Tweet
The project is the conversion of an existing hydro system to an AP system. Some of the NFT channel had been removed and is being replaced with DWC floating raft troughs.
In the fish tank shed we have installed, fish tanks, swirl filter, solids and nitrification filter. There is a sludge collection system and two air systems, one for the fish shed and one for the greenhouse
Greenhouse 30 M x 12M (110' x 38')
The site has fall from one end to the other of 1500mm (5') and one side to the other of 450mm. (1' 6") The fish tank shed is located 20 M (65') from the greenhouse.
The Fish Tank shed is at the top end of the greenhouse but is around 750mm (2' 6") lower than the highest part of the greenhouse. The design challenge is to run the whole AP project on one pump dealing with the fall and distances. There is actually two identical pumps, but one is on standby.
The client has started re commissioning some of the NFT channel and the floating raft troughs are growing lettuce.
(can't load some photos as the upload system does not allow photos from my computer, only photos from web site)
In the fish tank shed we have installed, fish tanks, swirl filter, solids and nitrification filter. There is a sludge collection system and two air systems, one for the fish shed and one for the greenhouse
Greenhouse 30 M x 12M (110' x 38')
The site has fall from one end to the other of 1500mm (5') and one side to the other of 450mm. (1' 6") The fish tank shed is located 20 M (65') from the greenhouse.
The Fish Tank shed is at the top end of the greenhouse but is around 750mm (2' 6") lower than the highest part of the greenhouse. The design challenge is to run the whole AP project on one pump dealing with the fall and distances. There is actually two identical pumps, but one is on standby.
The client has started re commissioning some of the NFT channel and the floating raft troughs are growing lettuce.
(can't load some photos as the upload system does not allow photos from my computer, only photos from web site)
Comment