There's a formula cid x rpm x 0.0009785 / amount of cylinders = cfmIs there an ideal airflow to cubic inches?
Or is the most airflow a head can flow more desired?
I wouldn't necessarily say smallest but the right size for the application.Its a deep subject. You want the most cfm flowing through a port of the smallest size to maximize port energy. Optimal air speed is 300. Learn alot on YouTube at David Vizard’s and Charles Servedio’s channels.
Right, alot of truth to that. Like I said it’s a deep subject. Even top head porters have a difference of opinion.I wouldn't necessarily say smallest but the right size for the application.
Depends what level of builds were talking about here but most average guy builds generally don't even get over 2 hp per cfm.For a well thought out combination and ported heads, figure 2.4 horsepower per cfm of the port. Your major restriction in the head is the valve area and then the intake manifold.
Yeah, it has to be well thought out, purpose specific. Sometimes alot of $$$ and experience. Alot of guys don’t have that and I’m not sure I even do. Parts testing, dyno pulls and experimentation limited by whats available for your platform of choice. No one but you can build the engine you really want but you and it’s a long road.Depends what level of builds were talking about here but most average guy builds generally don't even get over 2 hp per cfm.
Most are lucky to get 1.25 hp and very few achieve 2 hp perbut most average guy builds generally don't even get over 2 hp per cfm.
If I was to build a fairly serious street strip engine I'd shoot for 1.8 cfm per hp as a goal any hp above that be a bonus. Eg.. 500 hp / 1.8 = 278 cfm so I'd would want a head that flowed at least 280 cfm around .500-.600" lift to try make 500 hp. (Obviously with a decent overall curve .300-.600".)Most are lucky to get 1.25 hp and very few achieve 2 hp per
That’s why porting and flowing a head without porting and flowing the intake manifold is so important. A well ported RPM airgap will only flow 230 ish cfm. Its the total combination. If your port flows well but your air speeds vary too much in different areas of the port, you will lose hp. If you flow well but your port is too big, you will lose port energy and lose hp.Most are lucky to get 1.25 hp and very few achieve 2 hp per
A well ported RPM airgap will only flow 230 ish cfm.