I've just been surfing Ebay Australia and come across this https://www.ebay.com.au/itm/MM-X450-Lpg ... ctupt=true
Going to try and get some for myself.
MM X450 mixers available!!!!!!
MM X450 mixers available!!!!!!
Last edited by storm on Fri Apr 16, 2021 12:20 am, edited 1 time in total.
Fuel flow requirements calculations
Engine air flow requirement calculation: CFM = Cubic Inches x RPM x Volumetric Efficiency (VE) ÷ 3456
Engine air flow requirement calculation: CFM = Cubic Inches x RPM x Volumetric Efficiency (VE) ÷ 3456
Re: MM X450 mixers available!!!!!!
I purchased 1 of these yesterday and it has been sent already. I've been onto Proquip in Canada and they are helping me get baseplate adaptors so I can run it.
Fuel flow requirements calculations
Engine air flow requirement calculation: CFM = Cubic Inches x RPM x Volumetric Efficiency (VE) ÷ 3456
Engine air flow requirement calculation: CFM = Cubic Inches x RPM x Volumetric Efficiency (VE) ÷ 3456
Re: MM X450 mixers available!!!!!!
Proquip are able to get me a Gann A9-1 which adapts the X450 to a Holley 4 barrel baseplate, but they are unable to find a Gann A9-7 which adapts the X450 to a Quadrajet baseplate. Does anyone know of an A9-7 that is available that I can get?
Fuel flow requirements calculations
Engine air flow requirement calculation: CFM = Cubic Inches x RPM x Volumetric Efficiency (VE) ÷ 3456
Engine air flow requirement calculation: CFM = Cubic Inches x RPM x Volumetric Efficiency (VE) ÷ 3456
Re: MM X450 mixers available!!!!!!
My X450 arrived today. I will have a good look at it on the weekend.
I'm thinking of doing some testing in Fusion 360 to draw an adaptor for the X450 to Quadrajet and if I can use a 3d printer at a school I'll print it off and trial fit it. if it works I'll cast my own adaptor.
I'm thinking of doing some testing in Fusion 360 to draw an adaptor for the X450 to Quadrajet and if I can use a 3d printer at a school I'll print it off and trial fit it. if it works I'll cast my own adaptor.
Fuel flow requirements calculations
Engine air flow requirement calculation: CFM = Cubic Inches x RPM x Volumetric Efficiency (VE) ÷ 3456
Engine air flow requirement calculation: CFM = Cubic Inches x RPM x Volumetric Efficiency (VE) ÷ 3456