Reduce WASTE


Operating more sustainability is largely about reducing waste. Spraying Systems Co. offers more than a few strategies for waste reduction.  

Operating more sustainably is largely about reducing waste:

  • Water, energy and chemicals
  • Scrap or process waste
  • Extending service life of wear parts
  • Recycling

Here are a few strategies for waste reduction:


Ensuring a homogeneous fluid mix throughout the tank provides many benefits:
  • Solution uniformity - temperature, pH, solids/gas dispersion and chemical distribution - helps ensure product/process quality
  • Uniform composition and distribution of additives
  • Eliminates temperature or composition stratification
  • Eliminates or reduces sludge build-up and reduces tank cleaning time
  • Enables the use of small pumps to mix large tanks
    • Smaller pumps are less costly to purchase and less costly piping
    • Smaller pumps are less costly to operate
  • Simplifies operation and maintenance – no moving parts
  • Eliminates the need for compressed or blower air and the resulting oil contamination and/or ventilation or emission problems
A Guide to Optimizing In-Tank Agitation and Mixing Using Eductors, Bulletin 635A (PDF)

Eductor Sizing Tool


Preventing freezing and fouling helps ensure optimal performance from heat exchangers. As fouling occurs, thermal and mechanical performance decreases; fluid flow is impeded, corrosion is accelerated and pressure drop increases. Spray technology is a highly effective preventive measure:
  • Injection of cleaning solvents can help prevent build-up on the tube sheet face
  • Injection of glycol can help prevent freezing
The placement of the spray injector and selection of the spray nozzle are critical. Computation Fluid Dynamics (CFD) modeling is often used to eliminate guesswork and validate performance prior to injector fabrication.  

Watch: CFD Model Illustrates Differences in Injector Design and Placement

A Guide to Optimizing Spray Injector Performance, Bulletin 579B (PDF)


Using spray injectors instead of quills minimizes waste in several ways:
  • Quills, which are pipes with slots or holes, deliver uninhibited fluid flow and relies on the receiving process stream to break up and mix the injected fluid
  • Spray injectors equipped with nozzles, convert the fluid into a predictable drop size spectrum and provide specific spray characteristics. This minimizes use of the injection fluid, ensures better mixing and process results and prevents over-wetting, excessive maintenance and damage to downstream equipment
Our newest injection technology enables use of available plant steam or other light gases for atomization instead of costly compressed air. FloMax-S spray injectors feature a unique design to minimize wear points and extend nozzle life.   

Optimizing Injector and Quill Performance, White Paper 109 (PDF)
FloMax®-S01 Steam Atomizing Retractable Injector, Bulletin 743A (PDF)

Learn More About Our Products for Waste Reduction

Additional Resources

Featured Resource

Optimizing Injector and Quill Performance

Discover how to optimize quill and injector performance in refinery operations.

Featured Resource

A Guide to Optimizing Spray Injector Performance

Optimize performance with injectors built for your exact process conditions.

Featured Resource

OptiMax Injector

A new and better option for torch oil, slurry backflush, quench and other similar injection operations. 

Featured Resource

FloMax®-S Nozzles

High-efficiency steam nozzles optimize gas cooling & eliminate the need for compressed air. 

Featured Technology

CFD Studies on Effects of Counter Current Spraying

Watch a computational fluid dynamics (CFD) study showing the effects of hollow cone nozzles in a process stream.

Featured Technology

CFD Animation of the Effects of Nozzle Placement in Gas Stream

Watch how computational fluid dynamics (CFD) shows how nozzle placement can improve evaporation rates of injection fluids in a refinery application.