- Home
- 50Hz
- Waste Water Submersibles
- Aerators
- JET / TAR Series
JET / TAR Series
Technical Specification
| Frequency | 50Hz |
| Power range | 2.2 to 14 kW |
| Max. Air Intak | Upto 125 m³/h |
| Power Supply | 380 – 415V – 3Phase |
| Max. Immersion Depth | 20m |
| Impeller Type | Mono-Channel Impeller |
Material of Constructions
Cast Iron
Applications
Product Description
The JET / TAR Series submersible pumps are specifically engineered to provide efficient, reliable, and consistent performance in demanding applications that require effective handling of both air and liquids. Operating at a 50Hz frequency, these pumps are available in a power range from 2.2 kW to 14 kW and utilize a three-phase 380–415V power supply, ensuring stable operation, optimized energy consumption, and dependable performance in industrial and municipal environments.
These are equipped with a mono-channel impeller, designed to allow smooth fluid passage while significantly reducing the risk of clogging. This impeller configuration ensures steady hydraulic performance even under challenging conditions involving suspended solids or variable flow. In addition, the pumps offer a maximum air intake capacity of up to 125 m³/h, making them highly suitable for applications requiring efficient aeration combined with reliable liquid movement.
Designed for continuous submerged operation, the pumps support a maximum immersion depth of 20 meters, enabling effective use in deep sumps, tanks, treatment basins, and underground installations. Their rugged construction ensures durability, long service life, and reduced maintenance requirements, even when operating under fluctuating load conditions Combining compact design, durability, and ease of installation, the JET / TAR Series delivers a dependable pumping solution for wastewater handling, aeration systems, industrial processes, and specialized liquid transfer applications. With reliable airflow capacity and optimized hydraulic performance, these pumps ensure long-term operational efficiency with minimal downtime.
