ptmoss,
A VFD is a Variable Frequency Drive. They are a device that allows the speed control of 3 phase AC motors by changing the voltage and frequency together, a necessary step to changing speed without losing torque. To accomplish this, they convert the incoming AC power to DC, then re-convert, or "invert" the power back to AC again, but in a way that allows them to independently change the voltage and frequency.
A side benefit to this process is that they can also act as a sort of "Phase Converter" that allows you to run 3 phase motors from a single phase source. Because the first stage just converts AC to DC, it doesn't matter if the AC is 1 phase or 3 phase. So when it inverts the DC back into AC there is no direct relationship to the incoming power and the outgoing power phase relationship anyway; the incoming power is "raw material". When being used this way, it's unimportant that you don't need to vary the speed on the output, that's up to you. But that said, there are other benefits to matching flow rates to the requirements. That however is a longer discussion.
So here are some caveats:
1) At the sizes you are looking at, you may have to buy a VFD that is 2X the size of the motor. There are many VFDs that allow single phase input without de-rating up to 3HP, but very few that extend beyond that. It's a matter of the sizing of the components on the AC-DC conversion section and the capacitors used inside. 1 phase current draw will be higher by the sq. rt. of 3, so 1.732X the 3 phase current rating of the motor. The electronic devices (diodes) on the conversion side need to be sized for that higher current and you also need extra capacitance inside the VFD to smooth out the extra DC ripple that results from AC-DC conversion from 1 phase. So the safest way to make sure you get that is to go 2X if it is over 3HP.
2) Remember when sizing your 1 phase service that the current will be 1.732X the 3 phase values. So if for example you have 4 x 3HP motors and the FLA is 4.2A each, the 1 phase current supply will be 4.2 x 4 x 1.732 for sizing your 1 phase service and protection devices.
3) If your 1 phase is 230V, as it most likely is, use 230V motors and VFDs even though it appears as though higher voltage VFDs are cheaper. Otherwise you need to buy a transformer to step up the 1 phase to the higher level, and then not all higher voltage VFDs can accept a 1 phase input. It's just a quirk of the industry.
4) This works great for 3 phase motors, but don't power up other systems from the output of the VFDs. Use separate VFDs for each motor (assuming multiples) and allow everything else to be powered directly from the 1 phase source. Keep it all separate. By the way, the VFDs will serve as the motor starters, so no need to duplicate that.
Since you didn't know what a VFD was, I strongly suggest hiring some expertise though, this is great stuff but not for the novice.
"If I had eight hours to chop down a tree, I'd spend six sharpening my axe." -- Abraham Lincoln
For the best use of Eng-Tips, please click here -> faq731-376
