Well, no one said it didn't and couldn't, if that's what you're getting at. If it is, I think you're missing the point of the discussion.

It's a widely known and accepted fact that DC systems of all types have manufacturer-stated CFM specs that are always optimistic, and were measured under the best possible conditions. The reason? Simple marketing: to make the unit look as good as it can in the brochure. Some of these airflow numbers are wildly inflated, some less so. If there is a pattern, it is probably that the less powerful and less expensive the unit is, the more the numbers are fudged. Considering the marketing angle, this stands to reason.

You say your cyclone has a 2-1/2HP motor driving a 14" impeller, and can move, at least according to its manufacturer, 1450 CFM. The Harbor Freight dust collector that Carlos, myself, and many others here own has a motor advertised as 2HP but is known to be more like 1.5HP; it drives an 11" (I think) impeller. These numbers alone are enough to tell us that the HF unit is going to perform less well than your system. The wide difference in price of the two units further reinforces the conclusion. But it is the results of two actual tests -- one by Wynn Environmental, the other by WOOD Magazine -- that really tells the tale. These tests showed that the HF unit, which is rated at 1600 CFM, is actually only capable of moving ~550 CFM. So no matter how the HF unit may stack up against your cyclone or any other system in terms of actual, real-world performance, we already know that it is not moving nearly enough air to effectively capture the very fine dust particles that can cause health problems over the long term. Thus the issue becomes: if we accept this fact going in, what can be done to make the most of this particular unit, to allow it to perform as well as it possibly can within the limits of its own design?

(Sidebar: indeed, for a potential buyer the 1600 CFM rating of the HF unit is misleading, almost inexcusably so. Many of us who bought the unit did enough pre-purchase homework, here and elsewhere, to know that the 1600CFM rating was bogus; but until the Wynn and later the WOOD test came along, few of us had any inkling of just how bogus it was. I will guess that most of us probably figured something on the order of 800-1000 CFM was more like it; I know that was the case with me.)

Your system may well have the horsepower and impeller size to overcome the resistance of 16' feet of 6" flex hose ... and that's great ... and it would do even better if you replaced that hose with hard pipe ... but all this is mostly irrelevant here. The point of this thread is to try to help Carlos get the maximum performance out of his particular DC unit, the Harbor Freight 45378. With this machine, with its overrated motor, with its small impeller, with its test-proven sub-par airflow capability, the best performance comes from using hard pipe, with as little flex hose as possible in the system. The HF 45378 does not have the power to overcome the resistance of long runs of even the best-quality flexible hose. On the other hand, when plumbed with 4" hard pipe, it does an surprisingly good and very respectable job of keeping one's shop clean. Both of these have been proven time and again by the members here who own this same system.

Carlos,

What about buying 5" HVAC pipe at HD or Lowes, a 5' length is about $6, and 90 degree and 45 degree fittings for about $5.

Although I am yet to turn on my new system, I have been building the ductwork with 6" HVAC, it is smooth inside, and I am taping up all of the joints and seams on the outside. I plan to use 6" to 4" wye fittings for the drops, and then 4" clear flex for the hook up to the machine.

Excluding the cost of the flex, I think I will only spend about $60-$75 on the pipe.

Lee

Well stated Larry.. and probably something anyone considering purchasing their first DC system should read and do the home-work on themselves before a purchase.

Do I believe that my Cyclone is truly putting out 2 1/2 HP and cranking 1450 cfm before I purchased it? Nah... I did my home-work before the purchase and decided on it as suffieient as I knew that my run would be very short with my pre-determined set-up. Flex was chosen in my case because I move the directly connected, singular 6" pipe from one machine to another.

Hard, smooth pipe would give more air flow as stated by Pentz, but I had enough power to over-come it's short-coming and in my system.. The hard, smooth line would have presented a large increase in distance.. a miniumum of 4 drops which relates to lenght and turns. This relates to the fact that it won't flex to allow one direct line to make all 4 major machines I use it for.

But.. as far as using the larger line (in his case 5") from the DC to the machine, Pentz and others have said it will help the air-flow to do so and then down-size to 4" to accomodate the machine port if you have to down-size.

My point in my original post was to alert the OP to highly consider using the full capacity of his unit (again 5" with his outlet) and then down-size to accomodate his machine port. My statement concerning his question of should he use 5" flex as opposed to 4" PVC is copied and pasted from that post....

"So.. IMO, depends on how far.. how many ports to serve.. how many reductions.. how many twist and turns along the way.. how much power.. how much cfm created on the DC end.. how large the impellor.. and what shape the impellor"... me

Carlos will still have to take all into consideration as there is no PVC or HVAC in 5" available as I am aware of and has been stated. But.. All is not just the question of 4" PVC or 5" flex. There is 5" metal pipe (if he decides to run a permanently plumbed system) with smooth wall that could give him his outlet's full capacity to the bitter end then reduce to machine port size.

So.. that creates a spin-off question from the original question ask. What would be the advantage or dis-advantage of using 4" PVC or HVAC vs 5" metal pipe that has a bit more resistance than PVC but.. is that variance off-set by the larger capacity of air volume the 5" smooth metal can carry?

And all travels in a cycle back to how many ports.. how many reductions.. how many twist and turns along the way.. power.. true cfm created.. impellor size.. impellor shape.. etc. etc.. Just a decision Carlos will have to make based on his choice of lay-out.. his machine.. etc. etc.

I don't think the answer is as simple as just 4" PVC or 5" flex or metal. All things have to be considered to end up with the most efficiency (which is what he seeks) under his given circumstances and I am convinced there is no simple answer to that.

Well, that was easy... So I walked into one of the larger local woodworking supply shops, one with higher end and pro machinery (the only place in town where you can see a $32,000 tag on a machine). I asked them if they would happen to know where I can find myself some 5" PVC pipe of some sort, such as sewer & drain. A few guys looked at each other and asked other guys, but nobody knew. As I was going to say thanks and walk away, one asked, "Why don't you want to use the metal spiral duct we sell?"

I picked up my jaw after it rolled behind a tool, and asked for details. They have all sizes of duct work, but keep it out back. I never saw it, so I didn't know about it. Then the guy drops this bomb on me: "We have a pile of used 5" stuff, do you want it for half price?"

So about $180 later I have 50' of pipe, a huge pile of fittings, some flex for where it's needed, and a bunch of knowledge. Two guys spent nearly an hour helping me with design and installation info. I know where I'm buying my expensive tools next time (got my eye on a crazy-huge Powermatic sander, on sale right now).

The next time I was in the area I'd drop-off a couple boxes of donuts. Tell them they're for all the help designing the collection network. That way they'll always associate helping you with yummy donuts.

It always works on me.

Sounds as if you found the winning "lotto" ticket laying in the parking lot, Carlos. ha.. ha...

I think C G nailed it with his suggestion of dropping donuts or something similar. Not a bad way to possibly open up some more doors in the future and show your true appreciation for what they already did for you.

Good luck with the results of what transpires in your system and BTW.. I do know what a "swamp cooler" is. I will just say Rio Rancho, New Mexico and let it go at that. :>)

Sort of Pavlovian in a way. Then when you need a deal on that PM2000 or maybe even that $32,000 piece of machinery you can bring some donuts, set them next to you on the counter and say, how much disount on that there machine, while they're drolling out both sides of thier mouths?

Heh, bringing donuts is not a bad idea. I roast my own coffee beans and make a decent cup, I suppose I could make their morning.

As it is I need to go back for more fittings of course. No matter how many you get, you'll always be short when you're putting the system together.

I think they knew that!