Introduction to Atomization Technology

Table of Contents

Atomization technology refers to processes that turn bulk liquids into tiny droplets or a fine spray. It is widely used in applications like combustion, coating, cleaning, humidification, and more. This article will provide a detailed guide to atomization equipment, working principles, applications, design considerations, supplier selection, installation, operation, maintenance, and frequently asked questions.

Introduction to Atomization Technology

Atomization is the process of breaking up bulk liquids into fine droplets by imparting energy. It converts liquids from continuous streams or pressurized flow into dispersed mists.

Atomization enables improved contact between the liquid and a gas, substrate, or another immiscible liquid. It facilitates rapid heat and mass transfer, chemical reactions, and changes of state.

Some key advantages of atomization technology include:

  • Higher surface area contact resulting in faster reactions and transfer processes
  • Better mixing and interaction between different phases
  • More uniform treatment and coatings
  • Enhanced combustion, evaporation, humidification, or cleaning
  • Precise control over droplet size distribution

Atomization is widely used in applications like:

  • Fuel injection in engines
  • Spray drying of foods, chemicals, and pharmaceuticals
  • Humidification and fogging
  • Painting and coating
  • Agricultural chemical spraying
  • Medical nebulizers
  • Perfume dispensers
  • Fire suppression
  • Wastewater treatment
  • Flue gas scrubbing

The core technology involves forcing a pressurized liquid through a nozzle opening at high velocity. This imparts energy to destabilize the liquid stream and break it up into droplets.

Different atomization techniques impart energy in different ways. The key methods are:

Types of Atomization Techniques

MethodPrinciple
Pressure atomizationForcing liquid through a nozzle under high pressure
Rotary atomizationSpinning a liquid off a high-speed rotating cup or disk
Pneumatic atomizationExposing liquid stream to high-velocity gas flow
Ultrasonic atomizationUsing high-frequency sound waves to disturb liquid jet
Electrostatic atomizationApplying electrostatic charge to destabilize liquid surface

The atomization technique determines the droplet size distribution, spray pattern, droplet velocity, and other parameters. The choice depends on the application’s needs.

Now let us look at some major atomization equipment types and their working principles in more detail.

atomization technology

Types of Atomizers

Atomizers are devices engineered to break up liquids into sprays or mists. Here are some common types and their key characteristics:

Pressure Atomizers

TypePrincipleDroplet SizeFlow RatePressurePattern
Plain-orifice nozzleLiquid forced through small hole50-500 μmLow2-10 barHollow cone
Single-fluid nozzleSwirl imparted before exit orifice15-250 μmMedium5-30 barFull cone
Dual-fluid nozzleAtomizing gas accelerates liquid5-150 μmMedium-high1-10 barFull cone
Deflector nozzleLiquid impinges on deflector plate10-150 μmMedium5-20 barWide flat spray
Airblast nozzleHigh-speed air shatters liquid sheet50-400 μmMedium-high1-5 barFlat fan

Pressure atomizers like spray nozzles and single-fluid swirl nozzles are widely used due to their simple construction and ability to cover wide flow ranges. They can be engineered to produce sprays with different drop sizes, patterns, and velocities.

Rotary Atomizers

TypePrincipleDroplet SizeFlow RateSpeedPattern
DiskLiquid fed to center, spins off edge10-75 μmLow-medium8,000-35,000 rpmCircular
CupLiquid fed to cup, spins off rim40-150 μmMedium-high3,000-15,000 rpmDonut-shaped

Rotary atomizers consist of spinning components like disks or cups that sling liquid off via centrifugal force. They achieve fine droplet sizes suitable for applications like spray coating and drying. Drawbacks are the complex drive systems required.

Pneumatic Atomizers

TypePrincipleDroplet SizeFlow RateGas VelocityPattern
Internal mixGas mixes with liquid internally10-100 μmLow-medium100-250 m/sHollow cone
External mixGas blows perpendicular to liquid50-400 μmMedium-high75-100 m/sFlat fan
Whistle nozzleHigh-speed gas creates low pressure25-75 μmLow100-350 m/sHollow cone

Pneumatic atomizers use gas momentum to shred the liquid into droplets. They offer advantages like low liquid pressure needed and can handle viscosities. But they require high volumes of compressed air or gas.

Ultrasonic Atomizers

TypePrincipleDroplet SizeFlow RateFrequencyPattern
Vibrating surfaceLiquid placed on vibrating plate5-100 μmVery low20-200 kHzWide dispersion
Vibrating nozzleLiquid passed through vibrating nozzle15-150 μmVery low20-120 kHzSpray cone

Ultrasonic atomizers work by using high-frequency vibrations to destabilize the liquid flow. They can achieve very fine droplet sizes suitable for misting and humidification. But have limited flow capacity.

Advanced Atomizers

Some other advanced atomization methods like electrostatic, ultrasonic gas atomizing, and effervescent atomizing are also used for specialized applications.

Now that we have seen the various atomizer types, let us look at critical design and operating parameters.

