5
I think the solar pump are DC current pump. My in laws have that for their pool too.
So rather than having a small inverter, why not trying to have a DC pump and DC fans ?
The solar pumps that we use have brushless solar pump which require a controller because they are not brushed. Then they also can be driven by an PWM to enable optimal power every hour of the day. You are right, we can be using simple dc brushed motors. The reason why i would like AC is that there are many application on offer
Many solar controllers have a "load" connection to dump excess power when the battery is full, so they will operate in this mode with a small battery. When the battery voltage drops (or the sun goes down), the load circuit disconnects.
@CadeJohnson@slrpnk.net @cybermatrix I was able to connect from my mastodon account, too, by the way.
I think what you want are super-capacitors. A quick search turned up this: https://youtu.be/iBw_969R-So
That would be a way to use in combination with the suggestion of @CadeJohnsons inverter with that load dumping
An inverter just converts DC to AC. You are more in charge controller territory with this question. I understand what you are asking for, so I don't mention that to be pedantic, but to help your search. There are a lot of applications that could run this way, so it's a good question.
I've built a small scale version of what you are talking about to aerate a tiny aquarium intermittently. It uses a 5v/6watt panel, a blocking diode, a 4F super capacitor and a buck/boost converter driving a 5v 0.43 amp air pump.
Now the first version of the system was just a panel hard-wired directly to the pump. It worked ok, but it only started running just a little before solar noon because the pump has some internal friction to overcome before it will run. All that morning and afternoon sun was wasted in that setup.
With the new set-up, the pump starts running intermittently much earlier because the super capacitor accumulates the trickle of energy and then releases it at full current once at capacity. Once drained, the charge controller cuts out because it can't deliver the set voltage and the cycle begins again. During the brightest part of the day, the panel is delivering enough energy to run the pump constantly, so the capacitor just hangs out with a full charge ready to deliver if a cloud comes along to lower the panel output briefly.
It's hard to estimate, but my best guess is the pump runs about twice as frequently in a typical day than it would with just the naked panel setup I started with.
That is a nice small setup. The air pump is a small brushed pump? Why are you still using a buckbooster if the voltage is already 5v from panel and the airpump need 5v? Will the solar panel deliver in morning and evening not the 5v but 3v?. I am suprised that a 5v airpump exist and that it is able to pump air into water (as that cost quite some pressure to overcome)
Yes, it's a DC brush motor, 0.43 amps. It puts out just a trickle of air and is used by small-boat fishermen to keep a live well aerated. The buck booster cuts out very cleanly when the voltage drops below a set point, that's one reason. The other reason is I found cool buck/boost converter that has some features I wanted to play with. That's honestly the real reason.
Panels put out pretty constant voltage, but variable current. That's the role of the super capacitors, to accumulate charge when the light is dim, still 5v but an amperage below the minimum needed for the pump. Did I understand that part correctly?
view more: next ›
this post was submitted on 24 Jun 2023
5 points (100.0% liked)
Green Energy
2110 readers
68 users here now
everything about energy production
founded 2 years ago
MODERATORS