Large Fluidized Media Bio Balls 1 CuFt. Biological Filtration - TGHBB-L-1CF

Description

Large Fluidized Media Bio Balls 1 CuFt. Biological Filtration - TGHBB-L-1CF
Large Fluidized Media Bio Balls 1 CuFt. Biological Filtration - TGHBB-L-1CF
Half Off Ponds Large Fluidized Media Bio Balls, 1 Cubic Foot, MBBR - HBB-L-1CF
Half Off Ponds Large Fluidized Media Bio Balls, (MBBR, k-series alternative media) 1 Cubic Foot (7.48 Gal./28.3 L.), is an easy-to-use filter media that creates a biofilm for beneficial bacteria to attach and flourish. This helps you create a healthy, low-maintenance eco-system in your pond and water. The beneficial bacteria that grow on the bio media filter transform toxic ammonia into nitrite, and then into non-toxic nitrate, an essential nutrient used as the primary source of nitrogen for aquatic plants. This self-cleaning process establishes and sustains a healthy natural eco-system where your fish and plants both thrive. Fluidized Bio Media allows you to come safely maintain higher fish loads with the same pump and filter. Bio-Comb is very compact and can create a benefit in your pond, without taking up much space.
In a stable system, beneficial bacteria (microorganisms) start to grow and attach to bio media within 7 to 20 days. Filter media such as foam, mats, and lava rocks grow thick layers of beneficial bacteria that inhibit its efficiency. Beneficial bacteria also ages, and as it gets older it “consumes” less ammonia. They are just not designed to shed the older layers which inhibit the effectiveness of the beneficial bacteria. This media also requires more of your time to periodically clean the mats or stones.
Fluidized Bio Media is designed with space to support the production of new beneficial bacteria and shed less effective layers. This filter media moves freely in a weir or water filter and requires very little maintenance.
Half Off Ponds Large Fluidized Media Bio Balls, 1 Cubic Foot, MBBR - HBB-L-1CF
Half Off Ponds Bio Balls Filter Media provides the best solution to house beneficial bacteria for your pond and water needs
Use Half Off Ponds Bio Balls Filter Media to help transform harmful, toxic ammonia from fish and koi waste into nitrogen for your aquatic plants
Our easy-to-use Bio Balls Filter Media create a biofilm for beneficial bacteria to attach and flourish. This helps you create a healthy, low-maintenance eco-system in your pond and water
Half Off Ponds Bio Balls Filter Media can also be used for industrial water treatment, wastewater treatment, municipal sewage, and other industrial needs
Use this bio-media to help create a full-cycle aquaponic garden system
Large Fluidized Media Bio Balls 1 CuFt. Biological Filtration - TGHBB-L-1CF
Half Off Ponds Bio Balls Filter Media provides the best solution to house beneficial bacteria for your pond and water needs
Use Half Off Ponds Bio Balls Filter Media to help transform harmful, toxic ammonia from fish and koi waste into nitrogen for your aquatic plants
Our easy-to-use Bio Balls Filter Media create a biofilm for beneficial bacteria to attach and flourish. This helps you create a healthy, low-maintenance eco-system in your pond and water
Half Off Ponds Bio Balls Filter Media can also be used for industrial water treatment, wastewater treatment, municipal sewage, and other industrial needs
Use this bio-media to help create a full-cycle aquaponic garden system
FAQs & Calculations to Help Select the Correct Kit
1. How Many Gallons of Water does My Water Feature Hold?
Rectangular Ponds
Length x Width x Average Depth x 7.48 = Gallons
Example: A rectangular pond 15’ long, 10’ wide and 1.5’ Deep Pond is...
15’ x 10’ x 1.5’ x 7.48 = 1683 Gallons
Oval Ponds
Length x Width x Average Depth x 0.8 x 7.48 = Gallons
Example: An oval pond 15’ long, 10’ wide and 1.5’ deep is...
15’ x 10’ x 1.5’ x 7.48 = 1683 Gallons
Round Ponds
Length x Width x Average Depth x 7.48 =Gallons
Example: 15’ long, 10’ wide and 1.5’ Deep Pond
15’ x 10’ x 1.5’ x 7.48 = 1683 Gallons
Streams
Length x Width x Average Depth x 0.25 x 7.48 = GALLONS =Gallons
Example: 15’ long, 10’ wide and 1.5’ Deep Pond
15’ x 10’ x 1.5’ x 7.48 = 1683 Gallons
2. How Big of a Pump Do I Need??
Minimum pump size is determined by pond type, water volume, head height and friction loss. The minimum pump size recommendations are:
Water Garden, Few Small Goldfish
Circulate total pond water valoume every 2 hours.
Example: 2,000 GPH pump for a 3000-gallon pond with 2’ waterfall.
Fish Pond, Several Small Fish
Circulate total pond water valoume every 1 hour.
Example: 3,800 GPH pump for a 3000-gallon pond with 2’ waterfall.
Koi Pond, Several Large Fish
Circulate total pond water valoume every 3/4 hours.
Example: 2,000 GPH pump for a 3000-gallon pond with 2’ waterfall.
Calculating Head Height
Dynamic head pressure is found by taking the vertical height of your waterfall; the distance between where your pump is (typically in the skimmer) and where your waterfall is, and adding the static head pressure (pipe and fittings) 1’ for every 10’ of tubing and 1’ for every elbow or “T” fitting.
Example: 3' (vertical height) + 2.5 (25' of tubing) + 2' (for 2 elbows) = 7.5' of Dynamic Head Pressure
Note:
It is important to take into consideration while calculating how much flow will be at the top of your waterfall by accounting for the head height due to the laws of fluid dynamics. Please refer to the flow chart above to help choose the correct pump.
3. What Size Tubing Do I Need?
Tubing Size
Efficiency GPH
Minimum GPH
Maximum GPH
0.5”
< 300
60
420
0.75”
< 720
300
900
1”
< 1,200
700
1,500
1.25”
< 1,600
900
3,200
1.5”
< 2,600
2,000
4,400
2”
< 4,800
3,000
6,800
3”
< 9,000
6,000
14,000
4”
< 21,000
14,000
28,000
6”
< 42,000
33,000
60,000
About Half Off Ponds
Customer service is our business. We have been satisfying fish pond, water garden, and backyard waterfall enthusiasts for over 25 years! We're glad to assist you with your pond building project - from start, to finish!
Thanks for your business! We appreciate it!
- The Triumph Global Team