Description
Reef Octopus HY Bubble Blaster S-Series Skimmer Pump
Overview
Our Bubble Blaster are specifically engineered for Protein Skimmer, with a clear volute which create intense amount of bubbling, much more than a conventional pump. While most other skimmer pumps in the market are water pumps fitted with a modified needle impeller, our Bubble Blaster pumps were the first pumps specially engineered to enhance and increase the efficiency of our protein skimmers.
Our pumps uses the rare earth magnet (Neodymium) which produces a lot more power than a regular Ferrite magnet, and can be up to 9 times more expensive.
An in-built Digital Circuit Board ensure that a constant flow rate is maintained, and prevent the pump from damage by controlling the directional start-up and RPM speed.
During pump operation, should a problem be detected, the pump will shut itself down to prevent damage.
Our Bubble Blaster Pump run silently, efficiently, and at a low temperature. Using Silicon Nitride impeller, which is much more wear resistant compared to ceramics, commonly used in other pumps. It can be run in both Wet or Dry conditions.
2 years warranty against manufacturing defect
Features & Benefits
- High Air Intake
- Specifically Made for Protein Skimmer
- Uses very strong Neodymium Magnet
- Silicon Nitride Shaft and Bearings as standard
- Digital Circuit Board ensuring constant flow
- Wet or Dry
- Low Heat
- High Volume
- Silent operation
- 2 years warranty against manufacturer defects.
Technical Data
Product | Wet/Dry | Air intake | Power | Maximum Flow Rate | Connection Size (Outlet) | |||||||
50HZ | 60HZ | 50HZ | 60HZ | 50HZ | 60HZ | |||||||
LPH | GPH | LPH | GPH | w | w | LPH | GPH | LPH | GPH | |||
HY-3000S | Both | 1100 | 290 | 1136 | 300 | 30 | 35 | 1550 | 409 | 1609 | 425 | ø32(1″) |
HY-5000S | Both | 2100 | 554 | 2385 | 630 | 40 | 55 | 1700 | 449 | 1817 | 480 | ø40(1-1/4″) |
HY-10000S | Both | 4000 | 1056 | 4542 | 1200 | 100 | 125 | 3200 | 845 | 3293 | 870 | ø40(1-1/4″) |
Downloads
HY Pump Maintenance Video http://youtu.be/MU5jXjvCS-Y