cartery
Community Member
Hi,
This is maybe more of a thought experiment. I'm not sure I'll actually implement this, or would even want to, but I thought of a design and I'm curious if people think it would work.
If I have a sump with a chamber holding the return pump, my understanding is that evaporation will only change the water level in that chamber. That's why you would put your ATO sensor/float valve in that chamber and not anywhere else.
So my idea was, you make another chamber with another pump and set up a reservoir with saltwater in the same manner as the ATO. You run that secondary pump to a drain or whatever. Then you trigger the secondary pump to lower the level of water in the second chamber which will trigger a refill from the saltwater reservoir, thereby doing a water change.
I'm thinking you'd probably need to pause the primary/return pump when running the secondary, at least to avoid triggering the ATO.
Does this make sense? No idea if it'd be worth doing, but I thought it was fun to mull over.
This is maybe more of a thought experiment. I'm not sure I'll actually implement this, or would even want to, but I thought of a design and I'm curious if people think it would work.
If I have a sump with a chamber holding the return pump, my understanding is that evaporation will only change the water level in that chamber. That's why you would put your ATO sensor/float valve in that chamber and not anywhere else.
So my idea was, you make another chamber with another pump and set up a reservoir with saltwater in the same manner as the ATO. You run that secondary pump to a drain or whatever. Then you trigger the secondary pump to lower the level of water in the second chamber which will trigger a refill from the saltwater reservoir, thereby doing a water change.
I'm thinking you'd probably need to pause the primary/return pump when running the secondary, at least to avoid triggering the ATO.
Does this make sense? No idea if it'd be worth doing, but I thought it was fun to mull over.
