Contents

- 1 How do I know what size carburetor to get?
- 2 How much horsepower will a 650 cfm carb support?
- 3 How much horsepower will a 750 cfm carb support?
- 4 What happens if your carburetor is too big?
- 5 Does a carburetor add horsepower?
- 6 What size carburetor do I need for a 360?
- 7 What cfm carb do I need for a 350?
- 8 Are carb spacers worth it?
- 9 How do you calculate CFM for carburetor?
- 10 How do you increase CFM on a carburetor?
- 11 How much horsepower will a 950 cfm carb support?
- 12 What size carburetor do I need for a 383 stroker?
- 13 Does a bigger carburetor mean more power?

## How do I know what size carburetor to get?

The formula for calculating how much CFM (cubic feet per minute) an engine requires is: CFM = Cubic Inches x RPM x Volumetric Efficiency ÷ 3456. Any ordinary stock engine will have a volumetric efficiency of about 80%.

## How much horsepower will a 650 cfm carb support?

So, using your Google-Fu you type “How much power can a 650 cfm carb support?” Well, chances are that you’ll get answers in the 450-470 hp range, but that’s not really the right way to look at it.

## How much horsepower will a 750 cfm carb support?

A 750DP on a 330hp-400hp 5.7 with a dual plane intake (performer rpm) is easy to tune and will make max power to boot.

## What happens if your carburetor is too big?

If the barrels are too big, the loss of air velocity means the cylinder will not fill to its full capacity. An engine with a carb that is too big will put out less Torque and Horsepower. It will be difficult to drive due to poor low-end torque. If you drag race your car, an oversized carb will produce slow 60 ft.

## Does a carburetor add horsepower?

After you fix what’s limiting performance, an Edelbrock Performer intake can add as much as 10 HP. The FAQ forum is a good place to ask questions. There are differences between engines and performance improvements.

## What size carburetor do I need for a 360?

If the engine is mostly stock the 600 – 625 cfm should be fine. If the engine is hot rodded, and you race it, then a 750 cfm would give you slightly more power.

## What cfm carb do I need for a 350?

A 600-cfm carburetor may perform quite well on a stock 350 Chevy. However, the minute you start weaving in power adders like a hotter cam, a dual-plane performance intake manifold, and aluminum heads you’re going to need 700-750 cfm.

## Are carb spacers worth it?

Spacers are said to improve air/fuel vaporization through and out of the carburetor. Anytime the air/fuel charge has to turn sharply coming off the carb, it increases the chance of separating the fuel from the air.

## How do you calculate CFM for carburetor?

How to calculate Carburetor CFM. The formula for calculating how much CFM (cubic feet per minute) your engine requires is: CFM = Cubic Inches x RPM x Volumetric Efficiency ÷ 3456.

## How do you increase CFM on a carburetor?

In just a few minutes working with a file, you can augment this mod by applying a radius to the top edges of the choke horn. This increases the flow about 3 to 5 more cfm. You may see carbs that have been reworked for a higher performance by milling off the choke horn.

## How much horsepower will a 950 cfm carb support?

Although way too small according to the CFM calculations presented earlier, a 950 Ultra HP can pass enough air to support more than 800 hp from a street/strip 572. If you do the math in terms of the required CFM, these carbs look far too small to be able to allow the production of such big horsepower numbers.

## What size carburetor do I need for a 383 stroker?

Carburetor For 383 Stroker recommends a 650 cfm carburetor. A 750 cfm carburetor will make the engine more powerful, but it is the largest that should be used unless the engine is being used for racing.

## Does a bigger carburetor mean more power?

The answer is no, not really. The amount of fuel that’s sucked into the carburetor is controlled by the carburetor jets. Installing a bigger carb is simply going to improve the power potential of your bike. You still have other things to worry about like improving air intake, exhaust flows and jets.