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Leader Submersible Sump Pumps

Leader EcoSub Submersible Sump Pumps <br>

Leader Pumps manufactures safe, reliable, non-corrosive, rust proof, high quality submersible pumps for drainage, flood prevention, waterfalls, ponds and pressure boosting applications Submersible Ecosub Pumps are perfectly suited for hydroponics, ponds, and water fountains. Built-in "perfect cooling" feature allows it to run even if it's only partially submerged.

Capacity ECOSUBS In Gallons Per Hour
Model Head In Feet Shut
1' 2' 3' 4' 5' 6' 7' 8' 9' 10' 15' 20' 25'
Gallons Per Hour (GPH)
ECOSUB400 1740 1680 1620 1560 1500 1440 1380 1320 1140 1020 780 - - 20'
ECOSUB410 2160 2100 2070 2050 2040 1920 1860 1800 1740 1620 1200 600 - 23'
ECOSUB420 3900 3840 3780 3720 3540 3480 3360 3300 3180 3120 2640 2040 1260 31'

Questions & Answers

For Fountains (Indoor or Outdoor) - When choosing a pump for your fountain there are two terms that you will see when looking for your pump. GPH (gallons per hour) and "lift" or "head". To calculate the capacity required figure to circulate the water in the pond at least once an hour. If you have a 500 gallon pond you would need a pump that moves 500 gallons per hour at the height of the discharge. The lift or head (height of the discharge) is the term for the vertical height the pump raises water above the surface of the pond. You will need a pump that lifts higher than that measurement because every 10' of tubing equals 1' of lift). If that distance is 24", than you will need a pump that lifts at least 36" high. The "maximum lift" means the maximum height that the pump will lift the water. So you will get "0" flow at the maximum lift.
No. Sump pumps are designed for short periods of operation. Running a sump pump for too long can cause the pump to overheat. It is also oil-filled. If fish waste attacks the pump seals, or it overheats, that oil can be discharged into your water feature. That will kill the fish and plants. When it cools, it will draw water up inside the pump motor which will kill the pump. Using a sump pump any place where water recirculates is not recommended and will void the warranty.
Large Volume Plastic pumps - These pumps utilize a permanent split capacitor (PSC) motor sealed in a Stainless Steel Housing, which in turn, is surrounded by a plastic case. The PCS motor allows these pumps to use less energy than other pumps of similar flow capacity. The motor also produces less heat ; therefore, the pump does not require oil internally. These pumps are ideal for use in waterfall and stream applications, found in water gardens.
Epoxy Encapsulated (Potted) Pumps - These pumps feature an epoxy-encapsulated motor, plastic housing, and radial lip seal on the motor shaft. They provide enough power to effectively operate a water garden, statuary or tabletop fountain. Algae build-up does not effect these small, powerful workhorses. In fact, they may even be used in some harsh, industrial-type applications. These "potted" pumps are usually more compact in size than an oil-filled pump of equal flow capacity.
Wet-Rotor (Hysteresis) Pumps - The wet-rotor pumps, often mistaken as magnetic drive pumps, utilize an epoxy-encapsulated motor and plastic housing. A permanent magnet is attached to the impeller. The magnet acts as the rotor would in a conventional motor. The water being pumped surrounds the rotor, thus the term "wet-rotor". They are seal-less and oil-less. These pumps work well in water garden, statuary, and some industrial applications. They are the most compact and energy efficient type of pump
Circular pond: 3.14 X diameter X average depth X 7.5
Irregular Pond: length X width X average depth X 7.5
Use the same formula for both the width and the depth of the liner: The length of liner = max length of pond + (2 times max depth) + minimum of 2' overlap. The width of liner = max width of pond + (2 times max depth) + minimum of 2' overlap.
Length x Width x Depth x 7.48 = Gallons
By turning over the water at least once an hour through the filtration system you will reduce the amount of maintenance required. A 3,000 gallon pond will require products that can handle at least 3,000 gallons per hour of flow.
Stream flow to appear natural= Width of stream (waterfall) ft x 1,200
Measure thr vertical distance from top of water level to discharge point (top of waterfall) and add 1 foot for every 10 feet of elevation
In both the external and in the submersible pumps, the mechanism is simply: a set of turning blades that pressurize the pond water and force it into motion. Submersible pond pumps are easier to use than external pond pumps. They sit directly on the water and are inexpensive, unlike external pumps that you must place outside the pond. Submersible pumps are easy to install and run without priming. They can be used to power all but the largest water features.
To maintain adequate flow, use a larger diameter tubing. Make the tubing as short and straight as practical, and be sure it doesn't kink during installation. Minimum tubing sizes are: 1/2-inch diameter for flows up to 120 gph; 3/4-inch diameter for flows up to 350 gph ;1-inch diameter for flows up to 1000 gph ; 1 1/4 inch for flows up to 1500 gph ; 1 1/2 inch for flows up to 3000 gph You can "telescope" together a series of incrementally larger sizes to make the transition. Vinyl hose comes in increments of 1/4" in inside diameter (ID) and has about 1/16" wall thickness. The smaller tubing will fit snugly inside the next consecutive bigger size.
DO NOT REMOVE the third prong from the plug . These pumps are supplied with a 3-prong electrical plug, the third prong is to ground the pump to prevent possible electrical shock hazard. A separate branch circuit is recommended.
Do not use an extension cord. If there is no outlet near, we suggest that you have a ground fault circuit interrupter (GFCI) outlet installed there by a professional electrician.
Do not cut plug from the cord. If the plug is cut or the cord is shortened, then this action will void the warranty.
No....The National Electric Code requires that a ground fault circuit interrupter (GFCI) be used in the branch circuit supplying fountain pumps and other pond equipment. We suggest that you have a ground fault circuit interrupter (GFCI) outlet installed there by a professional electrician.
The height of the fountainhead should be not more than half the width of the basin to minimize over-spray and wind-carried mist.
The width of your fountain's catch basin should be more than twice the height of the fountainhead to avoid most water overspray and wind-carried mist.
If you recently cleaned your fountain, waterfall, or the pump filter, you may be losing water in your pond due to over-spray. A pump running more efficiently will produce more pressure that can cause intense splashing and over-spray. Over time the splashing will decrease the pond water level. Examine rocks and other decorative elements around your water feature for any signs of significant dampness or splashing, and adjust your pump capacity accordingly.

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