Pumps

Pumps

The pump is the heart of your water feature! Proper selection ensures the right fit and peak performance for your application. Water pumps are either Submersible or External and available in three different types:Direct-Drive, Mag-Drive, or Asynchronous. Keep your pond healthy and looking great by choosing from our large selection of water pumps.

Direct-Drive pumps are a great option for customers who have features with high head height and need a large amount of torque. They can handle larger solids and are easier to maintain. Direct-Drive pumps are not for systems with head height of 5 feet or less. Direct-Drive pumps are ideal for hard water situations.  

Mag-Drive pumps are great for fountains and small water features with a low amount of head height. The magnetic impeller makes the pumps extremely energy-efficient, quiet, and easy to maintain. Note: Mag-Drive pumps are not ideal for hard water conditions.

Asynchronous (hybrid between direct and mag-drive) pumps have impellers that are magnetized, making them more energy-efficient than the Direct-Drive pumps. They have a higher head height than Mag-Drive pumps. Most sizes are compatible with variable speed controllers.

Pond Type

Ideal to circulate total pond water volume every 2 hours. Example: a 3000-gallon pond with a 2' waterfall is well serviced by a 2,000 gph pump.

Ideal to circulate total pond water volume every 1 hour. Example: a 3000-gallon pond with a 2' waterfall is well serviced with by a 3,800 gph pump.

Ideal to circulate total pond water volume every ½ - ¾ of an hour. Example: a 3,000-gallon pond with a 2' waterfall is well serviced by a 5,500 gph pump.

Submersible vs. External 

Submersible pumps are the right choice when placing the pump inside the pond. We recommend a pump with a large pre-filter screen to reduce maintenance or one that passes larger particles without clogging. We also recommend installing a skimmer to protect your pump, allows easy access for pump maintenance, and act as a filter for the pond.

External pumps are the best choice for positioning the pump away from the pond. The pumps in this class produce higher pressure and pulling water from multiple locations so they work well for bottom drains, skimmers, and deck jets. Most koi pond
experts choose this style of pump for running large pressure filters.

Head Height

Head Height = Vertical Height + Static Head Pressure
• Vertical Height = vertical distance between pump location (typically in skimmer) and top of waterfall
• Static Head Pressure = pipe length and fittings. Each 10' of tubing and each elbow fitting adds 1'
Example: 3' (vertical height) + 2.5' (25' of tubing) + 2' (for 2 elbows) = 7.5' of head height.
Note: head height is important to take into consideration due to the laws of fluid dynamics.

Tubing Size

Tubing diameter, desired GPH, and pump size are important factors with choosing components. Each pipe diameter has a maximum flow rate. For example: a 1.5" pipe will only allow 4,400 gallons per hour to pass through it. Installing a bigger pump (higher cost) 6,000 GPH pump will not increase the flow rate in this example.

      Size             GPH (min.)           Efficiency GPH         GPH (max.)
      0.5"                   60                         < 300                           420
      0.75"               300                         < 720                           900
      1"                     700                         < 1,200                     1,500
      1.25"               900                         < 1,600                     3,200
      1.5"               2,000                         < 2,600                     4,400
      2"                 3,000                         < 4,800                     6,800
      3"                 6,000                         < 9,000                   14,000
      4"               14,000                         < 21,000                 28,000
      6"               33,000                         < 42,000                 60,000

Tubing diameter, desired GPH, and pump size are important factors with choosing components. Each pipe diameter has a maximum flow rate. For example: a 1.5" pipe will only allow 4,400 gallons per hour to pass through it. Installing a bigger pump (higher cost) 6,000 GPH pump will not increase the flow rate in this example.

Rectangular Ponds
Length x Width x Average Depth x 7.48 = Gallons

Example: A rectangular pond that is 15’ long, 10’ wide and 1.5’ deep 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 that is 15' long, 10' wide, and 1.5' deep is... 15' x 10' x 1.5' x .08 x 7.48 = 1346 Gallons
Round Ponds
Radius x Radius x Average Depth x 3.14 x 7.48 =Gallons

Example: A round pond that has a 12' diameter and is 1.5' deep is... 6' x 6' x 3.14 x 1.5' x 7.48 = 1268 Gallons
Streams
Length x Width x 0.25 x 7.48 =Gallons

Example: A stream that is 20' long, 3' wide, and 3" deep is... 20' x 3' x 0.25 x 7.48 = 112 Gallons


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