Vapor lock usually happens in the carburetor itself. A sure way to cure it is to
follow the scheme you outline but put a T where you introduce fuel from the
electric pump plus a restrictor of some sort on the exit and run a line from this
T back somewhere near the selector valve and put it into the line. This way
fresh and cool gas can be circulated just at the carb and reduce the temp very
quickly..
Another way is to have a fan mounted in the skirt of a wheel well with a short
duct directed at the carburetor which can be turned on under vaporizing
conditions. This is the system I use and it is fine.
I do not like your idea of removing the selector valve, why not T the line just
after the valve for a fed to the electric pump? Mine works fine. Put the return
line in before the selector valve but most anyplace will do. Your assumptions
regarding back check valves are correct.
Above all do not insert the electric pump line ahead of or in series with the
mechanical pump. If you have a ruptured diaphram and use the electric pump in
this configuration, you will fill the crankcase with gasoline. Not a good idea.
Melvin
> Now I need help about electric fuel pumps. I want to install one for
> redundancy and vapor lock protection.
>
> Q1: Any experience with the Purolator sold by Advance Auto, DIscount Auto,
> etc, for about $30.00? Specs are 4 1/2 - 7 psi ; 35 gph. (GMC Manual calls
> for constant 5 1/2 - 6 1/2 psi)
>
> Q2: A better choice than above & why?
>
> My current intention is to remove the tank selector valve and install a
> filter there, leaving the line to the mechanical pump intact. I'll mount a
> filter and the electric pump in the Aux tank line and use the selector valve
> wiring (probably controlling a relay) for the pump. The output of the
> electric pump will be plumbed to a new tee between the mechanical pump and
> the carburetor. This means that the electric pump will normally be used only
> when I run on the Aux tank reserve.
>
> It seems to me that the above arrangement will give me maximum flexibility
> and reliability:
>
> 1. If I need Aux Fuel, I'll turn on the electric pump.
> 2. If vapor lock is likely, I'll turn on the electric pump.
> 3. If the mechanical pump fails, I'll turn on the electric pump.
> 4. With the independent pump on the Aux tank, I see no need for the
> selector valve.
> 5. II accept that if the Electric pump fails, I won't be able to reach
> the reserve 7 gallons in the Aux. tank.
>
> Q3: Any comments on the above?
>
> It seems to me that when the Main tank is empty the mechanical pump's
> internal input and output disc valves will prevent backflow from the electric
> pump. Similarly, the unenergized electric pump should not allow backflow
> from the mechanical pump. Therefore, I don't need a check valve anywhere.
>
> Q4: Am I missing something with this logic?
>
> Now that I think about it, I don't really know where vapor lock occurs.
> Almost subliminally, I've thought in the line between the pump and the carb
> -- that's what I've always protected & cooled when necessary IAW
> "conventional wisdom". But if that's true, the mechanical pump's pressure
> should quickly purge the bubbles. The high altitude component of vapor lock
> susceptibility I've considered to be reduced boiling point. Perhaps reduced
> ambient pressure to the pump input is as big a factor, allowing bubbling as
> the pump tries to "suck" the fuel.
>
> Q5: Where's vapor lock really occur?
>
> Q6: What's more fun than working on your GMC? (even over 60)
>
> Ken Henderson
> 76 X-Birchaven
follow the scheme you outline but put a T where you introduce fuel from the
electric pump plus a restrictor of some sort on the exit and run a line from this
T back somewhere near the selector valve and put it into the line. This way
fresh and cool gas can be circulated just at the carb and reduce the temp very
quickly..
Another way is to have a fan mounted in the skirt of a wheel well with a short
duct directed at the carburetor which can be turned on under vaporizing
conditions. This is the system I use and it is fine.
I do not like your idea of removing the selector valve, why not T the line just
after the valve for a fed to the electric pump? Mine works fine. Put the return
line in before the selector valve but most anyplace will do. Your assumptions
regarding back check valves are correct.
Above all do not insert the electric pump line ahead of or in series with the
mechanical pump. If you have a ruptured diaphram and use the electric pump in
this configuration, you will fill the crankcase with gasoline. Not a good idea.
Melvin
> Now I need help about electric fuel pumps. I want to install one for
> redundancy and vapor lock protection.
>
> Q1: Any experience with the Purolator sold by Advance Auto, DIscount Auto,
> etc, for about $30.00? Specs are 4 1/2 - 7 psi ; 35 gph. (GMC Manual calls
> for constant 5 1/2 - 6 1/2 psi)
>
> Q2: A better choice than above & why?
>
> My current intention is to remove the tank selector valve and install a
> filter there, leaving the line to the mechanical pump intact. I'll mount a
> filter and the electric pump in the Aux tank line and use the selector valve
> wiring (probably controlling a relay) for the pump. The output of the
> electric pump will be plumbed to a new tee between the mechanical pump and
> the carburetor. This means that the electric pump will normally be used only
> when I run on the Aux tank reserve.
>
> It seems to me that the above arrangement will give me maximum flexibility
> and reliability:
>
> 1. If I need Aux Fuel, I'll turn on the electric pump.
> 2. If vapor lock is likely, I'll turn on the electric pump.
> 3. If the mechanical pump fails, I'll turn on the electric pump.
> 4. With the independent pump on the Aux tank, I see no need for the
> selector valve.
> 5. II accept that if the Electric pump fails, I won't be able to reach
> the reserve 7 gallons in the Aux. tank.
>
> Q3: Any comments on the above?
>
> It seems to me that when the Main tank is empty the mechanical pump's
> internal input and output disc valves will prevent backflow from the electric
> pump. Similarly, the unenergized electric pump should not allow backflow
> from the mechanical pump. Therefore, I don't need a check valve anywhere.
>
> Q4: Am I missing something with this logic?
>
> Now that I think about it, I don't really know where vapor lock occurs.
> Almost subliminally, I've thought in the line between the pump and the carb
> -- that's what I've always protected & cooled when necessary IAW
> "conventional wisdom". But if that's true, the mechanical pump's pressure
> should quickly purge the bubbles. The high altitude component of vapor lock
> susceptibility I've considered to be reduced boiling point. Perhaps reduced
> ambient pressure to the pump input is as big a factor, allowing bubbling as
> the pump tries to "suck" the fuel.
>
> Q5: Where's vapor lock really occur?
>
> Q6: What's more fun than working on your GMC? (even over 60)
>
> Ken Henderson
> 76 X-Birchaven