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Industries Overview

All Industries

  • Centrifuge applications: Utilize regenerative AC drives instead of resistor braking.
  • Decanter systems: Implement AC multidrive solutions rather than mechanical controls.
  • Fan speed management: Adopt AC drives for effective speed control over dampers, on-off systems, two-speed motors, and inlet vanes.
  • Replace conventional AC motors with high-efficiency AC motors.
  • Upgrade to new AC drives and motors instead of outdated models.
  • For sludge dewatering centrifuges, replace hydraulic controls with AC drives.
  • Optimize pump operations: Use AC drives for speed control instead of recirculation and throttling methods.
  • Implement PumpSave technology for accurate pump energy calculations.
  • Employ AC drives with common DC buses for winders and unwinders.
  • Car painting booth fans: Transition to AC drives instead of inlet vanes.
  • Engine test rigs: Utilize regenerative AC drives as an alternative to mechanical systems.
  • Bank computer center cooling pumps: Implement AC drives instead of throttling.
  • Broadcasting studio fans: Use AC drives for effective on-off control.
  • Chiller compressors: Integrate AC drives instead of mechanical controls.
  • Air conditioning in gate rooms: Use AC drives for efficient operation rather than full speed.
  • Hospital HVAC systems: Utilize AC drives for better control instead of throttling methods.
  • HVAC Air Handling Units: Replace vanes with AC drives for enhanced efficiency.
  • HVAC chiller water pumps: Employ AC drives instead of throttling techniques.
  • HVAC cooling tower fans: Implement AC drives in place of on-off controls.
  • HVAC supply fans: Transition to AC drives instead of eddy-current clutches.
  • Comfort cooling and heating in HVAC systems: Utilize AC drives for optimal performance.
  • Cement factory ID fans: Employ AC drives instead of dampers.
  • Clay workshop ID fans: Utilize AC drives for better efficiency.
  • Mine cooling fans: Implement AC drives instead of dampers.
  • Mine ore conveyors: Use AC cage motors with drives instead of slip-ring motors.
  • Mine submersible pumps: Optimize with AC drives instead of throttling.
  • Acid pumps in chemical industries: Use AC drives for better control instead of throttling.
  • Screw compressors: Implement AC drives instead of on-off control.
  • Chemical filters: Utilize AC drives instead of dampers.
  • Fin fans in the chemical sector: Replace dampers with AC drives.
  • Bakery depanners: Use AC drives for variable speed control.
  • Dairy air compressors: Implement AC drives instead of relief valves.
  • Dairy boiler feed water pumps: Optimize with AC drives instead of throttling.
  • Dairy refrigeration compressors: Use AC drives for efficient operation.
  • Distillery cooling pumps: Integrate AC drives with flux optimization.
  • Flour mill extract fans: Transition to AC drives instead of dampers.
  • Malt kiln fans: Use AC drives instead of inlet vanes.
  • Sugar centrifuges: Implement AC multidrive systems rather than two-speed motors.
  • Sugar mill boiler ID fans: Replace vanes with AC drives.
  • Ship podded propulsion: Use AC drives instead of pitch control.
  • Ship sea water pumps: Implement AC drives rather than throttling.
  • Container cranes: Utilize regenerative AC drives instead of resistors.
  • Lift speed controls: Transition to AC drives rather than pole-changing motors.
  • Appliances plant water pumps: Use AC drives instead of throttling.
  • Metal industry ID fans: Implement AC drives instead of dampers.
  • Scrubber pumps in metal industries: Use AC drives for improved efficiency.
  • Fans in steel melting plants: Transition to AC drives instead of dampers.
  • Roller tables in steel mills: Use AC drives instead of fixed speeds.
  • Oil terminal pumps: Implement AC drives instead of throttling.
  • Rubber mixers: Transition to AC drives instead of hydraulic drives.
  • Boiler coal mills: Utilize AC drives instead of bypass systems.
  • Boiler extract fans: Replace dampers with AC drives.
  • Boiler feed pumps: Implement AC drives instead of fluid couplings.
  • Refurbishment of district heating systems to reduce emissions.
  • District heating pumps: Use AC drives instead of throttling.
  • Power plant booster fans: Implement AC drives instead of inlet guide vanes.
  • Fans in power plants: Transition to AC drives instead of inlet guide vanes.
  • ID fans in power plants: Use AC drives instead of fluid couplings.
  • Wind power generators: Integrate AC drives for improved efficiency.
  • Paper machines: Transition to AC drives instead of DC drives.
  • Paper mill pulpers: Use AC drives instead of operating at full speed.
  • Pulp mill debarking drums: Implement AC drives instead of constant speed.
  • Pumps in pulp mills: Optimize with AC drives instead of throttling.
  • Pulp pumping: Use AC drives instead of smaller impellers.
  • Fabric dyeing pumps: Utilize AC drives instead of throttling.
  • Sawmill conveyors: Implement AC drives instead of two-speed motors.
  • Timber drying: Use AC drives instead of throttling.
  • Wood-processing extract fans: Optimize with AC drives instead of throttling.
  • Clean water pumps: Transition to AC drives instead of on-off systems.
  • River water axial pump controls: Utilize AC drives instead of throttling.
  • Sewage aeration controls: Implement AC drives for better regulation.
  • Sewage pumps: Use AC drives instead of throttling.
  • Wastewater pumping: Optimize with AC drives instead of on-off controls.
  • Water booster pumps: Transition to AC drives instead of throttling.
  • Water treatment pumps: Implement AC drives instead of on-off systems.
  • Irrigation pumps: Use AC drives instead of on-off controls.
  • Laboratory glove box vacuum control: Implement AC drives for precise management.
  • Milking machines: Transition to AC drives instead of relief valves.
  • Ski lifts: Utilize AC drives instead of constant speed.
  • EPC For Power and Process Industry