Applications

Speciality

Nomad Diaphragm After-Market Pump Parts

DA GLOBAL features thousands of after-market parts IN STOCK in our California-based, 15,000 sq. ft. facility. We specialize in after-market parts for WILDEN®, WARREN RUPP® and ARO®, among others. Large tooling investments allow us to bring forth hundreds of new parts every 6 months, making NOMAD the undisputed leader in its industry.

Nomad Diaphragm After-Market Pump Parts

JDA GLOBAL LLC (est. 2011) serves as the world's largest & most experienced after-market diaphragm pump products provider. World class supply chain management, coupled with a proven track record in distribution development brings forth strong customer satisfaction. Linked with LOW COST, HIGH QUALITY products, rapid delivery and "easy to do business with" customer service, we strive for a "customer for life" strategy and fulfillment.

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Netzsch Drum Unloaders

NEMO® Barrel Emptying Pumps suction themselves automatically to the bottom of the barrel or container to achieve almost residue-free emptying in the chemical, pharmaceutical and foods industries. The heart of the Barrel Emptying System is a volumetrically conveying NEMO® Progressing Cavity Pump. When the NEMO® Pump is started, a vacuum is created under the follower plate. This then simultaneously puts slight pressure on the substance in order to guarantee constant suction in the pump.

Features of NEMO® Barrel Emptying Pumps:

  • very gentle conveyance
  • nearly residual-free emptying
  • conveyance also of compacted products
  • conveyance of solids

NEMO® Barrel Emptying Pumps offer you:

  • conveyance volume in proportion to rotation speed
  • constant low-pulsation conveyance
  • high efficiency
  • low life cycle costs combined with easy serviceability

Everything from a single supplier!
Our broad product portfolio makes it possible for us to design complete dosing systems for you. Take advantage of our many years of experience and know-how.

Netzsch Drum Unloaders

NEMO® Barrel Emptying Pumps

Universally applicable – The NEMO® Barrel Emptying Pump empties nearly any container!

Wide Spectrum of Applications
The NEMO® Barrel Emptying Pump is used primarily for substances with the following properties…

  • low to high viscosity
  • dilatant, thixotropic or structurally viscous
  • highly filled
  • shear-sensitive and pressure-sensitive
  • highly abrasive
  • smearing or non-smearing
  • sticky or gel-like
  • heated or unheated

…such as

  • RTV silicones
  • 1K and 2K epoxies
  • PUR sealing compounds
  • petroleum jelly
  • various fats
  • fruit concentrates
  • doughs

Additional Features of the NEMO® Barrel Emptying Pump

  • nearly shear-free conveyance of highly viscous, highly abrasive or highly filled substances
  • continuous or intermittent emptying
  • clean emptying, residue of less than 1-2%
  • no hiatus
  • very gentle, low-pulsation conveyance
  • very little pressure on the follower plate
  • emptying of conical barrels
  • low pressure conditions in the system
  • capacity is infinitely adjustable by means of the rotation of the motor
  • dosing directly from the barrel

Large Range of Capacities

  • flow rates of approx. 2 l/h to approx. 5000 l/h

Grundfos Pressure Systems

A pressure boosting system is designed to increase low pressure in a water system in order to achieve sufficient water flow and pressure to consumers.

Pressure boosting systems generally consist of one or more pumps which are installed in a booster system to increase the pressure in a system to a certain point independent of flow and inlet pressure.
 
System configuration
Pressure boosting systems are available in various system configurations, each offering different advantages and characteristics such as comfort level, initial investment cost, running costs, flexibility and supply assurance.
 
Examples of pressure boosting configurations:

  • Direct boosting systems: A system where a booster set connected directly to the water mains serves the whole building or only the upper parts of it.
  • Zone divided systems. Here, a number of boosters connected to the water mains or a common break tank serve their own pressure zone.  
  • Roof top tank systems. Here, a booster fills up a roof tank from where the water uses gravity to run to the consumer. This system often has a separate booster set serving the upper floors where the pressure is too low due to insufficient geometric height.
  • Series connected system with intermediate break tanks. Here, every booster serves its own pressure zone in a building, drawing from its own break tank which is located on a separate floor. 
  • Series connected system without intermediate break tanks. Here, the boosters are connected directly in series.  

 
 
Variable Frequency Drive (VFD) controlled systems
VFD controlled systems can deliver the exact needed amount of water thus ensuring that only the needed energy is consumed. These systems also have the advantage that the set point can be altered according to the flow, ensuring that the energy loss due to resistance in pipes is reduced. So even though the initial investment in such a system is higher than in a non-VFD system, the low running cost, the high comfort level and the flexibility of the system often justify the investment. 

Grundfos Pressure Systems

The Grundfos Hydro MPC booster systems are made to the very highest standards. Thanks to the CU 352 controller, they handle even the most difficult boosting jobs with ease and accuracy.
All components have been combined with focus on quality and efficiency. The Grundfos Hydro MPC booster systems are designed to last: sturdy, compact units with easy access to all service parts. Grundfos Hydro MPC booster systems can be used wherever additional pressure is required. Each booster model has been designed to meet specific customer demands for capacity and control.

The intelligent cascade control ensures that the optimum number of pumps required to meet the demand runs at any time. Together with the CR with IE3 motors, this makes the Hydro MPC the most energy-efficient solution for maintaining a constant pressure during changing flow demands.

Applications

  • Schools
  • Hotels
  • Blocks of flats
  • Irrigation systems
  • Industry
  • Municipal supply systems.

Features and benefits

  • Reliable highly efficient
  • Highly efficient
  • Service-friendly
  • Space-saving
  • Easy to commission
  • Perfectly adapting to the flow
  • Low-flow detection
  • Application-optimised software
  • BUS and Ethernet communication option
  • Large, clear display
  • Menus in plain text
  • Log function.

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Grundfos Cast Iron Submersible Pumps

The SEG range of grinder pumps from Grundfos is specifically designed for pumping effluent and untreated sewage for small communities or sparsely populated areas with no sewer systems or where gravitation systems are unsuitable.

Pressurised systems are the perfect choice for transfer of effluent and sewage, and the SEG range combines cost-effective prices with maximum protection for the environment by facilitating the use of smaller pressure pipes for minimal investment costs.

The SEG range is designed to reduce energy consumption and to keep downtime costs to a minimum, while maintaining peak performance throughout the system life.

Grundfos Cast Iron Submersible Pumps

Applications

The Grundfos SEG pumps are specifically designed for pumping untreated wastewater from domestic, commercial or municipal sources. The high discharge pressure enables transfer of wastewater over longer distances.

Features and benefits

Cable plug connection

Efficient grinder system

SmartTrim impeller adjustment

Unique clamp connection

Specially designed lifting handle

Unique cartridge shaft seal

Modular design

Heavy-duty ball bearings.