Atomizer Design Parameters

Following are some key parameters to consider when selecting and designing atomizers:

Droplet Size

A key outcome of atomization. Fine droplets below 100 μm are needed for applications like coating. Larger droplets work for sprinkling or humidification. Achievable sizes depend on technology.

Flow Rate

Atomizer capacity ranging from less than 1 LPH to over 50,000 LPH. Match atomizer size to application needs.

Spray Pattern

Hollow cone, full cone, flat fan, or circular patterns. Select pattern shape based on coverage needs.

Droplet Velocity

Typical range 5 – 100 m/s depending on pressure and atomizer type. Higher velocities improve momentum transfer.

Liquid Properties

Viscosity, surface tension, and temperature affect atomization. Account for liquid properties when selecting atomizer.

Operating Pressure

Pressure atomizers need high liquid pressure of 2-30 bar. Lower pressure needed for pneumatic types.

Gas Flow Rate

Pneumatic atomizers require high gas flow rates. Critical for obtaining desired drop sizes.

Rotational Speed

Spin rates from 3,000 – 100,000 rpm for rotary atomizers. Higher speed gives smaller drops.

Power Consumption

Important factor. Pressure and rotary types consume significant power.

Material Compatibility

Atomizer materials must be compatible with liquid chemical properties.

Cost

Wide range based on type, size, materials. Balance performance and budget needs.

Consider all parameters and select atomizer to meet the application requirements in the optimal way.

Applications of Atomization Technology

Atomizers are used in a vast range of industrial, commercial and consumer applications. Here are some major examples:

Spray Drying

Turns liquid feeds into dried powder by atomizing the feed into hot air. Used for foods, chemicals, pharmaceuticals.

ApplicationAtomizer UsedDrop SizePattern
Milk powderRotary40-150 μmCircular
CoffeePressure50-150 μmFull cone
DetergentRotary20-100 μmCircular
CeramicUltrasonic5-20 μmWide dispersal

Combustion Systems

Atomizers spray fuel into engines and boilers for improved mixing and combustion.

ApplicationAtomizer UsedDrop SizePattern
IC enginesMulti-hole nozzle15-90 μmHollow cone
Industrial burnersSteam-assisted nozzle80-150 μmSolid cone
Oil furnacesRotary cup50-200 μmDonut

Coating and Painting

Atomizers evenly apply paints, lubricants, adhesives onto surfaces.

ApplicationAtomizer UsedDrop SizePattern
Automotive paintingRotary bell40-90 μmCircular
Furniture coatingAir spray gun80-250 μmFlat fan
AdhesivesUltrasonic10-30 μmWide dispersal
Machine lubricationInternal mix nozzle50-150 μmHollow cone

Humidification and Cooling

Ultrasonic and pressure atomizers generate fine mist for humidity control and cooling.

ApplicationAtomizer UsedDrop SizePattern
GreenhousesSpinning disk50-100 μmCircular
Data centersUltrasonic plate5-20 μmWide dispersal
MachiningAnnular nozzle75-150 μmSolid cone

Agricultural Spraying

Hydraulic nozzles spray pesticides, fertilizers, and other agrochemicals for crop care.

ApplicationAtomizer UsedDrop SizePattern
Broadcast sprayingDeflector nozzle80-250 μmFlat fan
Row crop sprayingTwin fluid nozzle150-400 μmHollow cone
Orchard sprayingWhirl chamber100-250 μmHollow cone

Wastewater Aeration

Fine bubble diffusers atomize air into wastewater for oxygen transfer during treatment.

ApplicationAtomizer UsedBubble SizePattern
Activated sludge tankSubmerged turbine1-5 mmDispersed
Oxidation ditchPorous membrane0.5-2 mmWide dispersal
Aerated lagoonMechanical surface aerator3-8 mmRandom

This shows the remarkable range of industries and processes that leverage atomization technology due to its advantages.

Now let us look at engineering considerations for atomizer selection and design.

atomization technology

Engineering Design Guidelines

Proper design is key to achieving optimal atomizer performance for the application. Here are some guidelines:

Droplet Size Distribution

A key criterion. Select atomizer technology based on target drop sizes needed. Use measurements like DV10, DV50, DV90.

Liquid Properties

Consider viscosity, surface tension, corrosiveness, and temperature. Match materials and operating conditions.

Flow Rate Capacity

Size atomizer to provide necessary flow range. Add safety margin of 20-30%.

Spray Coverage

Choose spray angle, pattern and height to achieve required coverage. Account for overlap.

Pressure Rating

Atomizer and piping must withstand necessary liquid and gas pressures. Add safety factor.

Mounting Configuration

Layout to provide proper spray targeting, drainage, and accessibility for maintenance.

Operational Control

Install instrumentation to control flow, pressure, rotational speed, gas flow within operational range.

Liquid Filtration

Install filters to remove particles that could clog small orifices. Specify 10-25 micron rating.

Service Access

Allow safe access to internal components requiring inspection or replacement.

Materials of Construction

Select materials resistant to liquid properties and environmental conditions. Avoid corrosion.

Following these guidelines will result in an atomizer system optimized for peak performance and reliability.

