Scenario:
2 ponds, each 2.1m dia x 0.8m deep.
There are fish in both ponds.
Pond #1 is 0.5m higher than pond #2.
Water is pumped from pond #2 to pond #1 and drains back into pond #2 over a 30cm wide waterfall. Flow is adjusted with a valve on the pump feed.
I now want to introduce a high efficiency filtration system.
Now, two questions:
Q1) If I pump the water from pond #2, through a filter system, and into pond #1 (on the opposite side to the waterfall outlet), will I end up with static water areas in pond #1, or will there be sufficient flow to stir up the water?
Q2) If the flow through the filter produces an acceptable flow over the waterfall, then that's great, but if I need to increase or reduce the flow over the waterfall, this may exceed the filter flow capacity, or reduce the flow such that filtration becomes inefficient. How can I maintain optimum flow through the filter, whilst being able to regulate the flow over the waterfall? Do I need a second pump?
2 ponds, each 2.1m dia x 0.8m deep.
There are fish in both ponds.
Pond #1 is 0.5m higher than pond #2.
Water is pumped from pond #2 to pond #1 and drains back into pond #2 over a 30cm wide waterfall. Flow is adjusted with a valve on the pump feed.
I now want to introduce a high efficiency filtration system.
Now, two questions:
Q1) If I pump the water from pond #2, through a filter system, and into pond #1 (on the opposite side to the waterfall outlet), will I end up with static water areas in pond #1, or will there be sufficient flow to stir up the water?
Q2) If the flow through the filter produces an acceptable flow over the waterfall, then that's great, but if I need to increase or reduce the flow over the waterfall, this may exceed the filter flow capacity, or reduce the flow such that filtration becomes inefficient. How can I maintain optimum flow through the filter, whilst being able to regulate the flow over the waterfall? Do I need a second pump?
