 2014 at 10:46pm

@FD, a stock LS7 is a dead head system,what's Carlos got?

• ▶ Reply

Permalink Reply by Kevin Meyer on January 6, 2014 at 10:52pm

Brazil is the largest exporter of ethanol in the world so very likely that it is in the fuel. That said, the boiling point of gasoline and ethanol is very similiar at ambient pressure so would make little difference. I would be more concerned with the lower btu output if it had a larger quanity of ethanol. As it is summer in South America I would be unconcerned about winter blend type additives.

• ▶ Reply

Permalink Reply by Mike Kenyon on January 6, 2014 at 10:41pm

@Karen, fair point.Put what ever fuel Carlos is put in.
You can buy non-oxygenated gas in the states.Full my tank today.
pure-gas.org

• ▶ Reply

Permalink Reply by Hendricus on January 6, 2014 at 10:40pm

From Eric Vigoouroux facebook page, posted about 24 min ago:
"Always of the worries of "vapor lock" (gasoline which starts to boil) due to temperature extremely high such that we don't in had ever encountered in our tests. The altitude is also an aggravating factor. Guerlain and Alex end despite all 23 th while BJ arrived much later. The technical team is working to hard feet to find a solution for the future. It believes and remain combative even if the prospect of a good final result is seriously far away..." (Translated by Bing)

• ▶ Reply

Permalink Reply by FD REBEL on January 6, 2014 at 10:48pm

Bleed line....and insulate the lines..Problem solved

• ▶ Reply

Permalink Reply by Kevin Meyer on January 6, 2014 at 10:54pm

A higher altitude lowers boiling point.

• ▶ Reply

Permalink Reply by Robert Valentine on January 6, 2014 at 10:44pm

just throwing out ideas.
pasted from the Fuelab website
The most common failure of high flow fuel systems is cavitation, or “vapor-lock”. The combination of too much heat or too much inlet restriction can create this operating condition, where the liquid fuel literally vaporizes (boils) inside the pump assembly. Symptoms of this operating condition may include one or more of the following:
• Dramatic loss of flow rate
• “Gauge Bouncing”
• Ratchet or grinding sounds from pump
• Inconsistent or loss of fuel pressure
• Temperatures above 120°F (50C)
As bad as the symptoms of this condition are, the results of this condition are often permanent, even if what caused the condition in the first place was fixed. Loss of fuel delivery pressure will also result in a lean-out condition as well that can result in engine damage. Typically, even with very short amounts of time of exposure to cavitation (depending on severity) will cause damage to the fuel pump. This damage results in a direct loss of capacity and efficiency. Often as noted when unchecked, this damage to the pump results in operating conditions that quickens cavitation exposure at each use. Eventually, the fuel system resorts to complete failure to build or maintain pressure. For all fuel systems of any manufacturer, this failure can be avoided as it is not a result of a manufacturing defect, but a result of a fuel system design failure.
Two operating conditions can create the cavitating condition:
• High operating temperatures
• High inlet plumbing restrictions
High operating conditions can exist for several reasons, such as high inefficiencies (such as a worn or damaged pump), overly high fuel pressures, high flow rate pumps for long durations with low fuel amounts, or secondary sources of heat such as fuel rail(s), engine or exhaust. Prodigy Fuel Pumps have the distinction of having speed control, inherent in its design. This allows a reduced speed during low engine demand conditions that can add excessive temperatures to the fuel system.
Some refer to pumps as “pushers” or “pullers”. The truth is that all pumps are both. This reference comes from the amount of resistance to cavitation a particular pump has versus another. Minimizing the amount of restriction feeding the pump’s inlet is a critical element to avoid cavitation. This is the main reason why typical OEM fuel systems have their pumps mounted inside the fuel tank. Use of straining filters is required for the inlet of the fuel pump, to have a fine enough filtering to protect the fuel pump, yet coarse enough not to inhibit flow, or capture enough particles to cause a building up of debris. Finer filtration, to protect the rest of the fuel system (such as fuel injectors and regulators) can be accomplished downstream of the fuel pump with a second filter. Typically, straining filters for fuel pumps elements have micron ratings from 25 to 150 micron rating. Fuelab recommends the use of 75 micron rating for Prodigy Series fuel pumps (75-150 micron required). Typically, modern OEM straining filters are at a lower micron rating and made of plastic weave cloth. While these types of filters are adequate and desirable for OEM applications, however typical aftermarket fuel systems have far too high of flow rate to accommodate this form of straining filter easily. The biggest mistake and almost certain doom for a high flow fuel system, is to use a 10 micron filter upstream of the fuel pump. Plumbing size and the types of hose (or tube) play a vital role in the effects of cavitation as well general performance. The larger the flow rate, the larger the line size must be. Always avoid the use of check valves, or cross-drilled fittings when plumbing upstream of the fuel pump.

• ▶ Reply

Permalink Reply by Robert Valentine on January 6, 2014 at 10:44pm

If you have a problem under heavy throttle then you most lightly have a restriction in your fuel LP system. If you have a problem after sitting for a long time in traffic then it is probably a heat in the fuel problem. I have suffered from the later on many occasions because my fuel system is layed out in such a way so as to cause it to absorb a lot of heat when it gets hot under the hood.
I have completely cured the problem by pressurising my swirl pot to about 5psi. I have done nothing else. remember that the return line from the swirl pot enters the tank at a reasonable height if you do not have a non return valve in it it is quite possible for the hp pump to obtain fuel/vapour through this pipe if it is an easier route and your system is plumbed that way.
With a full tank of fuel. Your fuel pump will circulate the tank contents approx 4 times an hour. With 2 galls in it. It will be circulated approx 20 times an hour.
Check filters first. Then create some pressure in the swirl pot.
Depending on your pump type it may be damaged if it was sucking vapour for a while.

• ▶ Reply

Permalink Reply by Mike Kenyon on January 6, 2014 at 10:50pm

Diesel,next

• ▶ Reply

• ‹ Previous
• 1
• …
• 56
• 57
• 58
• 59
• 60
• …
• 63
• Next ›
• Page