Supplier Selection and Costs

Many manufacturers offer atomizers tailored to different applications. Here is guidance on selection and budgeting:

Leading Atomizer Manufacturers

CompanyLocationProducts
Spraying Systems Co.USAFull range of nozzles
EXAIRUSACompressed air nozzles
LechlerGermanyPressure nozzles
SchlickGermanyRotary atomizers
Düsen-SchlickGermanyPneumatic nozzles
Sono-TekUSAUltrasonic atomizers

Estimated Atomizer Costs

TypeCapacityMaterialsPrice Range
Pressure nozzle1 – 20 GPHIndustrial duty$50 – $500
Pneumatic nozzle5 – 100 GPHIndustrial duty$100 – $1,000
Rotary disk5 – 30 GPHStandard$2,000 – $5,000
Ultrasonic0.1 – 2 GPHStandard$1,000 – $3,000
  • Prices vary based on materials, sizes, and specifications
  • Budget 2-4X for highly engineered application-specific designs
  • Leading OEM suppliers offer reliable performance and support

Tips for Selecting Atomizer Suppliers

  • Verify expertise and track record in your application area
  • Check range of available nozzle designs and flow capacities
  • Ensure local sales and technical support availability
  • Request samples to test atomizer performance
  • Review warranties and service life guarantees
  • Compare pricing between 3-5 suppliers for budgeting
  • Prioritize quality over lowest cost to avoid maintenance issues

This provides a starting point to source and budget for quality atomizers suited to your application needs.

Installation, Operation and Maintenance

Proper installation, usage and maintenance are vital for optimizing atomizer performance, longevity and safety.

Installation Guidelines

  • Mount securely using manufacturer recommended hardware
  • Pay attention to height, orientation and spray targeting
  • Allow sufficient clearances for airflow and spray dispersion
  • Connect liquid and gas lines securely following standards
  • Install filtration, valves and instrumentation per design
  • Check for leaks, vibrations, blockages before commissioning

Safe Operation

  • Operate within recommended pressure, temperature and load ranges
  • Use protective equipment like face shields when in close proximity
  • Clean clogged orifices using compressed air or soft brush only
  • Monitor flow rate, pressure drop, spray pattern for issues
  • Shut down immediately if abnormal noise or severe vibrations occur

Maintenance Schedule

ActivityFrequency
Inspect exterior conditionWeekly
Check mounts, connectionsMonthly
Clean external surfacesQuarterly or as needed
Monitor filters, gaskets, sealsQuarterly or per OEM
Inspect internal passagesAnnually
Replace worn componentsOn performance deterioration or per OEM

Storage and Handling

  • Cap openings when nozzle is not in use
  • Store in clean, dry environment away from vibration
  • Avoid physical damage to delicate components

Proper installation combined with good operating and maintenance practices will provide long and trouble-free atomizer operation.

atomization technology

FAQs

Here are answers to some frequently asked questions about atomizer selection and troubleshooting issues:

What are typical reasons for poor atomization?

  • Clogged or worn nozzle orifices due to inadequate filtration
  • Liquid viscosity too high for atomizer design
  • Operating pressure too low
  • Rotary atomizer speed too low
  • Gas flow rate insufficient for pneumatic types

How to correct non-uniform spray patterns?

  • Clean or replace nozzle orifices if clogged
  • Adjust liquid and air pressures within recommended range
  • Replace worn nozzle components
  • Verify alignments, settings per manufacturer

What causes nozzle clogging problems?

  • Insufficient liquid filtration – install finer filters
  • Operating below minimum pressure – increase pressure
  • Allowing atomized liquid to dry and deposit on orifices

How to reduce atomizer operating noise?

  • Ensure operating conditions match specifications
  • Check for damaged or worn components
  • Isolate atomizer using dampeners and flexible connections
  • Modify acoustic environment to absorb noise

What maintenance helps maximize atomizer life?

  • Follow recommended cleaning procedures regularly
  • Replace filter elements when pressure drop increases
  • Use soft brushes and compressed air for cleaning – avoid hard objects
  • Lubricate bearings and seals per OEM procedures
  • Inspect critical parts like disks and cups regularly for wear

When is it necessary to rebuild or replace atomizer?

  • If orifices are badly worn and increasing in size
  • If liquid impingement surfaces are damaged, affecting spray
  • If disk/cup surfaces have visible irregularities or defects
  • If seals are leaking and bearings worn out
  • If critical spares are no longer available

Where can I find atomizer manufacturers and suppliers?

  • Leading companies like Spraying Systems, Schlick, Lechler, EXAIR, Sono-Tek
  • Industrial supply distributors like Grainger, McMaster-Carr, WW Grainger
  • Online vendors on platforms like Alibaba, Made-in-China, globalsources.com
  • Local vendors in your region specializing in spray technology

Conclusion

Atomization is a vital process used in diverse applications across industries to transform liquids into sprays and mists. Selecting the right atomizer technology and design for your needs is critical. Pressure, rotary, pneumatic and ultrasonic atomizers each have pros and cons. Applications range from spray drying to painting to agricultural spraying.

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